Details from NCBI annotation

Gene Name Heterocephalus glaber isolate NMR 29 unplaced genomic scaffold, HetGla_female_1.0 scaffold00089, whole genome shotgun sequence

Genome Location

Related Sequences

XM_004863780.1 Coding sequence

Prdm16 PR domain containing 16, transcript variant X2

High confidence: 4 potential gene matches
Length: 3753 bp    Location: 7258355..6979718   Strand: -
>XM_004863780.1
ATGCGATCCAAGGCGAGGGCGCGGAAGCTAGCCAAAAGTGACGGAGACGTTGTAAATAATATGTATGAGCCTGACCCGGACCTGCTGGCCGGCCAGAGTGCCGAGGAGGAGACCGAGGACAGCATCCTGTCCCCCATCCCCATGGGGCCGCCGTCCCCCTTCCCCACCAGTGAGGACTTCACCCCCAAGGAAGGCTCGCCCTACGAGGCCCCTGTCTACATTCCCGAAGACATTCCCATCCCGCCAGACTTGGAGCTGCGGGAGTCCTCCATCCCCGGGGCCGGCCTGGGGATCTGGGCCAAGCGGAAGATGGAAGTCGGGGAGAGGTTTGGCCCCTACATGCTGGCGCCCCGGGCCGCGCTGAAGGAGGCAGACTTTGGATGGGAGCCGATGCTGACAGCTACGGAGGTGTCATCCCAGGAAGGCTGCATCAAGAAGATCTCTGAGGACCTGGGCAGTGAGAAGTTCTGTGTGGATGCCAGCCAGGTGGGGGCCGGCAGCTGGCTGAAGTACATCCGAGTGGCATGCTCCTGTGACAACCAAAACCTCACCATGTGCCAGATCAACGAGCAGATTTACTATAAAGTCATTAAGGACATCGAGCCAGGCGAGGAGCTGCTGGTGCACGTGAAGGAAGGCGCCTACTCGCTGCGTGCAGTGCCGCCCGGCCTGGATGAGGGGCCCACGTTCCGCTGTGAGGAGTGTGATGAGCTCTTCCAGTGCAAGCTAGACCTGCGGCGCCACAAGAAGTATGCATGCAGCTCCGCAGGGGCCGCGCTGTTCGAGGGCCTGGGGGACGAGCTCAAGCCTGAGGGCCTGGGCGGCGGGCAGGCTCACGAATGCAAGGACTGCGAGCGAATGTTCCCCAACAAATACAGCCTGGAGCAGCACATGATTGTCCACACGGAGGAGCGGGAATACAAGTGTGACCAGTGTCCCAAGGCCTTCAACTGGAAATCCAACCTCATCCGCCACCAGATGTCCCACGACAGCGGCAAGCGCTTCGAATGTGAAAACTGCGTGAAGGTGTTCACGGACCCCAGCAACCTGCAGCGGCACATCCGCTCGCAGCACGTCGGCGCCCGGGCCCACGCCTGCCCAGATTGCGGGAAGACCTTTGCCACGTCCTCCGGCCTGAAGCAGCACAAGCACATCCACAGCACGGTCAAGCCTTTCATATGTGAGGTCTGCCACAAGTCCTACACGCAGTTCTCCAACCTGTGCCGGCACAAGCGGATGCACGCTGACTGCCGCACGCAGATCAAGTGCAAGGACTGCGGGCAGATGTTCAGCACTACCTCGTCCCTCAACAAGCACCGGCGCTTCTGCGAGGGCAAGAACCATTACACGCCAGGCGGCCTGTTCACCCCGGGCCTGCCCCTGACCCCCAGCCCCATGATGGACAAGGCCAAGCCCTCGCCCAGCCTCAACCACGCCGGCCTGGCCTTCAGCGAGTACTTCCCCTCCCGGCCGCAGCCTGGCGGCCTGCCCTTCTCCGCCGCCCCGCCAGCCTTCCCTGCGCTCACTCCCGGCTTCCCAGGCATCTTCCCTCCGTCCCTGTACCCCCGGCCGCCTCTGCTGCCTCCCACGCCGCTGCTCAAGAGCCCCCTGAACCACACCCAGGACGCTAAGCTGCCCAGCCCCCTGGGCAACCCGGCCCTGCCCCTCCTGTCCGCGGTCAGCAACAGCAGCCAGGGTGGCACGGCAGGCACTGGGCCGGAGGAGAAGTTCGAGAGCCACCTGGAGGACGTGTTCACGGACAAGGCCAAGGCCCGGAGCCCCGACATGTCCGACGGCAGCGACTTCGAGGACATCAACACCACCACAGGCACCGACCTGGACACCACCACGGGCACGGGCTCAGACCTGGACAGTGACGTGGACAGCGACCGCGACAGGGCCAAGGACGACGGAGGCAAGCCCGAGCGTGGGGGCGGCTCCGCAGCCCCAGGGGCCGCCAGCATGGCAGAGGCGCCCGTCTTCTACGCGCAGCACTCCTTCTTCCCGCCGCCTGAGGAGCAGCTGCTGGCCGCCTCGGGCGCCCCCGGCGACTCCATCAAAGCCATCGCGTCCATTGCTGAGAAGTACTTCGGGCCCGGCTTCGTGGGCATGCAGGAGAAAAAGCTGGGCTCGCTGCCCTACCACTCCGTCTTCCCCTTCCAGGTCCTGCCCAACTTCCCGCACTCCCTCTACTCCTTCACGGACCGCGCCCTCGCGCACAACCTGCTGGTCAAGGCCGAGCCCAAGTCGCCCCGGGACGCCCTCAAGGTGGGCGGCCCCAGTGCCGAGTGCCCCTTCGACCTCACCACCAAGCCGAAAGAGACGAAGCCCACCCTGCCCACGCCCAAGGCGCCCTCAGCCCCCGTGTCTGGCGAGGAGCAGCCGCTGGACCTGAGTATCGGCAGCCGGGCCCGCGCCAGTCAGAATGGGGGCGGCCGGGAGCCCCGCAAGAACCACGTGTACGGCGAGCGGAAGCCGGGGCCTGGCGAGGGGCTGCCCAAGGTGTGCCTGGCTCAGCTGCCGCAGCAGCCGTCTCTGCACTACGCCAAGCCCTCGCCCTTCTTCATGGACCCCATCTACAGCAGGGTAGAAAAGCGGAAGGTGACGGACCCCGTGGGTGTCCTGAAGGAGAAGTACCTGCGGCCGCCCTCGCTGCTCTTCCACCCCCAGATGTCAGCCATCGAGACCATGACAGAGAAGCTGGAAAGCTTTGCGGCCATGAAAACGGACTCGGGCGGCTCCCTGCAGCCCCTACCCCACCACCCCTTCAGCTTCCGGTCCCCACCCTCAACGCTCTCGGACCCCATCCTCAGGAAGGGCAAGGAGCGGTACACATGCAGGTACTGTGGCAAGATCTTCCCCAGATCGGCCAACCTCACCAGACACCTGAGGACGCACACCGGGGAGCAGCCATACAGGTGCAAGTACTGCGACCGCTCCTTCAGCATCTCCTCCAACCTGCAGCGGCACGTGCGCAACATCCACAACAAGGAGAAGCCCTTCAAGTGCCACCTGTGCAACCGCTGCTTCGGCCAGCAGACCAACCTGGACCGGCACCTGAAGAAGCACGAGCACGAGGCCGCGCCAGCGGGCCAGCACCCCGGGGTCCCCACCAACCACCTGGGCACCAGCGCCTCCTCCCCCACCTCCGAGTCGGACAACCACGCACTTTTAGATGAGAAAGAAGACTCCTATTTCTCTGAGATCAGAAACTTCATTGCCAACAGTGAGATGAGCCAGGCGTCAACGCGGACAGACAAACGGCCGGAGATCCAGGAGCTGGATGTCGACCCCCAGTGTCCAGGCCTGGCCAGCGAGAAGCCGGAGGACGTGGAGGAGGAGGAGGAGGAGGACCTTGAGGAGGATGAGGAGGACAGCCTGGCGGGGAAGTCCCAGGATGAGGCCGTGTGCCCCACACCTGAGCCCCAGGGCGTCTATGAGGACGAGGAGGATGAGGAGCCACCCACTGCCCTGGCCGTGGGCTTCGACCACACCCGAAGGTGTGTTGAGGAGCGAGAAGGCGGCCTGTTAGCCTTGGAGCAGACGCCGACCTTTGGGAAGGGGCTGGACCTCCGCAGAGCAGCTGAGGAAGCATTTGAAGTTAAAGATGTGCTTAATTCCACCTTAGATTCTGAGGCTTTAAAACAGACCCTGTACAGGCAGGCTAAGAACCAGAGCTCGCTGGGCGCTTGGCTGAACATAACAGGAGCCTCGTCAGAGTCTGGAGCCTTCAACCCCATCAACCACCTCTGA

XM_004863519.1 Coding sequence

LOC101705862 chromosome unknown open reading frame, human C1orf158

Length: 585 bp    Location: 346210..335077   Strand: -
>XM_004863519.1
ATGTTTTTAACTGCAGCAAATCCACAGTCTTTCTCAACTCCAAGCTGGCAGATTGAGAAGAAGTATTCAACTAGTGTGCTTACTGGGAACTGGGTGGAAGAGAGGAGAAAGTTCACCAGAGATACTGAGAAGGTCCCCCAGAGCATTCACAGAAGGGAGTATGTCCCCTTCCCGGGCCACAGGCCAGACCAGATCTCCAGGTGGTACGGGGAGAGGAGAGTTGAGGGGCTCCCATACAAACACCTGATCACCCACCACCAGGAGCCCTTGCATCGATATCTGATCAGCACATATGACGACCATTACAACCGGCACAATTATAACCCAGGCTTGCCCGCCCTCCGCACCTGGAGTAGACAGAAGTTGCTGTGGCTGCCAGAGAAGGCCGACTTCCCCCTTCTTGCTCCCCCTACAAACTATGGGCTGTATGAGCGGCTGAAGCAGAGGTGGCTTGCATCCAAGCCTGGCCTGAGTGAAAGCATTTATACTTCATCCTACCCCAGTCCACCTGTGTGCACAATGTCCAGGAGGGAGTATGCCATCCCGGTCCCTCCCCCTCGCCTACACCCTGTCCCACACTTCTGA

XM_004863688.1 Coding sequence

Camta1 calmodulin binding transcription activator 1, transcript variant X1

Length: 5049 bp    Location: 4798027..4022996   Strand: -
>XM_004863688.1
ATGTGGCGCGCGGAGGGGAAATGGCTGCCGAAAACAAGCCGGAAGAGCGTTTCCCAAAGTGTATTCTGCGGAACTAGCACCTACTGTGTTCTCAACACCGTGCCACCTATAGAAGATGATCATGGGAACAGCAATAGTAGTCATGTAAAAATCTTTTTACCGAAAAAGCTGCTTGAGTGTCTGCCGAAGTGTTCAAGTTTACCAAAAGAGAGGCACCGATGGAACACTAATGAGGAAATTGCAGCTTATTTAATAACATTTGAGAAACACGAAGAATGGCTAACCACATCCCCTAAGACAAGACCGCAGAATGGCTCAATGATACTCTACAACAGGAAGAAAGTGAAATACAGGAAAGATGGGTATTGCTGGAAAAAGAGGAAAGATGGGAAAACGACCAGAGAGGACCACATGAAACTCAAGGTCCAGGGAGTAGAGTGCTTGTACGGCTGCTATGTCCATTCCTCCATCATCCCCACCTTTCACCGGAGGTGCTACTGGCTCCTTCAGAACCCCGACATTGTCCTGGTGCACTACCTGAACGTGCCGGCCATTGAGGACTGCGGCAAGCCCTGCGGCCCCATCCTCTGCTCCATCAACACCGACAAGAAGGAGTGGGCGAAATGGACGAAGGAAGAGCTCATCGGGCAGCTGAAACCCATGTTCCACGGCATCAAGTGGACCTGCAGCAACGGCAACAGCAGCTCAGGCTTCTCCGTGGAGCAGCTGGTACAGCAGATCCTCGACAGCCACCAGACCAAGCCCCAGCCACGGACCCACAACTGCCTGTGCACCGGCAGCCTGGGAGCGGGCAGCAGCATGCACCACAAGTGTAACAGTGCCAAACACCGCATCATCTCGCCGAAGGTGGAGCCGCGGTCGGGGGGCTACGGGAGCCACTCGGAGGTGCAGCACAACGACGTGTCAGAGGGAAAGCACGAACCCAGCCACGGCAAGGGCGCCAGCCGCGAGAAGCGGAACGGCAAGGTGGCCAAGCCAGCCCTGCTGCACCAGAACAGCACCGAGGTGTCCTCCACCAACCAGGTGGAGGTGCCTGACACCACCCAGAGCTCCCCCGTGTCCATCAGCAGCGGGCTCAACAGCGACCCGGACATGGTGGACAGCCCCGTGGTCACAGGCGTGTCCAGCATGGCGGTGGCCTCCGTGATGGGGGGCTTGTCCCAGAGCGCCACGGTGTTCATGTCGGAGGTCACCAGCGAGGCCGTGTACACCATGTCCCCCACCTCGGGGCCCAATCACCACCTCCTCTCGCCCGACGCCTCTCAGGGCCTGGTCCTGGCCGTGAGCTCCGACGGCCACAAATTCGCCTTCCCCACCACGGGCAGCTCGGAGAGCCTGTCCATGCTGCCCACCAACGTGTCCGAAGAGCTGGTCCTCTCCACCACCCTCGACGGCGGCCGGAAGATCCCGGAGACCACCATGAACTTTGACCCCGACTGTTTCCTCAATAACCCAAAGCAGGGCCAGACGTACGGGGGCGGGGGCCTGAAGGCCGAGATGGTCAGCTCCAACATCCGGCACTCCCCGCCCGCTGCTGACAGGAGCTTCGGCTTCACCAGCGTCCTGGCCAAGGAGATAAAGACGGAGGACACCTCTTTCGAGCAGCAGATGGCCAAGGAGGCATACTCTTCCTCCGCAGTGGCCGCGGGCTCCGGCTCCCTCACCCTGACGGCTGGCTCCAGCCTCCTGCCATCGGGTGGCGGCCTGAGTCCCAGCACCACGCTGGAGCAGATGGACTTCAGCGCCATAGACTCCAACAAAGACTACACGTCCAGCTTCAGCCAGACAGGCCACAGCCCCCACATCCACCAGACCCCCTCCCCAAGCTTCTTCCTGCAGGACGCCAGCAAGCCCCTTCCCCTTGAGCAGACCGCCCACAGCAGCTTGAGCCACTCCGGGGGCACCTTCGTGATGCCCACGGTGAAAACCGAGGCCTCGTCCCAGACCAGCTCCTGCAGCGGCCACGTGGAGACTCGGATAGAGTCCACGTCCTCCCTGCACCTCATGCAGTTCCAGGCCAATTTCCAGGCCATGACAGCAGAAGGGGAGGTCACTATGGAGACCTCTCAGGCAGCCGAAGGGGGCGAGGTCCTCCTCAAGTCCGGGGAGCTGCAGGCCTGTGCCTCAGAGCACTACCTGCAGCCTGAAAGCAACGGGGTGATCCGAAGCGCTGGTGGGGTCCCCATCCTCCCGAGCAACGTGGTGCCGGGACTCTACCCAGTGGCCCAGCCCAGCCTGGGCAACACCTCCAACATGGAGCTCAGCCTGGACCACTTCGACATCTCCTTCAGCAACCAGTTCTCCGACCTCATCAATGACTTTATCTCCGTGGAGGGGGGCAGCGGCACCATCTACGGTCAGCAGCTGGTGTCGGGGGACAGTGCCGGGCTCTCGCAGTCGGAAGACGGGGCTCGCGCCCCCTTCACCCAGGCGGAGATGTGCATTCCCTGCTGCAGCCCCCAGCAAGGGACCCTGCAGCTGAGCAGCACTGAGGGCGGGGCCGGCACCATGGCCTACATGCACATCACAGACGTGGTCTCCGCCTCCTCAGCCCAGGGCTCGCTGGGGATGCTGCAGCCGAGCGGACGGGTGTTCATGGTGACCGACTACTCCCCCGAGTGGTCTTACCCAGAGGGAGGAGTGAAGGTCCTCATCACAGGCCCATGGCAAGAAGCCAGCAATAACTACAGCTGCCTGTTCGACCAGATCTCAGTGCCTGCATCCCTGATTCAGCCTGGGGTGCTGCGCTGCTACTGCCCAGCCCATGACACGGGTCTTGTGACCCTACAAGTTGCCTTCAACAACCAGATCATCTCCAACTCGGTGGTATTTGAGTACAAAGCTCGGGCTCTGCCCACGCTACCTTCCTCCCAACACGACTGGCTGTCATTGGACGATAACCAGTTCAGGATGTCCATCCTGGAACGGCTGGAGCAGATGGAGAGGAGGATGGCGGAGATGACGGGCTCCCAGCAGCACAAGCAGGCCAGTGGAGGCAGCGGGAGTGGAGGCGGTGGCGGCGTCAGTGGGAACGGAGGAAGCCAAGCTCAGTGCGCCTCTGGGCCTGGGACCTTGGGGAGCTGCTTCGAGAGTCGCGTGGTCATCGTGTGTGAGAAGATGATGAGCCGAGCCTGCTGGGCAAAGTCCAAGCATCTGATCCACTCGAAGACTTTCCGGGGGATGACCCTCTTACACCTGGCTGCTGCCCAGGGCTATGCCACCCTGATCCAGACCCTCATCAAGTGGCGCACAAAGCACGCGGATAGCATTGACTTGGAGCTGGAGGTCGACCCCTTGAATGTGGACCACTTCTCCTGCACGCCTCTGATGTGGGCGTGCGCCCTGGGGCACTTGGAAGCTGCTGTGGTACTGTACAAGTGGGACCGCCGGGCCATCTCCATCCCTGACTCCCTGGGCAGGCTGCCCTTGGGAATCGCCCGCTCAAGGGGCCATGTGAAATTAGCAGAGTGTCTGGAGCACCTGCAGAGAGACGAGCAGGTCCAACTGGGGCAGAACCCCAGGGCCCACGGTCCCCTGAGCCAGGAGCCAGGTACAGACAGCTGGATGGCCCAGTGGCACAGCGAAGCCATGAGCTCTCCAGAGATCCCCAAAGGCGTCACCGTTATTGCAAGTACCAATCCAGAGCTGAGAAGACCTCGGTCTGAACCCTCTAATTACTACAGCAGTGAGAGCCACAAAGATTATCCAGCTCCCAAAAAGCATAAATTGAACCCTGAGTACTTCCAGGCGAGGCAGGAGAAGCTGCTTTCCACTGCACTGAGTCTGGAACAGCCAAATATCAGGAAGCAGAGCCCTAGTTCTAAGCAGGCTGTCCCCGAGACAATCAGCCCCAGTGAAGGAGTGAGGGACTACAGCCGGGAGACCTCCCCTCCCACTCCAGAGACTGCAGCCTTCCACGCCTCTGGATCTCAGCCCGTAGTAAAGTGGAATTCCAAAGATCTTTACATTGGTGTGTCTACAGTACAGGTGACTGGAACTCCGAAGGGGACCAGTGTAGTAAAGGACACAGCACCTTCTCAGGTGCGCCCGCGGGAACCAATGAGTGTCCTGATGATGGCTAACAGAGAGGTGGTGAATACAGAGCTGGGGTCCTACCGTGATAGTGCAGAGAACGAGGAGTGTGCGCAGCCCATGGATGACATTCAGGTGAACATGATGACCCTGGCGGAACACATTATCGAGGCCATACCTGACCGGATCAAGCAGGAAAGCTTTGTGCCCATGGAGTCTCCAGCACTGGAAAGAACAGACCCTGCTGCTGTCAGCAGTACAATGAGCTGGCTGGCCAGTTACTTAGCGGATGCGGATCGTCTGCCGAATGCTGCCCAGATCAGAAGTGCGTATAACGAACCTCTGACCCCTTCTTCTAATACCAGCTTGAGCCCCGTCGGCTCGCCAGTCAGTGAAATAGCTTATGAGAAGCCTAACCTTCCCTCGGCTGCAGACTGGTCCGAATTCCTGAGTGCATCTACCAGTGAGAAGGTAGAGAATGAGTTTGCCCAGCTCACGCTGTCTGACCACGAGCAGAGAGAACTCTATGAGGCTGCCAGGCTTGTTCAGACAGCTTTCCGGAAATACAAGGGCCGACCCCTGCGGGAACAGCAGGAAGTGGCTGCTGCTGTCATCCAGCGTTGTTACAGAAAATATAAACAGCTGACATGGATAGCCTTGAAGTATGCACTTTATAAAAAGATGACCCAGGCGGCCATCCTTATCCAGAGCAAATTCCGAAGTTACTATGAACAAAAAAAGTTCCAGCAAAGCCGGCGTGCCGCCGTGCTGATCCAGAAGTACTACCGGAGTTACAAGAAATGTGGCAAGAGACTGCAGGCTCGCCGGACGGCGGTGATCGTGCAGCAGAAGCTCAGGAGCAGTTTGTTAACCAAAAAGCAGGACCAAGCTGCTCGGAAAATAATGAGGTTTCTACGTCGCTGCCGCCACAGAGTGAAAGAATTGAAAAAGGCCAAGGAACTTGAAGACATACAGCAGCATCCCTTAGCAATGTGA

XM_004863689.1 Coding sequence

Camta1 calmodulin binding transcription activator 1, transcript variant X2

Length: 5049 bp    Location: 4798027..4022996   Strand: -
>XM_004863689.1
ATGTGGCGCGCGGAGGGGAAATGGCTGCCGAAAACAAGCCGGAAGAGCGTTTCCCAAAGTGTATTCTGCGGAACTAGCACCTACTGTGTTCTCAACACCGTGCCACCTATAGAAGATGATCATGGGAACAGCAATAGTAGTCATGTAAAAATCTTTTTACCGAAAAAGCTGCTTGAGTGTCTGCCGAAGTGTTCAAGTTTACCAAAAGAGAGGCACCGATGGAACACTAATGAGGAAATTGCAGCTTATTTAATAACATTTGAGAAACACGAAGAATGGCTAACCACATCCCCTAAGACAAGACCGCAGAATGGCTCAATGATACTCTACAACAGGAAGAAAGTGAAATACAGGAAAGATGGGTATTGCTGGAAAAAGAGGAAAGATGGGAAAACGACCAGAGAGGACCACATGAAACTCAAGGTCCAGGGAGTAGAGTGCTTGTACGGCTGCTATGTCCATTCCTCCATCATCCCCACCTTTCACCGGAGGTGCTACTGGCTCCTTCAGAACCCCGACATTGTCCTGGTGCACTACCTGAACGTGCCGGCCATTGAGGACTGCGGCAAGCCCTGCGGCCCCATCCTCTGCTCCATCAACACCGACAAGAAGGAGTGGGCGAAATGGACGAAGGAAGAGCTCATCGGGCAGCTGAAACCCATGTTCCACGGCATCAAGTGGACCTGCAGCAACGGCAACAGCAGCTCAGGCTTCTCCGTGGAGCAGCTGGTACAGCAGATCCTCGACAGCCACCAGACCAAGCCCCAGCCACGGACCCACAACTGCCTGTGCACCGGCAGCCTGGGAGCGGGCAGCAGCATGCACCACAAGTGTAACAGTGCCAAACACCGCATCATCTCGCCGAAGGTGGAGCCGCGGTCGGGGGGCTACGGGAGCCACTCGGAGGTGCAGCACAACGACGTGTCAGAGGGAAAGCACGAACCCAGCCACGGCAAGGGCGCCAGCCGCGAGAAGCGGAACGGCAAGGTGGCCAAGCCAGCCCTGCTGCACCAGAACAGCACCGAGGTGTCCTCCACCAACCAGGTGGAGGTGCCTGACACCACCCAGAGCTCCCCCGTGTCCATCAGCAGCGGGCTCAACAGCGACCCGGACATGGTGGACAGCCCCGTGGTCACAGGCGTGTCCAGCATGGCGGTGGCCTCCGTGATGGGGGGCTTGTCCCAGAGCGCCACGGTGTTCATGTCGGAGGTCACCAGCGAGGCCGTGTACACCATGTCCCCCACCTCGGGGCCCAATCACCACCTCCTCTCGCCCGACGCCTCTCAGGGCCTGGTCCTGGCCGTGAGCTCCGACGGCCACAAATTCGCCTTCCCCACCACGGGCAGCTCGGAGAGCCTGTCCATGCTGCCCACCAACGTGTCCGAAGAGCTGGTCCTCTCCACCACCCTCGACGGCGGCCGGAAGATCCCGGAGACCACCATGAACTTTGACCCCGACTGTTTCCTCAATAACCCAAAGCAGGGCCAGACGTACGGGGGCGGGGGCCTGAAGGCCGAGATGGTCAGCTCCAACATCCGGCACTCCCCGCCCGCTGCTGACAGGAGCTTCGGCTTCACCAGCGTCCTGGCCAAGGAGATAAAGACGGAGGACACCTCTTTCGAGCAGCAGATGGCCAAGGAGGCATACTCTTCCTCCGCAGTGGCCGCGGGCTCCGGCTCCCTCACCCTGACGGCTGGCTCCAGCCTCCTGCCATCGGGTGGCGGCCTGAGTCCCAGCACCACGCTGGAGCAGATGGACTTCAGCGCCATAGACTCCAACAAAGACTACACGTCCAGCTTCAGCCAGACAGGCCACAGCCCCCACATCCACCAGACCCCCTCCCCAAGCTTCTTCCTGCAGGACGCCAGCAAGCCCCTTCCCCTTGAGCAGACCGCCCACAGCAGCTTGAGCCACTCCGGGGGCACCTTCGTGATGCCCACGGTGAAAACCGAGGCCTCGTCCCAGACCAGCTCCTGCAGCGGCCACGTGGAGACTCGGATAGAGTCCACGTCCTCCCTGCACCTCATGCAGTTCCAGGCCAATTTCCAGGCCATGACAGCAGAAGGGGAGGTCACTATGGAGACCTCTCAGGCAGCCGAAGGGGGCGAGGTCCTCCTCAAGTCCGGGGAGCTGCAGGCCTGTGCCTCAGAGCACTACCTGCAGCCTGAAAGCAACGGGGTGATCCGAAGCGCTGGTGGGGTCCCCATCCTCCCGAGCAACGTGGTGCCGGGACTCTACCCAGTGGCCCAGCCCAGCCTGGGCAACACCTCCAACATGGAGCTCAGCCTGGACCACTTCGACATCTCCTTCAGCAACCAGTTCTCCGACCTCATCAATGACTTTATCTCCGTGGAGGGGGGCAGCGGCACCATCTACGGTCAGCAGCTGGTGTCGGGGGACAGTGCCGGGCTCTCGCAGTCGGAAGACGGGGCTCGCGCCCCCTTCACCCAGGCGGAGATGTGCATTCCCTGCTGCAGCCCCCAGCAAGGGACCCTGCAGCTGAGCAGCACTGAGGGCGGGGCCGGCACCATGGCCTACATGCACATCACAGACGTGGTCTCCGCCTCCTCAGCCCAGGGCTCGCTGGGGATGCTGCAGCCGAGCGGACGGGTGTTCATGGTGACCGACTACTCCCCCGAGTGGTCTTACCCAGAGGGAGGAGTGAAGGTCCTCATCACAGGCCCATGGCAAGAAGCCAGCAATAACTACAGCTGCCTGTTCGACCAGATCTCAGTGCCTGCATCCCTGATTCAGCCTGGGGTGCTGCGCTGCTACTGCCCAGCCCATGACACGGGTCTTGTGACCCTACAAGTTGCCTTCAACAACCAGATCATCTCCAACTCGGTGGTATTTGAGTACAAAGCTCGGGCTCTGCCCACGCTACCTTCCTCCCAACACGACTGGCTGTCATTGGACGATAACCAGTTCAGGATGTCCATCCTGGAACGGCTGGAGCAGATGGAGAGGAGGATGGCGGAGATGACGGGCTCCCAGCAGCACAAGCAGGCCAGTGGAGGCAGCGGGAGTGGAGGCGGTGGCGGCGTCAGTGGGAACGGAGGAAGCCAAGCTCAGTGCGCCTCTGGGCCTGGGACCTTGGGGAGCTGCTTCGAGAGTCGCGTGGTCATCGTGTGTGAGAAGATGATGAGCCGAGCCTGCTGGGCAAAGTCCAAGCATCTGATCCACTCGAAGACTTTCCGGGGGATGACCCTCTTACACCTGGCTGCTGCCCAGGGCTATGCCACCCTGATCCAGACCCTCATCAAGTGGCGCACAAAGCACGCGGATAGCATTGACTTGGAGCTGGAGGTCGACCCCTTGAATGTGGACCACTTCTCCTGCACGCCTCTGATGTGGGCGTGCGCCCTGGGGCACTTGGAAGCTGCTGTGGTACTGTACAAGTGGGACCGCCGGGCCATCTCCATCCCTGACTCCCTGGGCAGGCTGCCCTTGGGAATCGCCCGCTCAAGGGGCCATGTGAAATTAGCAGAGTGTCTGGAGCACCTGCAGAGAGACGAGCAGGTCCAACTGGGGCAGAACCCCAGGGCCCACGGTCCCCTGAGCCAGGAGCCAGGTACAGACAGCTGGATGGCCCAGTGGCACAGCGAAGCCATGAGCTCTCCAGAGATCCCCAAAGGCGTCACCGTTATTGCAAGTACCAATCCAGAGCTGAGAAGACCTCGGTCTGAACCCTCTAATTACTACAGCAGTGAGAGCCACAAAGATTATCCAGCTCCCAAAAAGCATAAATTGAACCCTGAGTACTTCCAGGCGAGGCAGGAGAAGCTGCTTTCCACTGCACTGAGTCTGGAACAGCCAAATATCAGGAAGCAGAGCCCTAGTTCTAAGCAGGCTGTCCCCGAGACAATCAGCCCCAGTGAAGGAGTGAGGGACTACAGCCGGGAGACCTCCCCTCCCACTCCAGAGACTGCAGCCTTCCACGCCTCTGGATCTCAGCCCGTAGTAAAGTGGAATTCCAAAGATCTTTACATTGGTGTGTCTACAGTACAGGTGACTGGAACTCCGAAGGGGACCAGTGTAGTAAAGGACACAGCACCTTCTCAGGTGCGCCCGCGGGAACCAATGAGTGTCCTGATGATGGCTAACAGAGAGGTGGTGAATACAGAGCTGGGGTCCTACCGTGATAGTGCAGAGAACGAGGAGTGTGCGCAGCCCATGGATGACATTCAGGTGAACATGATGACCCTGGCGGAACACATTATCGAGGCCATACCTGACCGGATCAAGCAGGAAAGCTTTGTGCCCATGGAGTCTCCAGCACTGGAAAGAACAGACCCTGCTGCTGTCAGCAGTACAATGAGCTGGCTGGCCAGTTACTTAGCGGATGCGGATCGTCTGCCGAATGCTGCCCAGATCAGAAGTGCGTATAACGAACCTCTGACCCCTTCTTCTAATACCAGCTTGAGCCCCGTCGGCTCGCCAGTCAGTGAAATAGCTTATGAGAAGCCTAACCTTCCCTCGGCTGCAGACTGGTCCGAATTCCTGAGTGCATCTACCAGTGAGAAGGTAGAGAATGAGTTTGCCCAGCTCACGCTGTCTGACCACGAGCAGAGAGAACTCTATGAGGCTGCCAGGCTTGTTCAGACAGCTTTCCGGAAATACAAGGGCCGACCCCTGCGGGAACAGCAGGAAGTGGCTGCTGCTGTCATCCAGCGTTGTTACAGAAAATATAAACAGCTGACATGGATAGCCTTGAAGTATGCACTTTATAAAAAGATGACCCAGGCGGCCATCCTTATCCAGAGCAAATTCCGAAGTTACTATGAACAAAAAAAGTTCCAGCAAAGCCGGCGTGCCGCCGTGCTGATCCAGAAGTACTACCGGAGTTACAAGAAATGTGGCAAGAGACTGCAGGCTCGCCGGACGGCGGTGATCGTGCAGCAGAAGCTCAGGAGCAGTTTGTTAACCAAAAAGCAGGACCAAGCTGCTCGGAAAATAATGAGGTTTCTACGTCGCTGCCGCCACAGCCCCCTGGTGGACCATAGGCTGTACAAAAGGAGTGAAAGAATTGAAAAAGGCCAAGGAACTTGA

XM_004863645.1 Coding sequence

LOC101710659 beta-catenin-interacting protein 1-like, transcript variant X9

Length: 198 bp    Location: 2622390..2680120   Strand: +
>XM_004863645.1
ATGAACCGTGAGGGCGCGCCCGGGAAGAGTCCGGAGGAGATGTACATCCAGCAGAAGGTCCGCGTGCTGCTCATGCTGAGGAAGATGGGGTCGAACCTCACGGCCAGCGAGGAGGAGTTCCTGCGTACCTACGCGGGGGTGGTCAGCAGCCAGCTCAGCCAGCTGCCCCAGCATGCCATTGACCAGGTGATGAAATGA

XM_004863637.1 Coding sequence

LOC101710659 beta-catenin-interacting protein 1-like, transcript variant X1

Length: 246 bp    Location: 2622394..2666645   Strand: +
>XM_004863637.1
ATGAACCGTGAGGGCGCGCCCGGGAAGAGTCCGGAGGAGATGTACATCCAGCAGAAGGTCCGCGTGCTGCTCATGCTGAGGAAGATGGGGTCGAACCTCACGGCCAGCGAGGAGGAGTTCCTGCGTACCTACGCGGGGGTGGTCAGCAGCCAGCTCAGCCAGCTGCCCCAGCATGCCATTGACCAGGGTGCAGAGGACGTGGTGACGGCCTTCTCCAGGTCAGAGACAGAGGACCGGAGGCAGTAG

XM_004863638.1 Coding sequence

LOC101710659 beta-catenin-interacting protein 1-like, transcript variant X2

Length: 246 bp    Location: 2622394..2666645   Strand: +
>XM_004863638.1
ATGAACCGTGAGGGCGCGCCCGGGAAGAGTCCGGAGGAGATGTACATCCAGCAGAAGGTCCGCGTGCTGCTCATGCTGAGGAAGATGGGGTCGAACCTCACGGCCAGCGAGGAGGAGTTCCTGCGTACCTACGCGGGGGTGGTCAGCAGCCAGCTCAGCCAGCTGCCCCAGCATGCCATTGACCAGGGTGCAGAGGACGTGGTGACGGCCTTCTCCAGGTCAGAGACAGAGGACCGGAGGCAGTAG

XM_004863639.1 Coding sequence

LOC101710659 beta-catenin-interacting protein 1-like, transcript variant X3

Length: 246 bp    Location: 2622395..2666645   Strand: +
>XM_004863639.1
ATGAACCGTGAGGGCGCGCCCGGGAAGAGTCCGGAGGAGATGTACATCCAGCAGAAGGTCCGCGTGCTGCTCATGCTGAGGAAGATGGGGTCGAACCTCACGGCCAGCGAGGAGGAGTTCCTGCGTACCTACGCGGGGGTGGTCAGCAGCCAGCTCAGCCAGCTGCCCCAGCATGCCATTGACCAGGGTGCAGAGGACGTGGTGACGGCCTTCTCCAGGTCAGAGACAGAGGACCGGAGGCAGTAG

XM_004863640.1 Coding sequence

LOC101710659 beta-catenin-interacting protein 1-like, transcript variant X4

Length: 246 bp    Location: 2622395..2666645   Strand: +
>XM_004863640.1
ATGAACCGTGAGGGCGCGCCCGGGAAGAGTCCGGAGGAGATGTACATCCAGCAGAAGGTCCGCGTGCTGCTCATGCTGAGGAAGATGGGGTCGAACCTCACGGCCAGCGAGGAGGAGTTCCTGCGTACCTACGCGGGGGTGGTCAGCAGCCAGCTCAGCCAGCTGCCCCAGCATGCCATTGACCAGGGTGCAGAGGACGTGGTGACGGCCTTCTCCAGGTCAGAGACAGAGGACCGGAGGCAGTAG

XM_004863644.1 Coding sequence

LOC101710659 beta-catenin-interacting protein 1-like, transcript variant X8

Length: 246 bp    Location: 2634152..2666645   Strand: +
>XM_004863644.1
ATGAACCGTGAGGGCGCGCCCGGGAAGAGTCCGGAGGAGATGTACATCCAGCAGAAGGTCCGCGTGCTGCTCATGCTGAGGAAGATGGGGTCGAACCTCACGGCCAGCGAGGAGGAGTTCCTGCGTACCTACGCGGGGGTGGTCAGCAGCCAGCTCAGCCAGCTGCCCCAGCATGCCATTGACCAGGGTGCAGAGGACGTGGTGACGGCCTTCTCCAGGTCAGAGACAGAGGACCGGAGGCAGTAG

XM_004863937.1 Coding sequence

Tnfrsf4 tumor necrosis factor receptor superfamily, member 4

High confidence: 4 potential gene matches
Length: 825 bp    Location: 8373551..8376357   Strand: +
>XM_004863937.1
ATGTGTGTGGGGGCCCGCGCCCTCCTGCTTCTGGGGCTGGTGCATGGCGCCACAGCTGGGCTCAACTGTGTTGGGGACACCTACTTCAATGGCTACTTGTGCTGTCATGACTGCCAGCCAGGCAACAAGATGGTGAGGCGCTGCAGAGGCGGCTTGGACAGTGTGTGTCTCCCCTGTGACCCTGGTTTCTACAATGAGGCTGTCAACTACGAGGGCTGCAAGCCGTGCACGCACTGCAACCGGAGAAGTGGGAGCGAAGTCAAGCAGAATTGTACACCCACCCAGGACACCGTCTGCCACTGCAGGCCCGGCACCCAGCCTTTGGATGGCTTCAAGCATGGAGTTGACTGCAAGCCCTGCCCTCCTGGCCATTTCTCCCTGGGCAGCAACCAGGCCTGCAAGCCCTGGACTGACTGTGCCTCGACTGGGAAACAGACCTTGAAGCAAGGCAGCAGCAGTTCGGATGCCATCTGTGAGGACAGGAGTCACCTGGCCACTATGCCCTGGGAGACCCAGGGTCCCACGGCTAGGACCACCAAGGCCAGGCCCACCACGGCCCAGCCCACCATGGCCAGGCCAACTGCAGCCTGGGCCTGGACTTCTCAGGTGCCCTTCATGCCACCCTCAGAGGCCCCCAGTGGCCCGGTGCTGGCTGCTGTGCTGGGCCTGGGCCTGCTGGTCCCCATGGCTGTATTGCTGGTCCTGTACCTGTACCGAAGGGCTTGGATGCCACCTGGTGCCCCCAAGCTCCCTGGGGGAAAAAGCTTCCGGAAGCCCATCCAAGAGGAGCAGGCCAACGCACACTCTGCCCTAGCCAAGATCTGA

XM_004921170.1 Coding sequence

unclassified transcription discrepancy mRNA

Length: 633 bp    Location: 7921390..7920224   Strand: -
>XM_004921170.1
ATGGTAGGGCTGCTCAGTGCCTGGGGCCTGGTAGACTGGGTGGCAGAGAGTCGGGCAGAGAACGGCTGGGAGCCCCATCCCCTGGAGCCCCCACGTGTCCTGGAAGCCTGGCCTGTGCCAGGGCCTCCTTTTGCCCTGGAGAGGGGAAGGGCAGCCCCCCTGAGTGGGGTGTGGGGTCCCCTGCAGACAGAACAGCTGGAATACAAGGTCTTTGAGATGTTTGTTGAGGAGGGCAAAGGGGAGGTGAAGNATGGCAAGCTGCAGTGGCTGACCAGCTTGCTGGGCATCAGCCCCACCAAGAATCAGCTGGCCTCCATGGCCAAGGATGTGGACAGACAGCAGGGTAGGCGGCTGAGGTGGGGAGGCTTCCTGGCCTTGATGGGGATCTATCACGAGAAGGCCCAGAACCAGGAGGGTGAGCTCACGGGTGCACTCTGGGTCTTCCACAAGGACAGCAAGGGCTGCATCAACTGGAACAGTCTCAAGCAGGGGCTCAGGAGCGCAGGCCAGCCCCTCAGTGAGGTGGAGGCTGGGCAGATGATGGAGGCCAAGGACGGGACAGGACCAGCGCCTACAAGGTGGGAGGAGTTTGTGGCCATGATGACCGGAGAGTCCTTCAAGCTGGTCCAGTAG

XM_004863928.1 Coding sequence

LOC101709705 tumor necrosis factor receptor superfamily member 25-like

Length: 969 bp    Location: 5012536..5015063   Strand: +
>XM_004863928.1
ATGAGGGAGCTTGGGCCTGGGTATTTTGGAACATTCTTGGCCAGAGTGAGGCGCACAGGGCAGCACACCTGGGGGGACATTGCCGGGCATCCTGGGCAGCCCCTCCTGGTGTTTGCCCTGACTCATACCCTTCTGCCCTCCAGGAGTGTCCTGGGAAGCTGTCCGGAGCCCTGTGCTGCTGTCTGCGGCTGGAGGCCGATGTTCTGGGTCCAGGTGCTCGTGCCTGGCCTGGTAGCCCCATTCCTGCTCGGGGCCATCCTCATCTACTTGTATTGGCGCTGCCAGCCGCAAAATCTGGTGGTTCTGGGTAAGTCTTCACATGCAACACACACATTCCCAGGAGCCTGGGGTCAGAATAAGGGGAAACTGAGGCTGGGAGGGTGGGATGCAGGGGAATACAAGAGGAGCTGGACTTCAGGACCCAGATCCAGGGGCCGTGCCTGGTTGCTGATCAAATCCTTTCTGTCTCTGTCAGCAGACAAAGCTGGCACGGAGGCCCTGAGCCCACCACAGACCTCCCACCTGTCAGCCCCGGACAGCGCCCATGCCCTCCTCGCACCCCCTGGCCCCCTCCAGACCCAGGAGGGGCCCCATCAGCAGGTGCCACAGTCCTGGGTCCAGCTGCCCAGCCCAGCTCTTGGCTCTCCTCCGGCGCCCCCCCTCTCGCCGGCGCCCTCTGCAGGCTCTCCGGCCGCCATGCTCCAGCCGGGTCCGCAGCTGTACGACATCATGGATGCAGTCCCTGCGCGGCGTTGGAAGGAGTTCGTGCGCACTCTCGGGCTGCGCGAGGCGGAAATCGAGGCCGTGGAGGTGGAGATCGGCCGCTTCCGTGACCAGCAGTACGAGATGCTCAAGCGCTGGCGCCAGCAGCAGCCCGCGGGCCTGGGCGCCGTCTACGCGGCCCTGGAGCGCATGGGGCTGGACGGCTGCGCTGAGGACCTGCGCCACCGCCTGCAGCTCAGTCCGTGA

XM_004863922.1 Coding sequence

LOC101706451 chromosome unknown open reading frame, human C1orf127

Length: 2274 bp    Location: 1801064..1825351   Strand: +
>XM_004863922.1
ATGAGGGGGTCCCCGGCAGTTGTCTGGGCCATCTGTGTCGCCTGCTTGCAGCACTCGGTGTTCCTACAGGTCCTCCCCATCAGGTCGAACCAGGATAGGCCACGCCCTGCGCTTGGAGTTTCGGCAGTGCCCTGCATCAGGAATGGTGCTGTGGGCAAGCAGAGCAGCATTTGCAGAGGCCGTGACGTGGAGAACAGCACCTTGGGTGAAGTGTGGAGGGAAGAGGATGGAGTGTGTCAGTGTCACCATCATGTCACCATCGTTCACTACTACCACCAGCAGTGTCAGATCACCATCATCACCGTCACCATCACTACCACCATTGTCACCACCACCATCACCATGACTACCACCATCACTATGACTCCCACCACCATCACCGTCTCCACCATCACCATGACTACTACCATCACTAACCATCACCATCAGGACCCACACTACCGTCCATCAACATCACCAATCACCATCACCATCGTCACCCCCATGACCACCACCGCCAGCACCACCATCTTCGGCAGCATCATTACCATCATCATCTCCATCCCCGTCACCAATCACCACCACCATCATCATGATGTGTGTGGCACCACACCTAGCTTAGAAGTACCTTCTTGTCCAACAGACAAGGTGGAGTGCTTCTCTGACTATATGACCCTGCAGATTCCGAGCAGCCGCGTGGAGGGTTTGAGGCAGTGGCTGGGCAGAATCCTACAGCTGCCAGTCTCCTGGAGGGCCCCCAGCCACCTGGATCCTCTTCTTGCCCGATGTGGCTACTTCCTGCATCCCGCACCGGATGGTGACTTCATTTTCCGAGCTCGATACTCGGCCTGCTTGGTGCGGAAGGAGAAAGAAAATTACAGGTTGGAAATCAGACTACTTCACACAGGGGTGAAAAGGCTGGAGCGGAGCAAAGGCTACATAATGAAGTGTCCAGCGGCTGTGTCCAGGCTGGGGCGACAGAGCGTCCACTGCAGCCCCACGTTCATCCAGGTCTCCCGGCCTCTGCCCCTGAGGAGCAACAGTAGGCAGACCCCTTGGCTGCTGTCCCTTCGAGGGGAGCTGGTGGCCTCTCTGGAGGATGCCAGTCTGATGGGATTATACGTGGACGTCAGTGCCACCACGGTCACCGTCCAAAGCCCAAGACAAGAACTTCTTCAGAGGCGGGAGGTGCTGAACACGTCTGCAGAGCTCCTGCCACTCTGGCTGGTGAGCAGCCACTATGCCTATCCCCTGGAGGCTGTGTGCCCACCGGTGTCATCCCAGCCAGGATCGGAGGTCTTAGTCCACATCCCCAGGCAGAGACTGGGCCTGGTCAAAAGAGGTTCCCACTTTGAGGAAGCCCTGAGCCTAAAATCCCTCCGAGTGCACCAGTCCACCACCTTCACAGTGACTGAGAGCAGGGATTTCGTGGTGGTCAGCATCCCAGGGGCTCCGCTGCTCCAGGTCCGGCCGTGCCAGGAGGCCCAAGGAGCCCCGGGAAAGCAGGCCTTCTACAGCGTGGACCTGAGCCTGGAATTTGCTGAGTCCGAGACCCCAGTGTTCTGGACGGTGGAAAACCACTTCCGGTGCATGGGTTCAGGGACAGTGTCGCCTGCTTCGACAGATGCATTGAGGACAAGTCCCTCCTGGCCACCCCCAGAATTGGCGACCCCTCCAGCAACATCGCCACCCACTGCCTCTTTTCAGTCCCAGAACACAGCCCAGGCTGGCCCGGCCCAGGCAAGTCCACCTCCCACTGCCCCAGCCACACATCTATCCTCAGAAGCCTCCTCTCCTCCGTCACCCTCCTGGAGGTCTGACCAATCTGAAGTGTCCCTGGGTTCCGGACCTGTCAGCCTAATGGAAGGTCCCCAGCAGGACCCTGCCCATTCACTGCTGGGAGGGCTGTCAGGAGTGGATGTGGCTGTCATGGAGCCCACGAAGGCCCTCGAGGAGCTCCAGCCATCAACGAGGCCCTCGGTGACCAGGCTGGCTGAGGAGGCATCGGGTTCTCGTCACACCCACAGAACGCCCCAGGAAATATCTCCCATCATGGAGGCCTCCGGGCTGCCTGAGCGTGACCATGGCATCCCTGGGGAGGTGTCCAGAGGGCACCTGGCCCGGTCACCCCCAAAACTGAGTCAGGGGATGGAAGGACTGAGAGTCACCATCTTGCCAGGGACGGATGCCACACTCACCACCCGAGGAGGGTGGCAACCAGACACCAGCGCCTTCCTGGGGACCTCAGGACCTGAGCCCCCTGGGAGGCCCAGGGTGGGCCCTGCAGCCCCCCTG

XM_004863921.1 Coding sequence

LOC101706103 mannan-binding lectin serine protease 2-like

Length: 1563 bp    Location: 1729239..1759051   Strand: +
>XM_004863921.1
ATGCCGCCACCAGCCCTGCTGGGCACACTCCACGTGTCTGTCCTCTCTGGCATTCAGCCCCACGCCCATACCAGCTCTGTACAGCACATCTGCCCTGTTGCCCCTCAGCAAACAAAGGCTGACAAGGAATTGGGATGGGCAGGGTGCGAGCGAGGCCCCCTCGGAATCACAGTGGAACCCCTTCCTTACGTGGGTGGCGCTGGTCGTGGGACTTCTGGCAGTGATGGGAGTGGGGAGTTGGGTCCAGCTGCCACTGCCTCGGGCCCCACCCAGCCCTGCCCGCAGCTCCTTAGTCTCCAAGCACCTCCGGCCCTTCGACGTGGGCAGCAGGTGGACTGGGATCTGCACTGGTATCCCTGTCTCAGCAGGCCCTGGTGCAGCCTGGCTGCAGGGCCCAGCCCCCGGCTCACCGGAAGCCCCAGAAGGCCAGTGCTTGGCCCCGGACCAAGCTTCTTGATTCAGTTCATCTTCACAGCCACCTGTGAGGAAGGTGCTGCTAATACCGCGCAGGCCTCTCTGCCCCTGAAATCCTTTGTGGCAGTCTGTCAGAAAGATGGCTCCTGGGACCGACCAGTGCCGGAGTGCAGCATTGTTGACTGCGGCCCTCCTGATGATGTACCCAACGGCCAAGTGGAATACATCACAGGCCCTGACATGACCACCTACAAAGCTGTGATTCAGTACAGCTGTAGAGACACCTTCTACACCATGAAAAGCAATGACGGTAAATATGTATGTGAGGCTGATGGATTCTGGACGAGCTCCAAAGGAGAAAACTCACTCCCCGTCTGTGAACCTGCCTGTGGACTATCAACACGTACTACACATGGTCGTATATACGGAGGGCAAAATGCAAAGCTTGGCGAGTTTCCGTGGCAAGTCCTGTTACTAGGTCAAACTATAGGAGCAGGTGCACTTTTACATGACAACTGGATTCTAACAGCCGCTCACGCCGTCTACAGGGAAAAAGACCATGCACCCTCCCTGGACATCCGAATGGGGGCCCTGCAGAGACTATCCCCTCATTACACACAGGCCTGGGCCGAGGCTGTTTTTATCCATGAAGGTTACACTCATGGCGCTGGTTTCGACAATGACATAGCACTGATTAAATTGAAGAACAAAGTTGTAATCAATAGTAACATCATGCCAATTTGTCTGCCAAGGAAAGCAGCAGAATCCTTGATGAGGACAAATGACATTGGAACTGCATCAGGGTGGGGATTAACCCAAAGGGGTTTTCTTGCTAGAAATCTAATGTTTGTGGACCTACCTATTGTGGACCATCAAAAATGTACTGCTGTGTATGAAAAGCAGCACTATCCAGGGGGAAGGGTAACGGCTAACATGCTTTGTGCTGGTTTAGAAGCTGGGGGCAAGGACAGCTGTCGAGGTGACAGTGGAGGGGCACTAGTGTTTCTGGACAACGAGACACAGAGATGGTTTGTGGGAGGAATTGTGTCCTGGGGCTCCATTAAATGTGGGGCCGCAGATCAGTATGGGGTATACACCAAAGTCATTAACTACATTCCCTGGATCGAGAACATAATTAATAATTTTTAA

XM_004863918.1 Coding sequence

LOC101702851 uncharacterized LOC101702851

Length: 636 bp    Location: 257903..250736   Strand: -
>XM_004863918.1
ATGGCAGTTTTGCAGCCAGAGAGTTTGGAAGTGGGGAAAACCAAGCCTGGATTCACTGCCAAGGGAGGTGCTAATACGTTATCTGGATTTGCTGATGAGGGACATGAGAGGTTAAGACTCCTGCCCGACACCACACAGCTCCCGCAGGCCAAACAGCATGGGAACAACTGGGGAAGAAAGGAAAAGATTATGGTCCATCCCTCTCCTATGTGCTCTGCCCTTCTGCCAAGACGCTTCAGTAACTTCCAGGTCCATCCTCCTACATTCCTCCTCCTGGCCCCACTGCCTTTCTTCCAACCTCCATCTGCAACTGGAAAGCCCAAATACTGTAGCTGGTGGTGCAGGACCTGCAGGGACAAGAACTTGGTCATCCAGGCTGTGAAGGAACTTCCTAGACAGCTCTCCCCACCTCTCTTCATGGAGGCCTTCACCAGGGCACACACTGAGGTCCTGAAAGCTATGGTGCCAGCTTGGCCTTTCCCTGCCTTGCAATGGGGGTGCCTGACGTTCCCCTTGGAGACACTCGCTGTAACTCACTGCCAGCTTTCACGCTCAGACTGGGAACATCTGTCCCAGTGTCTGAGCATCAGTCAGGTAAAACACCTGTATCTGAAGGGAGTCAGACTGACTGTTTAG

XM_004863908.1 Coding sequence

Noc2l nucleolar complex associated 2 homolog (S. cerevisiae), transcript variant X4

Length: 2244 bp    Location: 8551411..8563760   Strand: +
>XM_004863908.1
ATGGCGGCGCGTGGCCGAAAGAGGCGCCTGGCGGAGTTGACGGTGGACGAGTTTCTTGCTTCGGGTTTTGATTCCGAGTCGGAGTCGGAGCCTGAAGGAGCTCCGGAGGCGGCGATACCCGGAACCCACGAACGCGGAACTGCCTGGAACTCGTGTGGGCCGGACCGGGGCGCCACGGCTAGCAGGCATAAAGGCCGTGCCTCTGAGCACAAAGACCAGCTCTCTCGGCTGAAGGACAAAGACCCTGAGTTCTACAAGTTCCTGCAGGAGAATGACCAGAGCCTACTGAATTTCAGTGACTCAGATAGCTCTGAGGAGGGAGACGAGCAGTTCCACTCTCTGCCGGATGCACTGGAGGAAGCAAGTGAAGAGGATGATGGAGGGGAGGATGGAGACAGAGTGCCCAGAGGACTGCAGGGGAAGAAGAATGAATCTACTCCTGTGACCCTTGGCATGGTTGAGCAGTGGAAGCAGGCAGCAAAGCAGCATCTCACTGCCAAGCTGTTTCATGAAGTTGTGCAGGCGTTCCGAGCTGCTGTGGCCACCACCCAGGGAGACCAGGAAGGGGCTGAGGACTGCAGATTCCAGGTCTCAGACAGTGCTGTGTTCAATGCACTGGTTACCTTCTGTGTCAGAGACCTCTTTGGCTACCTCCAGAAGCAGCTGTTTGGAAAGGCACCAATAGACAGCAACAGGGTGCTGCAGCCGTCCAGCAGTGCGCTCTGGGGGAAGTTCCGTGTGGATGTCAAGGCATACCTGAGTGCGCTCATGCAGCTGGTGACCTGTCTGGCAGAAGCCGTGGTGTTGGCAGCAGTCCTGCGGCATGTCAACAGCCTGGTACCCTACTACCTGACCTTCCCCAAGCAGTGCCGTGTGCTGCTCAAGAGGATGGTGATTCTGTGGAGCACTGGTGAGGAGTCCCTGCGGGTGTTGGCCTTCCTGGTCCTTGTTAGAGTTTGTCGACAGAAGAAGGACATTTTCCTGAGTCCTGTCCTGAAGCAAATGTACATCATGTATGTGAAGAATTGCAAGTTCACCTCTGCCAGCACCCTGCCCCTCATCAGCTTCATGCAGCGAACGCTGACCGAGCTGCTTGCCCTGGATCCCAGCATCTCCTACCAGCATGCCTTCCTCTACATCCGCCAGCTCGCCATCCACCTGCGCAACGCCATGACCACTGGCAAGAAGGAGACACACCAGTCGGTATACAACTGGCAGTACATCCACTGCCTCTACCTGTGGTGCCGCGTCCTGAGTGTCCTCGGCTCCAGTGAGGCCCTGCAGCCCCTGCTTTATCCTCTTGCGCAGGTTGCCATTGGCTGTATCAAGCTGGTCCCCACTGCTCGCTTCTACCCACTGCGCATGCACTGTGTACGTGCCCTGACGCTGCTGTCACAGAGCACTGGCATCTTCATTCCCGTGCTGCCCTTCATTCTTGAGATTTTCCAGCAGGTGGACTTCAACAAGCGACCAGGCCGGATAAGCTCCAGGCCCATCAACTTCTCTGTGATCCTGAAGCTGTCCAGTGCCAACCTACAAGAGAAGGCCTACCGGGATGGCTTGGTAGAGCAGCTGTACGACCTCATCCTGGAATACCTGAATGGCCAGGCCCACAGCATTGCCTTCCCAGAGCTGGTGCTGCCCACTGTTCTGCAGCTGAAGTCCTTCCTCCGGGAGTGCAAGGTGGCTAACTATTGCCGGCAGGTGCGCCAGCTACTGGAAAAAGTGCAGGAGAACGCAGAGTACATCCGAAGCCGCCGCCAGAAAGTGTCTTTTGGAGTGTCTGACCGGCATGCAGTGGATGCTTGGGAGAAACAGGCCCGGCAAGAGGGCACCACACTTAGCAGGTACTACAGCCACTGGCGGAAGCTGAGGGACCGAGAGATCCAGCTGGAGATCAGTGGCAAAGAGCGGCTAGAAGAGCTGAATTTCCCGGAGATCCAGCGGCGGCGGAAGGTGGAGGACAGGAAGGAGGAGGACAGAAAGGAGTTCAGAGACCTATTTGACCTGGATAGTTCTGAGGATGAGGCAGCCACAGACTTCTCAGAAAGAGGTGGGCCTGTTCCACCTCAGCATGCAGAAGAAGAGGGAGATGACCAGAAAGACGAGGAGGAAGAGGACAGTGGCGCCTCTGAGGATGGAGGCCCAGATGCAGAGGCGGGGCTGGTCCCTGGCGAGCTGTGGCGGCTGGCTGAGGGGCCGCAGGATGAGCTGGAGGATCTGCAGCTCTCAGAGGAGGACTAG

XM_004863910.1 Coding sequence

Noc2l nucleolar complex associated 2 homolog (S. cerevisiae), transcript variant X6

Length: 1932 bp    Location: 8552724..8563760   Strand: +
>XM_004863910.1
ATGCACTGGAGCTTGGCCCTTCTGTGTCTGGTGCAGGAAGCAAGTGAAGAGGATGATGGAGGGGAGGATGGAGACAGAGTGCCCAGAGGACTGCAGGGGAAGAAGAATGAATCTACTCCTGTGACCCTTGGCATGGTTGAGCAGTGGAAGCAGGCAGCAAAGCAGCATCTCACTGCCAAGCTGTTTCATGAAGTTGTGCAGGCGTTCCGAGCTGCTGTGGCCACCACCCAGGGAGACCAGGAAGGGGCTGAGGACTGCAGATTCCAGGTCTCAGACAGTGCTGTGTTCAATGCACTGGTTACCTTCTGTGTCAGAGACCTCTTTGGCTACCTCCAGAAGCAGCTGTTTGGAAAGGCACCAATAGACAGCAACAGGGTGCTGCAGCCGTCCAGCAGTGCGCTCTGGGGGAAGTTCCGTGTGGATGTCAAGGCATACCTGAGTGCGCTCATGCAGCTGGTGACCTGTCTGGCAGAAGCCGTGGTGTTGGCAGCAGTCCTGCGGCATGTCAACAGCCTGGTACCCTACTACCTGACCTTCCCCAAGCAGTGCCGTGTGCTGCTCAAGAGGATGGTGATTCTGTGGAGCACTGGTGAGGAGTCCCTGCGGGTGTTGGCCTTCCTGGTCCTTGTTAGAGTTTGTCGACAGAAGAAGGACATTTTCCTGAGTCCTGTCCTGAAGCAAATGTACATCATGTATGTGAAGAATTGCAAGTTCACCTCTGCCAGCACCCTGCCCCTCATCAGCTTCATGCAGCGAACGCTGACCGAGCTGCTTGCCCTGGATCCCAGCATCTCCTACCAGCATGCCTTCCTCTACATCCGCCAGCTCGCCATCCACCTGCGCAACGCCATGACCACTGGCAAGAAGGAGACACACCAGTCGGTATACAACTGGCAGTACATCCACTGCCTCTACCTGTGGTGCCGCGTCCTGAGTGTCCTCGGCTCCAGTGAGGCCCTGCAGCCCCTGCTTTATCCTCTTGCGCAGGTTGCCATTGGCTGTATCAAGCTGGTCCCCACTGCTCGCTTCTACCCACTGCGCATGCACTGTGTACGTGCCCTGACGCTGCTGTCACAGAGCACTGGCATCTTCATTCCCGTGCTGCCCTTCATTCTTGAGATTTTCCAGCAGGTGGACTTCAACAAGCGACCAGGCCGGATAAGCTCCAGGCCCATCAACTTCTCTGTGATCCTGAAGCTGTCCAGTGCCAACCTACAAGAGAAGGCCTACCGGGATGGCTTGGTAGAGCAGCTGTACGACCTCATCCTGGAATACCTGAATGGCCAGGCCCACAGCATTGCCTTCCCAGAGCTGGTGCTGCCCACTGTTCTGCAGCTGAAGTCCTTCCTCCGGGAGTGCAAGGTGGCTAACTATTGCCGGCAGGTGCGCCAGCTACTGGAAAAAGTGCAGGAGAACGCAGAGTACATCCGAAGCCGCCGCCAGAAAGTGTCTTTTGGAGTGTCTGACCGGCATGCAGTGGATGCTTGGGAGAAACAGGCCCGGCAAGAGGGCACCACACTTAGCAGGTACTACAGCCACTGGCGGAAGCTGAGGGACCGAGAGATCCAGCTGGAGATCAGTGGCAAAGAGCGGCTAGAAGAGCTGAATTTCCCGGAGATCCAGCGGCGGCGGAAGGTGGAGGACAGGAAGGAGGAGGACAGAAAGGAGTTCAGAGACCTATTTGACCTGGATAGTTCTGAGGATGAGGCAGCCACAGACTTCTCAGAAAGAGGGACAGCTGGGTCCCTGAGAGGTCAGCAGGAGGCAGAAGAAGAGGGAGATGACCAGAAAGACGAGGAGGAAGAGGACAGTGGCGCCTCTGAGGATGGAGGCCCAGATGCAGAGGCGGGGCTGGTCCCTGGCGAGCTGTGGCGGCTGGCTGAGGGGCCGCAGGATGAGCTGGAGGATCTGCAGCTCTCAGAGGAGGACTAG

XM_004863904.1 Coding sequence

Samd11 sterile alpha motif domain containing 11, transcript variant X2

Length: 1965 bp    Location: 8580523..8563793   Strand: -
>XM_004863904.1
ATGTCCAAGGGGATCCTGCAGGTGCACCCTCCGATCTGCGATTGTCCGGGCTGTCGAATATCCTCGCCGGTGAACCGGGGGCGGCTGGCAGACAGGAGGACAGTCGCCCTGCCCCAGACACGTGCCCTGAAGAAGGAGAGGACTCCCAGCTTCTCTGCCAGTGACGGAGACAGTGACGGGGGTGGCCCGGCCTGTGGGCGGCGGCCCGGCTTGAAGCAGGAGGATGCCCCACACGTCCGTATCATGAAGAGAAGAGTCCACACCCACTGGGACGTGAACATCTCCTTCCGAGAGACATCCTGCAGTGTACATCGAAACCACCACCTCGTTATGCCCGAGCATCAGAGTCGCTGTGAATTCCAGAGAGGCAGCGTGGAGATTGGCCTGGGACCCACAGGTGACTCATTAGGCAGGAGGCTGGGCTGCTCTCCTCACATCAGCAGTGACTGCTCTTCGGCAAAGCGGGCCCGAAGCAAGTCCCCCCAAGATACCCTGCTGCTGCCGGAACTGGGGCCCAGCATGGCCCCTGAGGACCACTATCGGCGGCTCGTGTCAGCCCTCAGTGAGGGCAGCACCTTTGAGGACCCTCAGCGTCTCTACCCTCTGGGCCTCCCCACCCATGATCTCATGCGGGTCCGGCAGGAGGTGGCAGCTGCAGCTTTGAGAGGCCCCAGTAGCCTGGACGTCCACCTGCCCTCACCCGCAGCGGGTCAGCGCCGGAAGCAGGGCCTGGCGCAGCACCGCGAGGGGCCCACGCCAACAGCTGCCGCGTCCTTCTCCGAGAGGGAGCTGTCGCAGCCGCCCCCCTTGCTGTCGCCCCAGAATGCCTCCCACATCACCCTGGGCTCCCATCTCAGGCCCCCCTTTTTGGGGGTGCCCTCGGCTCTGTGCCAGACCCCAGGTTATGGCTTCCTGCCCCCCGCCCAGACGGAGATGCTGGCCCGGCAGCAGGAGCTACTGCGGAAGCAGAGCCTGGCTCGGCTGGAGATGTCGGCGGAACTGCTTCGCCAGAAGGAGTTGGAGAGCGCGCACCGGCCGCAGCTGCTGGCGCCTGAGGCGGCCTTGCGCGCCCCGGACAGCGCTGAGGAGCTGCAGCGGCGCGGGGCCTTGCTGGTGCTCAAGCACAGCTCGGCGCCGCTGCTAGCCCTGCCTCCCCAAGGCCCGCCGGGCCCTGGGCCCCCCACTCCGCACCACGAGTCTGCCTGCCGAGCTCCCCGGAAAGAGGGGACTGCCTCTGCCGTAGCCCGGCCCAGCGAACCTAAGGAGCCAACAGGGGTTGCGCTCTGGGCTCAAGATGGCGCAGAGGAGGCGCCCAAAGACTCAGACGGAGAGGACCCCGAGACGGCAGTTACCGGGGACCGGGGCTCCACCCCAGCCCAAGCCCCAGCTGGAGGGAGCAGCACGGAGGGGAAAAGGCCTCTCTCAGGGCCCACCCTGCCTCCACCCCTGCCCCTGGGCTTCCCCTATGCGGTTAGCCCCTACCTGCACACAGGAGCCACGGGGAGGCTCTTCGACGGGGAGGCAGCCACGGCTCCTGAGGACATCAGCAAGTGGACAGTGGACGATGTCTGCAACTTCGTGGGGGCCCTGTCTGGCTGCAGCGAGTATACTCGGGTGTTCAGAGAACAAGGAATCGATGGGGAGACTCTGCCTCTGCTGACTGAAGAGCACCTGCTGACCACCATGGGACTGAAGCTGGGGCCTGCCCTCAAGATCCGGGCCCAGGTGGCCAAGCGCCTGGGTCGTGTTTTCTACATGGCCAGCTTCCCAGTGGCTCTGCCGCTGCAGCCACCAACCCTTCGGGGTCCTGCGGAGCTCACCCCAGGAGAACAGTCACCAACAGTCACTTCCCCCTATGGGGAGAGCCACCCCATTGCTGGCCGAGCCTCGCCCAAGCAGGAGAATGGAACCTCGACCCTGGCTCTGGCCCCTGGGGCCCCCGACCCTTCCCAACCTCTGTGCTGA

XM_004863903.1 Coding sequence

Samd11 sterile alpha motif domain containing 11, transcript variant X1

High confidence: 4 potential gene matches
Length: 1998 bp    Location: 8580523..8563793   Strand: -
>XM_004863903.1
ATGTCCAAGGGGATCCTGCAGGTGCACCCTCCGATCTGCGATTGTCCGGGCTGTCGAATATCCTCGCCGGTGAACCGGGGGCGGCTGGCAGACAGGAGGACAGTCGCCCTGCCCCAGACACGTGCCCTGAAGAAGGAGAGGACTCCCAGCTTCTCTGCCAGTGACGGAGACAGTGACGGGGGTGGCCCGGCCTGTGGGCGGCGGCCCGGCTTGAAGCAGGAGGATGCCCCACACGTCCGTATCATGAAGAGAAGAGTCCACACCCACTGGGACGTGAACATCTCCTTCCGAGAGACATCCTGCAGCCAGGACAGCAGCCTTCCTACTCTCATATCCAGTGTACATCGAAACCACCACCTCGTTATGCCCGAGCATCAGAGTCGCTGTGAATTCCAGAGAGGCAGCGTGGAGATTGGCCTGGGACCCACAGGTGACTCATTAGGCAGGAGGCTGGGCTGCTCTCCTCACATCAGCAGTGACTGCTCTTCGGCAAAGCGGGCCCGAAGCAAGTCCCCCCAAGATACCCTGCTGCTGCCGGAACTGGGGCCCAGCATGGCCCCTGAGGACCACTATCGGCGGCTCGTGTCAGCCCTCAGTGAGGGCAGCACCTTTGAGGACCCTCAGCGTCTCTACCCTCTGGGCCTCCCCACCCATGATCTCATGCGGGTCCGGCAGGAGGTGGCAGCTGCAGCTTTGAGAGGCCCCAGTAGCCTGGACGTCCACCTGCCCTCACCCGCAGCGGGTCAGCGCCGGAAGCAGGGCCTGGCGCAGCACCGCGAGGGGCCCACGCCAACAGCTGCCGCGTCCTTCTCCGAGAGGGAGCTGTCGCAGCCGCCCCCCTTGCTGTCGCCCCAGAATGCCTCCCACATCACCCTGGGCTCCCATCTCAGGCCCCCCTTTTTGGGGGTGCCCTCGGCTCTGTGCCAGACCCCAGGTTATGGCTTCCTGCCCCCCGCCCAGACGGAGATGCTGGCCCGGCAGCAGGAGCTACTGCGGAAGCAGAGCCTGGCTCGGCTGGAGATGTCGGCGGAACTGCTTCGCCAGAAGGAGTTGGAGAGCGCGCACCGGCCGCAGCTGCTGGCGCCTGAGGCGGCCTTGCGCGCCCCGGACAGCGCTGAGGAGCTGCAGCGGCGCGGGGCCTTGCTGGTGCTCAAGCACAGCTCGGCGCCGCTGCTAGCCCTGCCTCCCCAAGGCCCGCCGGGCCCTGGGCCCCCCACTCCGCACCACGAGTCTGCCTGCCGAGCTCCCCGGAAAGAGGGGACTGCCTCTGCCGTAGCCCGGCCCAGCGAACCTAAGGAGCCAACAGGGGTTGCGCTCTGGGCTCAAGATGGCGCAGAGGAGGCGCCCAAAGACTCAGACGGAGAGGACCCCGAGACGGCAGTTACCGGGGACCGGGGCTCCACCCCAGCCCAAGCCCCAGCTGGAGGGAGCAGCACGGAGGGGAAAAGGCCTCTCTCAGGGCCCACCCTGCCTCCACCCCTGCCCCTGGGCTTCCCCTATGCGGTTAGCCCCTACCTGCACACAGGAGCCACGGGGAGGCTCTTCGACGGGGAGGCAGCCACGGCTCCTGAGGACATCAGCAAGTGGACAGTGGACGATGTCTGCAACTTCGTGGGGGCCCTGTCTGGCTGCAGCGAGTATACTCGGGTGTTCAGAGAACAAGGAATCGATGGGGAGACTCTGCCTCTGCTGACTGAAGAGCACCTGCTGACCACCATGGGACTGAAGCTGGGGCCTGCCCTCAAGATCCGGGCCCAGGTGGCCAAGCGCCTGGGTCGTGTTTTCTACATGGCCAGCTTCCCAGTGGCTCTGCCGCTGCAGCCACCAACCCTTCGGGGTCCTGCGGAGCTCACCCCAGGAGAACAGTCACCAACAGTCACTTCCCCCTATGGGGAGAGCCACCCCATTGCTGGCCGAGCCTCGCCCAAGCAGGAGAATGGAACCTCGACCCTGGCTCTGGCCCCTGGGGCCCCCGACCCTTCCCAACCTCTGTGCTGA

XM_004863901.1 Coding sequence

Klhl17 kelch-like family member 17, transcript variant X2

High confidence: 4 potential gene matches
Length: 1989 bp    Location: 8550465..8545913   Strand: -
>XM_004863901.1
ATGGAGGGAGCCATGCAGCTGCTGAGCCGGGAGGGCCACAGTGTGGCCCACAACTCCAAGCGGCACTACCACGACGCCTTCGTAGCCATGAGCCGCATGCGGCAGCGCGGCCTCCTGTGTGACATCGTCCTGCACGTGGCCGCCAAGGAGATCCGTGCACACAAGGTGGTGCTGGCCTCCTGCAGCCCCTACTTCCACGCCATGTTCACAAATGAGATGAGTGAGAGCCGCCAAACACATGTGACACTGCATGACATCGACCCTCAGGCCTTGGATCAACTGGTGCAGTTTGCATACACAGCTGAGATTGTGGTGGGCGAGGGCAATGTGCAGACACTGCTCCCTGCCGCCAGCCTTCTGCAGCTGAACGGTGTCAGAGATGCGTGCTGCAAGTTTCTGCTGAGTCAGCTGGACCCCTCCAACTGCCTGGGAATCCGGGGCTTTGCCGACACACACTCGTGCAGTGACCTACTCAAAGCAGCACACAGGTACGTGCTGCAGCACTTCGTGGACGTGGCCAAGACCGAGGAATTCATGCTCTTGCCACTGAAGCAGGTGCTGGAATTGGTCTCTAGCGACAGCCTGAATGTGCCTTCAGAGGAAGACGTTTACCGCGCAGTCCTGAGCTGGGTTAAACACGATGTGGACACTCGGAGGCAACACGTCCCCCGGCTGATGAAGTGTGTGCGGCTGCCCCTTCTGAGCCGTGACTTTCTGCTGGGCCACGTGGATGCTGAGAGCCTTGTGCGCCATCATCCTGACTGCAAAGACCTGCTCATTGAGGCCCTCAAGTTCCACCTGCTGCCCGAGCAGAGGGGCGTTCTAGGCACCAGCCGCACTCGGCCCCGGCGCTGTGAGGGTGCCGGCCCTGTGCTCTTTGCCGTGGGTGGTGGGAGCCTATTTGCCATCCATGGGGACTGTGAAGCATATGACACCCGAACTGACCGCTGGCATGTGGTGGCTTCCATGTCTACACGTCGAGCCAGGGTGGGAGTGGCTGCTGTTGGAAACAGGCTGTACGCTGTGGGCGGCTACGATGGGACCTCAGACCTGGCTACTGCGGAGTCATATGACCCTGTGACCAATACATGGCAGCCCGAGGTGTCCATGGGCACAAGGCGAAGCTGTCTGGGTGTAGCTGCCCTGCACGGGCTTCTGTACGCGGCTGGCGGCTATGACGGGGCCTCCTGCCTCAACAGTCCAGGGGCTGGCCTCAGGGTGGCATTTGCGCAGGATCATGCAGGCCCATGTGATCTGTGCCAACCCGCAAGCCTTGCTGTCTGCTGTGGTAAGACTCTGATGGCAGAGTTTTGTGGTGCCAGCAGGGGGTTTCAGCCACTCCCTGGGAGGACAGACCCAGGGCAGGGTGACTTCTCTCTCCTGGCTGATGGTCAGCAGCCATCTGGTCCCCACAGTGCTGAACGCTATGACCCCCTGACGGGAACGTGGACATCCATTGCTGCCATGAGCACCAGGAGGCGCTATGTGCGTGTGGCCACACTCGATGGGAACCTGTATGCCGTGGGTGGCTATGACAGCTCCTCACACCTGGCCACTGTGGAGAAGTATGAGCCCCAGGTGAACTCATGGACCCCCGTGGCCTCCATGCTGAGCAGGCGAAGCTCTGCTGGCGTGGCAGTGCTAGAAGGCGCCCTGTACGTGGCAGGGGGAAATGATGGCACCAGCTGTCTCAACTCAGTGGAGAGATACAGCCCCAAGGCTGGGGCCTGGGAGAGCGTGGCGCCCATGAACATCCGCAGGAGCACGCACGACTTGGTGGCCATGGATGGATGGCTATATGCCGTGGGGGGCAACGACGGCAGCTCCAGCCTCAACTCCATTGAGAAGTACAACCCGAGGACCAACAAATGGGTGGCCGCCTCCTGCATGTTCACACGGCGCAGCAGCGTGGGTGTGGCAGTGCTGGAGCTGCTCAACTTCCCACCGCCGTCCTCACCGACGCTCTCCGTGTCCTCCACCAGCCTCTGA

XM_004863906.1 Coding sequence

Noc2l nucleolar complex associated 2 homolog (S. cerevisiae), transcript variant X2

Length: 2250 bp    Location: 8551411..8563760   Strand: +
>XM_004863906.1
ATGGCGGCGCGTGGCCGAAAGAGGCGCCTGGCGGAGTTGACGGTGGACGAGTTTCTTGCTTCGGGTTTTGATTCCGAGTCGGAGTCGGAGCCTGAAGGAGCTCCGGAGGCGGCGATACCCGGAACCCACGAACGCGGAACTGCCTGGAACTCGTGTGGGCCGGACCGGGGCGCCACGGCTAGCAGGCATAAAGGCCGTGCCTCTGAGCACAAAGACCAGCTCTCTCGGCTGAAGGACAAAGACCCTGAGTTCTACAAGTTCCTGCAGGAGAATGACCAGAGCCTACTGAATTTCAGTGACTCAGATAGCTCTGAGGAGGGAGACGAGCAGTTCCACTCTCTGCCGGATGCACTGGAGGAAGCAAGTGAAGAGGATGATGGAGGGGAGGATGGAGACAGAGTGCCCAGAGGACTGCAGGGGAAGAAGAATGAATCTACTCCTGTGACCCTTGGCATGGTTGAGCAGTGGAAGCAGGCAGCAAAGCATCTCACTGCCAAGCTGTTTCATGAAGTTGTGCAGGCGTTCCGAGCTGCTGTGGCCACCACCCAGGGAGACCAGGAAGGGGCTGAGGACTGCAGATTCCAGGTCTCAGACAGTGCTGTGTTCAATGCACTGGTTACCTTCTGTGTCAGAGACCTCTTTGGCTACCTCCAGAAGCAGCTGTTTGGAAAGGCACCAATAGACAGCAACAGGGTGCTGCAGCCGTCCAGCAGTGCGCTCTGGGGGAAGTTCCGTGTGGATGTCAAGGCATACCTGAGTGCGCTCATGCAGCTGGTGACCTGTCTGGCAGAAGCCGTGGTGTTGGCAGCAGTCCTGCGGCATGTCAACAGCCTGGTACCCTACTACCTGACCTTCCCCAAGCAGTGCCGTGTGCTGCTCAAGAGGATGGTGATTCTGTGGAGCACTGGTGAGGAGTCCCTGCGGGTGTTGGCCTTCCTGGTCCTTGTTAGAGTTTGTCGACAGAAGAAGGACATTTTCCTGAGTCCTGTCCTGAAGCAAATGTACATCATGTATGTGAAGAATTGCAAGTTCACCTCTGCCAGCACCCTGCCCCTCATCAGCTTCATGCAGCGAACGCTGACCGAGCTGCTTGCCCTGGATCCCAGCATCTCCTACCAGCATGCCTTCCTCTACATCCGCCAGCTCGCCATCCACCTGCGCAACGCCATGACCACTGGCAAGAAGGAGACACACCAGTCGGTATACAACTGGCAGTACATCCACTGCCTCTACCTGTGGTGCCGCGTCCTGAGTGTCCTCGGCTCCAGTGAGGCCCTGCAGCCCCTGCTTTATCCTCTTGCGCAGGTTGCCATTGGCTGTATCAAGCTGGTCCCCACTGCTCGCTTCTACCCACTGCGCATGCACTGTGTACGTGCCCTGACGCTGCTGTCACAGAGCACTGGCATCTTCATTCCCGTGCTGCCCTTCATTCTTGAGATTTTCCAGCAGGTGGACTTCAACAAGCGACCAGGCCGGATAAGCTCCAGGCCCATCAACTTCTCTGTGATCCTGAAGCTGTCCAGTGCCAACCTACAAGAGAAGGCCTACCGGGATGGCTTGGTAGAGCAGCTGTACGACCTCATCCTGGAATACCTGAATGGCCAGGCCCACAGCATTGCCTTCCCAGAGCTGGTGCTGCCCACTGTTCTGCAGCTGAAGTCCTTCCTCCGGGAGTGCAAGGTGGCTAACTATTGCCGGCAGGTGCGCCAGCTACTGGAAAAAGTGCAGGAGAACGCAGAGTACATCCGAAGCCGCCGCCAGAAAGTGTCTTTTGGAGTGTCTGACCGGCATGCAGTGGATGCTTGGGAGAAACAGGCCCGGCAAGAGGGCACCACACTTAGCAGGTACTACAGCCACTGGCGGAAGCTGAGGGACCGAGAGATCCAGCTGGAGATCAGTGGCAAAGAGCGGCTAGAAGAGCTGAATTTCCCGGAGATCCAGCGGCGGCGGAAGGTGGAGGACAGGAAGGAGGAGGACAGAAAGGAGTTCAGAGACCTATTTGACCTGGATAGTTCTGAGGATGAGGCAGCCACAGACTTCTCAGAAAGAGGGACAGCTGGGTCCCTGAGAGGTCAGCAGGAGGCAGAAGAAGAGGGAGATGACCAGAAAGACGAGGAGGAAGAGGACAGTGGCGCCTCTGAGGATGGAGGCCCAGATGCAGAGGCGGGGCTGGTCCCTGGCGAGCTGTGGCGGCTGGCTGAGGGGCCGCAGGATGAGCTGGAGGATCTGCAGCTCTCAGAGGAGGACTAG

XM_004863898.1 Coding sequence

LOC101696347 uncharacterized LOC101696347, transcript variant X1

Length: 2202 bp    Location: 8532588..8536803   Strand: +
>XM_004863898.1
ATGGACAACTTCCAGTACAGTGTCCAGCTCAGTGACCAGGACTGGGCCGAGTTCTCGGCCACTGCTGATGAGTGTGGTCTCTTGCAGGCGGGCCTGGCTTCTGGGGACGAGCTCTTCTCCAGCGACATTGACCAAGGGGACAGCAGTGGTAGCAGCCCACCTGGGCCCCAACCTCTCCTCACTGGGCAGCTGGCTGCCCAGGGGAAGGGCTGGAAGGCCTGTGAGGAGGAGCACAGTGTGGCCACCTGGCAGCCGGCCAGCGGGTCTCAGTGGCAGCCTGTCCTGGCTCTGGGGGCCAGTCAGCAGGGGGCCGGCACGTCCGCACGGCCTGAAGCTCTGCTGTCCGTCAGCTCAGGCACCGCCCTTCCTGACCAGTGCTCCTCCTTTCCAGGGTCAGTAGATTCCAGTGGCGAGATGCAGAGGCTTCTGCAGGGCCCTTCCTCCAGCCCCTCTGGTGAGCCCCCCCCGAGTTCTAATCCCCCCAGCCACACTGCCATCCCTCAAAAGTCCCCCAACAGTTCTGACACCCCTCTGCGGAGCACTGACCGCAAGAAGAGGCGTCCAGCGGGGGCCAAGGGGGGCAGACACTCAGACACGCCAGGGCCTGCTGCGGCCCCAACAGGATCTCCAAAGCTCCCTGAGGCCAGGGCTGAGGAAAGCCTTGGTCTGGCTGGGGCCAGGGGCAAGGGGTTTGGGGCTGGGACAGCAAAGGCCATGGCAGGAGCCCAGCAGAACAAGCCTCAGCCAAACTCTGCAGGTGCTCTCTCCACATCTGTCCCCATAACTGAGCAAGGTACAGATCAGATCAGAATGACCCCCAGAGCTGAGTTACACAGGGCTTCTCGACCTGTCCAGGAGGCTCATCCAGATGCTTCCATGGCCGAGCCAGATGAAGCTCTGTCTATGCCCTCTTCCAAGCCCCAACCTGATGTGGCCCTGTCTACACCTGACTCCACACCTGGACTGCATGTGGACCTGCTTAAAGCAGGCCCAATGGCCAAGCCAAAGGTAGATTCACCTCTGCCTGTCTCAGTGGCTGTGCCCAGTAGGGCTTTGCCTCATTCTGCTTCCAAGACTGAGCCTGCTGTAGCAGCATCTACACCTGTCCCTGGGACTGAGGCTGCAGCGCCCTCCCAGCATCCTGTTCTCCAGACTAGGGCTGGTCTGATAGAGACACAAACGACCGTGCCTCCAAGAGGGCATCAAGAGAAGCCTGGAGGGGCTCCTGGACATGCTTTGGGGGAGCCTCCCCTGGGCCCTGCCCAAGCCCCCAAGAAGAAGAAAGTACGATTCTCCATGGCTGTGCCCAGCCCTGAAGAACCAGGATCGAAAGAGGCTACAGGTCCACCTTCATCAGCCTCTGCCTGGCCCTCAACCCCAGGGATGGCAGTGAGGGGCCGCGAGGGGTCTGCAACCTGGGACGCAGTGGTGGTCGGACCCCGGCCCCCCCAGCCTCGGATCCTCAAGCACCTGCCACCCCCTGCTCCCTCTGCTTCCGCAGGTACTGGGCCTGGGAGCTGCTTTGCAGTGACGCTCCCTGAGGCCTATGAGTTCTTCTTTTGTGATACCATTGAGGAGGAGGAAGAGGAGGAGGAAGATGCCAGTGAGGAGGCAGTAGCGAGCCAGGCACTGGGTGATGTCCAGTGGCCGGACATATGTGAATTCTTCTTCCAGGACTGCCACACCCAGAGGCTGGGGCACCAGGGGAGCTGCTCCCCCACTCCGCCTCCAGGAGCTGACGCTGCAGCAGCTGTGCCCCCTGGAAACCCAGTGCCCTTCTCTATCCCTGAGGCCTACGAACACTTCCTCGGGGAGGACAGGTGTGGGGGTGAGGTTCTCCCCACTCCCCTTCTCCAGCTGCAGACTTCAGAGCCCCTCAGGAACATAGGGACAAGGACTCCGCCTGAGCCTGGCCCAGCCAGAGCAGAGCAGCTCAGCCTGGCAGCCAAGCAGGCAGGAGAGCTCCGGCGTCCCCGTGCCTCACTTACTTTTAGTCAGAATGACATGTGCCTGGTGTTTGTAGCCCTTGCCACATGGGCTGTAAGAACCTCAGATCTACAAACCCCGGATGCTTGGAAAACAGTCTTGCTGGCCAATATTGGCACCATTTCCGCTATCCGCTACTTCCGCCGGGAGGTGAGGCGAGGGCGAAGCTCCAGCCCCAGCCCCAGCCCCAGCCCCAGCCCCAGCTACAGCTCCTAG

XM_004863900.1 Coding sequence

Klhl17 kelch-like family member 17, transcript variant X1

Length: 2058 bp    Location: 8550465..8545913   Strand: -
>XM_004863900.1
ATGGAGGGAGCCATGCAGCTGCTGAGCCGGGAGGGCCACAGTGTGGCCCACAACTCCAAGCGGCACTACCACGACGCCTTCGTAGCCATGAGCCGCATGCGGCAGCGCGGCCTCCTGTGTGACATCGTCCTGCACGTGGCCGCCAAGGAGATCCGTGCACACAAGGTGGTGCTGGCCTCCTGCAGCCCCTACTTCCACGCCATGTTCACAAATGAGATGAGTGAGAGCCGCCAAACACATGTGACACTGCATGACATCGACCCTCAGGCCTTGGATCAACTGGTGCAGTTTGCATACACAGCTGAGATTGTGGTGGGCGAGGGCAATGTGCAGACACTGCTCCCTGCCGCCAGCCTTCTGCAGCTGAACGGTGTCAGAGATGCGTGCTGCAAGTTTCTGCTGAGTCAGCTGGACCCCTCCAACTGCCTGGGAATCCGGGGCTTTGCCGACACACACTCGTGCAGTGACCTACTCAAAGCAGCACACAGGTACGTGCTGCAGCACTTCGTGGACGTGGCCAAGACCGAGGAATTCATGCTCTTGCCACTGAAGCAGGCACTTTCAGGGCTCCCTGGGCACACAGGACCCTCCCCAGGTCTCAGGTCTGAGGGCCCCCACCTCCAGGTGCTGGAATTGGTCTCTAGCGACAGCCTGAATGTGCCTTCAGAGGAAGACGTTTACCGCGCAGTCCTGAGCTGGGTTAAACACGATGTGGACACTCGGAGGCAACACGTCCCCCGGCTGATGAAGTGTGTGCGGCTGCCCCTTCTGAGCCGTGACTTTCTGCTGGGCCACGTGGATGCTGAGAGCCTTGTGCGCCATCATCCTGACTGCAAAGACCTGCTCATTGAGGCCCTCAAGTTCCACCTGCTGCCCGAGCAGAGGGGCGTTCTAGGCACCAGCCGCACTCGGCCCCGGCGCTGTGAGGGTGCCGGCCCTGTGCTCTTTGCCGTGGGTGGTGGGAGCCTATTTGCCATCCATGGGGACTGTGAAGCATATGACACCCGAACTGACCGCTGGCATGTGGTGGCTTCCATGTCTACACGTCGAGCCAGGGTGGGAGTGGCTGCTGTTGGAAACAGGCTGTACGCTGTGGGCGGCTACGATGGGACCTCAGACCTGGCTACTGCGGAGTCATATGACCCTGTGACCAATACATGGCAGCCCGAGGTGTCCATGGGCACAAGGCGAAGCTGTCTGGGTGTAGCTGCCCTGCACGGGCTTCTGTACGCGGCTGGCGGCTATGACGGGGCCTCCTGCCTCAACAGTCCAGGGGCTGGCCTCAGGGTGGCATTTGCGCAGGATCATGCAGGCCCATGTGATCTGTGCCAACCCGCAAGCCTTGCTGTCTGCTGTGGTAAGACTCTGATGGCAGAGTTTTGTGGTGCCAGCAGGGGGTTTCAGCCACTCCCTGGGAGGACAGACCCAGGGCAGGGTGACTTCTCTCTCCTGGCTGATGGTCAGCAGCCATCTGGTCCCCACAGTGCTGAACGCTATGACCCCCTGACGGGAACGTGGACATCCATTGCTGCCATGAGCACCAGGAGGCGCTATGTGCGTGTGGCCACACTCGATGGGAACCTGTATGCCGTGGGTGGCTATGACAGCTCCTCACACCTGGCCACTGTGGAGAAGTATGAGCCCCAGGTGAACTCATGGACCCCCGTGGCCTCCATGCTGAGCAGGCGAAGCTCTGCTGGCGTGGCAGTGCTAGAAGGCGCCCTGTACGTGGCAGGGGGAAATGATGGCACCAGCTGTCTCAACTCAGTGGAGAGATACAGCCCCAAGGCTGGGGCCTGGGAGAGCGTGGCGCCCATGAACATCCGCAGGAGCACGCACGACTTGGTGGCCATGGATGGATGGCTATATGCCGTGGGGGGCAACGACGGCAGCTCCAGCCTCAACTCCATTGAGAAGTACAACCCGAGGACCAACAAATGGGTGGCCGCCTCCTGCATGTTCACACGGCGCAGCAGCGTGGGTGTGGCAGTGCTGGAGCTGCTCAACTTCCCACCGCCGTCCTCACCGACGCTCTCCGTGTCCTCCACCAGCCTCTGA

XM_004863892.1 Coding sequence

LOC101723793 chromosome unknown open reading frame, human C1orf159, transcript variant X3

Length: 528 bp    Location: 8443449..8460542   Strand: +
>XM_004863892.1
ATGTCTGCAGCTCTCATCCTGGAGGGGCAGCTCCCTGGCATGGCCCTGCAGTGCCTCGCGCTCCTGGCTGGCCTTCTGGTGGGAGTCGCCAGCAAGTCCACAGAAAGCAAGGCCCAGCAGCCAGAGTGTTGTGTGGATGTGGTGGACATCAATGCTACCTGCCCTGGAACAAACCTGTGCGGCCCAGGCTGCTACAGGCATGGGAACACAGATGGGAGCATCACCTGTGTGTGGTGCCAGAATGAGACCTTCCCGGCCTACAACGCCTCCGCGTGCAGAACCCTCACTGGCCAGGGTGCACAGTTTCCCATGAACAGGAGCACAGGGACTTCTGGCCGGCCACATTTTGAGGCTCCTCGAGTGGCAGTCTCCCTCTTCCTGGGGACATTCTTCATCAGCACGGGCCTCATCCTCTCTGTGGCGGGGTTCTTTTACCTCAAGCGCTCCAGTAAGCTCCCCAGGATCTTCTACAGGAGTGATAAAGGCTGCGATGATCCCTGCACCCCAGTCCTCAGTGCGGAAGCCTAG

XM_004863893.1 Coding sequence

Agrn agrin, transcript variant X1

Length: 6135 bp    Location: 8508786..8475453   Strand: -
>XM_004863893.1
ATGGCCCGACCGCGGCCGTGCAGCCCGGCACCGGCACCGCTGCTGCTGCTCCTGCTGGTGGCAGCGCGCGCCCTGCCCGGCGCCCACGGGACGTGCCCGGAGCGCGCGCTGGAGCGGCGAGAGGAGGAGGCGAACGTGGTGCTCACCGGCACGGTGGAGGAGATTCTCAACGTGGACCCGGTGCAGCTCACGTACTCGTGCAAGGTTCGAGTCTGGCGGTACTTGAAGGGCAAAGAGGTGGTGACCCAGGAGAACCTGATGGATGGCGGCAACAAGGTGGTGATCAGTGGCTTTGGAGACCCCCTCATCTGTGACAACCAGGTGTCCACTGGGGACACCAGGATCTTCTTTGTGAACCCAGCTCCCCGCTACCTGTGGCCGGCCCACAAGAACGAGCTCATGCTCAACTCCAGCCTCATGCGCATTACTCTGCGGAACCTGGAAGAGGTGGAGTTCTGCGTGGAAGACAAACTTGGGACCCACTTCACATCAGCCCCTCTGATGCCTCCTAACCTATGCAAGGGAATGCTGTGTGGCTTTGGTGCCGTGTGCGAGCCCAGCACAGAAGATCCGGGCCGGGCCTCCTGCGTGTGCAAGAAGAGCCCCTGCCCAGCTGTGGTGGCACCCGTGTGCGGTTCGGACGCTTCCACCTACAGCAACGAGTGTGAGTTGCAGCGTGCACAGTGTGTCCTGCAACGGCGCATCCGCTTGCTCCGCCGCGGGCCCTGTGGGTCCAGGGACCCCTGCGCCAACGTGACCTGCAGCTTTGGCAGCACGTGTGCACTCCTGGCTGATGGGCAGACTGCCACGTGCCTGTGCCCGGTGACCTGCCACGGGGCCCCAGAGGGCACGGTGTGTGGCACTGACGGTACCGACTACCCTAGTGAGTGCCAGCTGCTGCGCCACGCCTGTGCACGCCAGGAAAACATCTCTAAGAAGTTCGACGGCCCCTGTGACCCCTGCCAGGGAGCCCTCGCTGACCGGAGCCGCATCTGTCGTGTGAACCCCCGCACACGGCGCCCGGAGATGCTTCTGCGGCCGGGCAGCTGCCCTCCCCGGCACTCACCTGTGTGCGGGGACAACGGGGTCACTTATGAAAACGACTGCATCATGGGCCGCACTGGGGTGCTCCGGGGCCTGCTCCTCCAGAAAGTGCGTTCTGGCCAGTGCCAGCCTCGAGACCAGTGCCCTGAGCCTTGCCAGTTCAATGCTGTGTGCCTGTCTCGCCGTGGCCGTCCCCACTGCTCCTGTGACCGCGTCACCTGTGACGGGGCCTACAGGCCCGTGTGTGCCCAGGATGGCCGCACATATGACAATGACTGTTGGCGCCAGCAGGCAGAGTGTCGGCAGCAGCGTGCCATACCCACCAAGCACCAGGGCCTGTGTGCCCAGGCCCCATCCCCGTGCTGTGAAGTTCAGTGTGCATTCGGGGGGGGGGGGGCGTGTGCAGTAAAAACTGGGGAGGCTGCATGTGCATGCCAGCAGGTGTGCACAGGCACCTGCGTCCCTGTGTGCGGCAGTCACGGTGCCACATATGTACGGCAGCGTGTGCGAGCTGCGGGCCCTGGCTGTGCCCTGGGGCAGGAGATCTGGGTGGCCTGCCGAGGGTCCTGTGACCAGTGTGGCCAGTGCCGTTTTGGAGCTCTGTGTGAGGCTGAGACTGGGCGCTGCATATGCCCCTCTGAGTGCGTGGCCTCAGCCCAGCCTGTGTGTGGTTCTGACGGGCACACCTATGCCAGTGAGTGTGAGCTGCACGTCCACGCCTGTACACAGCAGATCAGCCTGCACGTGGTCTCGGCCGGACCCTGCCAGACGTGTGGGGATGCAGTGTGTGCCTTTGGGGCCGTGTGCTCGGCAGGGCAGTGTGTATGTCCTCGGTGTGAGGACCCCCCGCCCGGCCCTGTCTGTGGCAGCAACGGAGTCACCTACCCCAGTGCGTGTGACCTGCGGGAAGCTGCCTGCCAGCAGCAGGTGCAGATTGAGGAGGCCCGGGCCGGGCCCTGCGAGCAAGCCGAATGCGGCTCAGGAGGCTCTGGCTCTGGGGAGGATGGCGAGTGTGAGCGGGACCTGTGCCAGCAGCGCGGTGGCCTCTGGGACGAGGACTCAGAGGATGGGCTGTGTGTCTGTGACTTCAGCTGCCAGAGTGTCCTGAGGAGCCCAGTGTGCGGCTCAGATGGGGTGACCTATGACACCGAGTGTGACCTGAAGAAGGCCAGGTGCGAGTCACAGAGAGGGCTGTACGTCGCGGCGCCGGGAGCCTGCCGCACTCCCACGTTGGTCCCGCTGCCACCCGTGGTTCTCCCGCACTGTGCCCAGACCCCCTATGGTTGCTGCCAGGACAATGTGACCGCTGCCCGGGGTGTGGGCCTGGCTGGCTGCCCCGGCCTCTGCCAGTGCAACCCGCACGGCTCCTACGGCGGCACCTGTGACCCCGTCACAGGCCAGTGCTCCTGCCGGCCTGGCGTGGGGGGCCTCAAGTGCGCCCGCTGTGAGCCTGGCTTCTGGAACTTCCGTGGTATTGTCACCGACAACCTGAGTGGCTGCACTCCCTGCAGCTGTGACCCCCGGGGTGCCATGCGGGATGACTGTGAGCAGATGACTGGACTGTGCTCCTGTAGGCCAGGCGTGGCCGGGCCCAAGTGTGGACAGTGTCCAGATGGCCAAGCCCTGGGCCCTGCTGGCTGTGACGCAGGCTCCTCGGTGCCCAGGACCTGCGCGGAGGTGCACTGTGAGTTTGGAGCCTCCTGTGTGGAGGAAGCTGGTTCTGCCCACTGTGTCTGCCCAGCCCTCACGTGCCCAGAGGCCAATGCCACCAAGGTCTGTGGGTCCGATGGCATCACATACGGCAACGAGTGCCAGCTGAAGACCATTGCCTGCCGCCAGGGCTTGGACATCTCTACGCAGAGTTTCGGCCCGTGCCAAGATGCCGATGCTCTTGGCACACACCCCACGTCTGCATCTGCGACCACCCTGGAGCCTGTCCGGAGTGAGGCGCTGCTGCCCACCCCCAGCGCACCGCCCCTGGTACCCAGCGGCATCCCCAGCAGCCAGCCCACCCCTTCACCCACATCACGACCTCGGACCACAGCCAGCATGCCCAGGCCCACCGTATGGCCTGTGCCAACCACGGCCCTCACCGCAGCCTCCACTGGCACCAGCCTTGCCCTGCCGGCCTCCGGCGAATCTGGCAGCACTGCTGGGAGCGGTGACGAGGAGCTCAGTGGAGACCAGGAGGCCAGTGGGGGAGGCTCTGGGGGACTTGAACTCCCCACGGGGATCAGCATGGTGACCCCTGGGCCACCCATTGAGAGGGCTTCCTGCTACAACTCCCCTTTGGGCTGCTGTTCAGATGGCAAGACACCCTCGCTGGACACCGAGGGCTCCAACTGCCCTGACACCAAGGCCTTCCAGGGAGTGCTTGAGCTGGAGGGAGTCGAGGGACAGGAGCTGTTCTACACGCCCGAGATGGCTGACCCCAAGTCAGAGCTGTTTGGGGAGACTGCCCGGAGCATCGAGAGTTCACTGGATGACCTGTTCCGAAACTCGGATGTCAAAAAGGACTTCCGGAGTGTCCACCTGAGGGACCTCGGGCCTGGCAGATTGCTGCGAGCGATTGTGGATGTGCACTTTGAGCCCACCACAGCCTTCAGGGCTCCGGACGTGGGCCGGGCACTCCTCCGGCAGATCCAGGCATCCCGGCGTCAGGCTTTGATGGTGCGGAGGCCTCTACAGGAACATGTGCAATTCATGGACTTTGACTGGTTTCCAGCCTCCTTCACAGGAGCCACCACTGAAGCCACGGCCAGAGCCACCACCACGGGCCAGCTGCCCTTGTCTGCTGTGACCCCTCGGGCCCACCCTAGTCACACCAGCCGACCTACTGGCAGGACCACAGCACCTCCCACCACGCACCGGCCGCCTACCACAGCCCCCAGCCGCACGGCAGGACACCGGCCCCTGCCCCCCGGCCTCCAGCAGCCCCCGAGGCCCTGTGCCTCCCAGCCCTGCCTCCACGGGGGCACCTGCCAAGACCAAGACTCTGGCCAAGGCTTCAGCTGCAGCTGCCCAGTGGGCCGGGGCGGCACCGTCTGCGAGGAGGCGCTGCGCCCCCCTGTGCCTGCCTTCTGGGGCCACTCCTTCCTGGCTTTCCCCACCCTCCGCGCCTACCATACCCTGCGCCTGGCACTGGAATTCCGGACTCTGGAGCCGCAGGGGCTGCTGCTGTACAATGGGAACAACCGCGGCAAAGACTTCCTGGCACTGGCTCTGCAGAGCAGCCGGGTGCAGCTCAGGTTTGACACGGGTTCTGGGCCAGCAGTGCTGACGAGCTCCGTGCCTGTGGAACTGGGCCGGTGGCATCGCCTAGAACTCTCAAGGCACTGGCGCCAGGGCACACTCTCTGTGGATGGTGAGAGCCCTGTTGTGGGCCAGAGCCCCAGCGGCACGGATGGCCTTAACCTGGACACGGACCTTTTCGTGGGTGGCATCCCAGAGGACCAAGCTGCTGTGGTGCTCGAGCGGACCTCCGTTGGGGTTGGCCTGAAGGGCTGCATCCGCCTGCTGGACATTAACAACCAGCGACTGGAGCTGGGCAGCTGGCAGGGAGCTGCAGCCCAGAGCTCTGGTGTGGGCGAGTGTGGGGATGACCCCTGCCAGCCAAACCCCTGCAGCGGCGGAGCGCCGTGCCGAGCGCTTGAGGCTGGCCTGTTCCGCTGTCAGTGCCCACCAGGCCACTTTGGTCTGACCTGTGCCACCAAGAAGAACCCCTGCCAGCCAAACCCCTGCCATGGAGCAGCCCCGTGCCACGTGCTGCCTGAGGGGGCTGCCAAGTGCAGATGCCCCCTTGGGCGTGAGGGCACTCTGTGCCAGACAGTCTCAGAGAAGGACCCTGGCTCCCAGCCCTTCCTGGCTGATTTCAGCGGCTTCTCCTACCTGGAACTGAGAGGCTTGCACACCTTTGAACGAGACCTGGGGGAGAAGATGGCGCTGGAGCTTGTGTTCTTCACCCGTGGTCCCAGTGGCTTGCTACTCTACAATGGGCAGAAGACGGATGGCAGGGGCGACTTTGTGTCCCTGGCCCTGCGTGACTGGCACCTAGAATTCCGCTATGACCTGGGCAAGGGGGCTGCGGTCATCAGGAGCAAGGAGCCTGTGGCCCCGGGCGTCTGGACAAGAGTCTCCCTGGAGCGAAATGGCCGCAAGGGTGTGCTGCGCGTGGGCGATGGGCCTCGGGTGCTGGGGGAGTCCCCGGTGCCACACACCGTGCTCAACCTGAAGGAGCCGCTGTATGTGGGGGGTGCCCCTGACTTCAGCAAGCTGGCCCGGGCAGCTGCGGTGTCCTCCGGCTTTGACGGTGCCATCCAGCTGATCTCCCTGGGAGGCCGCCAGCTGCTGGCCCAGGAGCATGTCCTGCAGGCAGTGGGCGTCTCGCCCTTTGCTGACCACCCTTGCACCCAAGCCCAGGGCCACCCCTGTCTCAACGGAGCCTCGTGTCTCCCACGGGAGGCCGCCTACGAGTGCCTGTGTCCTCCGGGCTTCTCAGGGCTGCACTGTGAGAAAGGGTTGGTTGAAAAGTCAGCGAGGGACCTGGAGACGCTGGCTTTTGACGGGCAGACCTACATCGAGTACCTCAACGCTGTGAGGGAGAGCGAGAAGGCGCTGCAGAGCAACCACTTTGAACTGAGCTTGCGCACTGAGGCCACTCAGGGGCTGGTGCTGTGGAGTGGCAAAGCCACAGAGCGCACTGACTATGTGGCTCTGGCCATTGTGGATGGGTGCCTGCAGCTGAGCTATGACTTGGGCTCCCAGCCTGTGGTGCTGCGCTCCACTGTGAAGGTCAACACCAATCGCTGGCTGCGGGTCAGGGCTCACAGGGAGCAGCGGGAAGGGTCCCTGCAGGTGGGCAACGAAGCCCCTGTGACTGGCTCCTCCCCGCTGGGCGCCACACAGCTGGACACAGATGGAGCCTTGTGGCTCGGGGGGCTTCGGAAGCTGCCCGTGGGCCAGGCCCTACCCAAGGCCTATAGCACAGGCTTCGTGGGCTGCCTGCGGGACGTGGTGGTGAGTGGGCGCCCGCTGCACCTGCTGGAAGATGCAGTCGCCAGGCCGGAGCTGCGGCCCTGCCCCACCCCCTGA

XM_004863896.1 Coding sequence

Isg15 ISG15 ubiquitin-like modifier

High confidence: 4 potential gene matches
Length: 486 bp    Location: 8511750..8510657   Strand: -
>XM_004863896.1
ATGGGCTGGGACCTGACAGTGAAGATGTTGGGGGGCCAGGAGTTCCTGGTGTCCCTGAACTCCTCCATGACAGTGCAGGAACTGAAGAGGGAGATCGCCAAGAAGGCCGGGGTGCCTGCCTTCCAGCAGCGCCTAGCTGTCCAGCCGAGTAACAAGGTGCTGGAGGACAGGTTCACCCTCACCCAACAGGGCTTGGCCCCTGGCAGCACGGTCTGGCTGTTGGTGGAGGACTGTGAAAACCCCTTCAGCATCCTGGTGAGGAACGACAAGGGGCGCAGCCGTTTGTATGAGGTCCAGCTGACACAGACGGTGGCAGCGCTGAAGAAGCAGGTGTGCCAGCAAGAGGGGGCACGGGAAGACATGTTCTACCTGAGCTTCCAGGGGAGGTCTATGGAGGACGAGCACATGCTGGGCGACTATGGCCTCAAGTCCCAGTGTACTGTGTTCATGAATCTGCGCCTTCGAGGGGGCAGGGCAAGGCCCTGA

XM_004863899.1 Coding sequence

LOC101696347 uncharacterized LOC101696347, transcript variant X2

Length: 2202 bp    Location: 8531884..8536803   Strand: +
>XM_004863899.1
ATGGACAACTTCCAGTACAGTGTCCAGCTCAGTGACCAGGACTGGGCCGAGTTCTCGGCCACTGCTGATGAGTGTGGTCTCTTGCAGGCGGGCCTGGCTTCTGGGGACGAGCTCTTCTCCAGCGACATTGACCAAGGGGACAGCAGTGGTAGCAGCCCACCTGGGCCCCAACCTCTCCTCACTGGGCAGCTGGCTGCCCAGGGGAAGGGCTGGAAGGCCTGTGAGGAGGAGCACAGTGTGGCCACCTGGCAGCCGGCCAGCGGGTCTCAGTGGCAGCCTGTCCTGGCTCTGGGGGCCAGTCAGCAGGGGGCCGGCACGTCCGCACGGCCTGAAGCTCTGCTGTCCGTCAGCTCAGGCACCGCCCTTCCTGACCAGTGCTCCTCCTTTCCAGGGTCAGTAGATTCCAGTGGCGAGATGCAGAGGCTTCTGCAGGGCCCTTCCTCCAGCCCCTCTGGTGAGCCCCCCCCGAGTTCTAATCCCCCCAGCCACACTGCCATCCCTCAAAAGTCCCCCAACAGTTCTGACACCCCTCTGCGGAGCACTGACCGCAAGAAGAGGCGTCCAGCGGGGGCCAAGGGGGGCAGACACTCAGACACGCCAGGGCCTGCTGCGGCCCCAACAGGATCTCCAAAGCTCCCTGAGGCCAGGGCTGAGGAAAGCCTTGGTCTGGCTGGGGCCAGGGGCAAGGGGTTTGGGGCTGGGACAGCAAAGGCCATGGCAGGAGCCCAGCAGAACAAGCCTCAGCCAAACTCTGCAGGTGCTCTCTCCACATCTGTCCCCATAACTGAGCAAGGTACAGATCAGATCAGAATGACCCCCAGAGCTGAGTTACACAGGGCTTCTCGACCTGTCCAGGAGGCTCATCCAGATGCTTCCATGGCCGAGCCAGATGAAGCTCTGTCTATGCCCTCTTCCAAGCCCCAACCTGATGTGGCCCTGTCTACACCTGACTCCACACCTGGACTGCATGTGGACCTGCTTAAAGCAGGCCCAATGGCCAAGCCAAAGGTAGATTCACCTCTGCCTGTCTCAGTGGCTGTGCCCAGTAGGGCTTTGCCTCATTCTGCTTCCAAGACTGAGCCTGCTGTAGCAGCATCTACACCTGTCCCTGGGACTGAGGCTGCAGCGCCCTCCCAGCATCCTGTTCTCCAGACTAGGGCTGGTCTGATAGAGACACAAACGACCGTGCCTCCAAGAGGGCATCAAGAGAAGCCTGGAGGGGCTCCTGGACATGCTTTGGGGGAGCCTCCCCTGGGCCCTGCCCAAGCCCCCAAGAAGAAGAAAGTACGATTCTCCATGGCTGTGCCCAGCCCTGAAGAACCAGGATCGAAAGAGGCTACAGGTCCACCTTCATCAGCCTCTGCCTGGCCCTCAACCCCAGGGATGGCAGTGAGGGGCCGCGAGGGGTCTGCAACCTGGGACGCAGTGGTGGTCGGACCCCGGCCCCCCCAGCCTCGGATCCTCAAGCACCTGCCACCCCCTGCTCCCTCTGCTTCCGCAGGTACTGGGCCTGGGAGCTGCTTTGCAGTGACGCTCCCTGAGGCCTATGAGTTCTTCTTTTGTGATACCATTGAGGAGGAGGAAGAGGAGGAGGAAGATGCCAGTGAGGAGGCAGTAGCGAGCCAGGCACTGGGTGATGTCCAGTGGCCGGACATATGTGAATTCTTCTTCCAGGACTGCCACACCCAGAGGCTGGGGCACCAGGGGAGCTGCTCCCCCACTCCGCCTCCAGGAGCTGACGCTGCAGCAGCTGTGCCCCCTGGAAACCCAGTGCCCTTCTCTATCCCTGAGGCCTACGAACACTTCCTCGGGGAGGACAGGTGTGGGGGTGAGGTTCTCCCCACTCCCCTTCTCCAGCTGCAGACTTCAGAGCCCCTCAGGAACATAGGGACAAGGACTCCGCCTGAGCCTGGCCCAGCCAGAGCAGAGCAGCTCAGCCTGGCAGCCAAGCAGGCAGGAGAGCTCCGGCGTCCCCGTGCCTCACTTACTTTTAGTCAGAATGACATGTGCCTGGTGTTTGTAGCCCTTGCCACATGGGCTGTAAGAACCTCAGATCTACAAACCCCGGATGCTTGGAAAACAGTCTTGCTGGCCAATATTGGCACCATTTCCGCTATCCGCTACTTCCGCCGGGAGGTGAGGCGAGGGCGAAGCTCCAGCCCCAGCCCCAGCCCCAGCCCCAGCCCCAGCTACAGCTCCTAG

XM_004863891.1 Coding sequence

LOC101723793 chromosome unknown open reading frame, human C1orf159, transcript variant X2

Length: 627 bp    Location: 8443449..8465519   Strand: +
>XM_004863891.1
ATGTCTGCAGCTCTCATCCTGGAGGGGCAGCTCCCTGGCATGGCCCTGCAGTGCCTCGCGCTCCTGGCTGGCCTTCTGGTGGGAGTCGCCAGCAAGTCCACAGAAAGCAAGGCCCAGCAGCCAGAGTGTTGTGTGGATGTGGTGGACATCAATGCTACCTGCCCTGGAACAAACCTGTGCGGCCCAGGCTGCTACAGGCATGGGAACACAGATGGGAGCATCACCTGTGTGTGGTGCCAGAATGAGACCTTCCCGGCCTACAACGCCTCCGCGTGCAGAACCCTCACTGGCCAGGGTGCACAGTTTCCCATGAACAGGAGCACAGGGACTTCTGGCCGGCCACATTTTGAGGCTCCTCGAGTGGCAGTCTCCCTCTTCCTGGGGACATTCTTCATCAGCACGGGCCTCATCCTCTCTGTGGCGGGGTTCTTTTACCTCAAGCGCTCCAGTAAGCTCCCCAGGATCTTCTACAGGAGTGATAAAGCCCCAGCCCTGCAGCCCAGCGAAGCCGCTGCGATGATCCCTGCACCCCAGTCCTCAGTGCGGAAGCCTAGATACGTGAGGCGCGAGAGGCCCCCAGACACCTCTGCCTTCCCTGCAGTGGATGCCCGCATCAGCAATGTCTGA

XM_004863894.1 Coding sequence

Agrn agrin, transcript variant X2

Length: 5988 bp    Location: 8506747..8475453   Strand: -
>XM_004863894.1
ATGGATGGCGGCAACAAGGTGGTGATCAGTGGCTTTGGAGACCCCCTCATCTGTGACAACCAGGTGTCCACTGGGGACACCAGGATCTTCTTTGTGAACCCAGCTCCCCGCTACCTGTGGCCGGCCCACAAGAACGAGCTCATGCTCAACTCCAGCCTCATGCGCATTACTCTGCGGAACCTGGAAGAGGTGGAGTTCTGCGTGGAAGACAAACTTGGGACCCACTTCACATCAGCCCCTCTGATGCCTCCTAACCTATGCAAGGGAATGCTGTGTGGCTTTGGTGCCGTGTGCGAGCCCAGCACAGAAGATCCGGGCCGGGCCTCCTGCGTGTGCAAGAAGAGCCCCTGCCCAGCTGTGGTGGCACCCGTGTGCGGTTCGGACGCTTCCACCTACAGCAACGAGTGTGAGTTGCAGCGTGCACAGTGTGTCCTGCAACGGCGCATCCGCTTGCTCCGCCGCGGGCCCTGTGGGTCCAGGGACCCCTGCGCCAACGTGACCTGCAGCTTTGGCAGCACGTGTGCACTCCTGGCTGATGGGCAGACTGCCACGTGCCTGTGCCCGGTGACCTGCCACGGGGCCCCAGAGGGCACGGTGTGTGGCACTGACGGTACCGACTACCCTAGTGAGTGCCAGCTGCTGCGCCACGCCTGTGCACGCCAGGAAAACATCTCTAAGAAGTTCGACGGCCCCTGTGACCCCTGCCAGGGAGCCCTCGCTGACCGGAGCCGCATCTGTCGTGTGAACCCCCGCACACGGCGCCCGGAGATGCTTCTGCGGCCGGGCAGCTGCCCTCCCCGGCACTCACCTGTGTGCGGGGACAACGGGGTCACTTATGAAAACGACTGCATCATGGGCCGCACTGGGGTGCTCCGGGGCCTGCTCCTCCAGAAAGTGCGTTCTGGCCAGTGCCAGCCTCGAGACCAGTGCCCTGAGCCTTGCCAGTTCAATGCTGTGTGCCTGTCTCGCCGTGGCCGTCCCCACTGCTCCTGTGACCGCGTCACCTGTGACGGGGCCTACAGGCCCGTGTGTGCCCAGGATGGCCGCACATATGACAATGACTGTTGGCGCCAGCAGGCAGAGTGTCGGCAGCAGCGTGCCATACCCACCAAGCACCAGGGCCTGTGTGACCAGTGTGGCCAGTGCCGTTTTGGAGCTCTGTGTGAGGCTGAGACTGGGCGCTGCATATGCCCCTCTGAGTGCGTGGCCTCAGCCCAGCCTGTGTGTGGTTCTGACGGGCACACCTATGCCAGTGAGTGTGAGCTGCACGTCCACGCCTGTACACAGCAGATCAGCCTGCACGTGGTCTCGGCCGGACCCTGCCAGACGTGTGGGGATGCAGTGTGTGCCTTTGGGGCCGTGTGCTCGGCAGGGCAGTGTGTATGTCCTCGGTGTGAGGACCCCCCGCCCGGCCCTGTCTGTGGCAGCAACGGAGTCACCTACCCCAGTGCGTGTGACCTGCGGGAAGCTGCCTGCCAGCAGCAGGTGCAGATTGAGGAGGCCCGGGCCGGGCCCTGCGAGCAAGCCGAATGCGGCTCAGGAGGCTCTGGCTCTGGGGAGGATGGCGAGTGTGAGCGGGACCTGTGCCAGCAGCGCGGTGGCCTCTGGGACGAGGACTCAGAGGATGGGCTGTGTGTCTGTGACTTCAGCTGCCAGAGTGTCCTGAGGAGCCCAGTGTGCGGCTCAGATGGGGTGACCTATGACACCGAGTGTGACCTGAAGAAGGCCAGGTGCGAGTCACAGAGAGGGCTGTACGTCGCGGCGCCGGGAGCCTGCCGCACTCCCACGTTGGTCCCGCTGCCACCCGTGGTTCTCCCGCACTGTGCCCAGACCCCCTATGGTTGCTGCCAGGACAATGTGACCGCTGCCCGGGGTGTGGGCCTGGCTGGCTGCCCCGGCCTCTGCCAGTGCAACCCGCACGGCTCCTACGGCGGCACCTGTGACCCCGTCACAGGCCAGTGCTCCTGCCGGCCTGGCGTGGGGGGCCTCAAGTGCGCCCGCTGTGAGCCTGGCTTCTGGAACTTCCGTGGTATTGTCACCGACAACCTGAGTGGCTGCACTCCCTGCAGCTGTGACCCCCGGGGTGCCATGCGGGATGACTGTGAGCAGATGACTGGACTGTGCTCCTGTAGGCCAGGCGTGGCCGGGCCCAAGTGTGGACAGTGTCCAGATGGCCAAGCCCTGGGCCCTGCTGGCTGTGACGCAGGCTCCTCGGTGCCCAGGACCTGCGCGGAGGTGCACTGTGAGTTTGGAGCCTCCTGTGTGGAGGAAGCTGGTTCTGCCCACTGTGTCTGCCCAGCCCTCACGTGCCCAGAGGCCAATGCCACCAAGGTGAGGGTAAGAGCATGTGGAGGGCAGTTGGGTGGGGAGGACTTGCCTGAGCATTCCCGTCCTGTGACCCAGGTCTGTGGGTCCGATGGCATCACATACGGCAACGAGTGCCAGCTGAAGACCATTGCCTGCCGCCAGGGCTTGGACATCTCTACGCAGAGTTTCGGCCCGTGCCAAGATGCCGATGCTCTTGGCACACACCCCACGTCTGCATCTGCGACCACCCTGGAGCCTGTCCGGAGTGAGGCGCTGCTGCCCACCCCCAGCGCACCGCCCCTGGTACCCAGCGGCATCCCCAGCAGCCAGCCCACCCCTTCACCCACATCACGACCTCGGACCACAGCCAGCATGCCCAGGCCCACCGTATGGCCTGTGCCAACCACGGCCCTCACCGCAGCCTCCACTGGCACCAGCCTTGCCCTGCCGGCCTCCGGCGAATCTGGCAGCACTGCTGGGAGCGGTGACGAGGAGCTCAGTGGAGACCAGGAGGCCAGTGGGGGAGGCTCTGGGGGACTTGAACTCCCCACGGGGATCAGCATGGTGACCCCTGGGCCACCCATTGAGAGGGCTTCCTGCTACAACTCCCCTTTGGGCTGCTGTTCAGATGGCAAGACACCCTCGCTGGACACCGAGGGCTCCAACTGCCCTGACACCAAGGCCTTCCAGGGAGTGCTTGAGCTGGAGGGAGTCGAGGGACAGGAGCTGTTCTACACGCCCGAGATGGCTGACCCCAAGTCAGAGCTGTTTGGGGAGACTGCCCGGAGCATCGAGAGTTCACTGGATGACCTGTTCCGAAACTCGGATGTCAAAAAGGACTTCCGGAGTGTCCACCTGAGGGACCTCGGGCCTGGCAGATTGCTGCGAGCGATTGTGGATGTGCACTTTGAGCCCACCACAGCCTTCAGGGCTCCGGACGTGGGCCGGGCACTCCTCCGGCAGATCCAGGCATCCCGGCGTCAGGCTTTGATGGTGCGGAGGCCTCTACAGGAACATGTGCAATTCATGGACTTTGACTGGTTTCCAGCCTCCTTCACAGGAGCCACCACTGAAGCCACGGCCAGAGCCACCACCACGGGCCAGCTGCCCTTGTCTGCTGTGACCCCTCGGGCCCACCCTAGTCACACCAGCCGACCTACTGGCAGGACCACAGCACCTCCCACCACGCACCGGCCGCCTACCACAGCCCCCAGCCGCACGGCAGGACACCGGCCCCTGCCCCCCGGCCTCCAGCAGCCCCCGAGGCCCTGTGCCTCCCAGCCCTGCCTCCACGGGGGCACCTGCCAAGACCAAGACTCTGGCCAAGGCTTCAGCTGCAGCTGCCCAGTGGGCCGGGGCGGCACCGTCTGCGAGGAGGCGCTGCGCCCCCCTGTGCCTGCCTTCTGGGGCCACTCCTTCCTGGCTTTCCCCACCCTCCGCGCCTACCATACCCTGCGCCTGGCACTGGAATTCCGGACTCTGGAGCCGCAGGGGCTGCTGCTGTACAATGGGAACAACCGCGGCAAAGACTTCCTGGCACTGGCTCTGCAGAGCAGCCGGGTGCAGCTCAGGTTTGACACGGGTTCTGGGCCAGCAGTGCTGACGAGCTCCGTGCCTGTGGAACTGGGCCGGTGGCATCGCCTAGAACTCTCAAGGCACTGGCGCCAGGGCACACTCTCTGTGGATGGTGAGAGCCCTGTTGTGGGCCAGAGCCCCAGCGGCACGGATGGCCTTAACCTGGACACGGACCTTTTCGTGGGTGGCATCCCAGAGGACCAAGCTGCTGTGGTGCTCGAGCGGACCTCCGTTGGGGTTGGCCTGAAGGGCTGCATCCGCCTGCTGGACATTAACAACCAGCGACTGGAGCTGGGCAGCTGGCAGGGAGCTGCAGCCCAGAGCTCTGGTGTGGGCGAGTGTGGGGATGACCCCTGCCAGCCAAACCCCTGCAGCGGCGGAGCGCCGTGCCGAGCGCTTGAGGCTGGCCTGTTCCGCTGTCAGTGCCCACCAGGCCACTTTGGTCTGACCTGTGCCACCAAGAAGAACCCCTGCCAGCCAAACCCCTGCCATGGAGCAGCCCCGTGCCACGTGCTGCCTGAGGGGGCTGCCAAGTGCAGATGCCCCCTTGGGCGTGAGGGCACTCTGTGCCAGACAGTCTCAGAGAAGGACCCTGGCTCCCAGCCCTTCCTGGCTGATTTCAGCGGCTTCTCCTACCTGGAACTGAGAGGCTTGCACACCTTTGAACGAGACCTGGGGTCAGCAGGACCGGGGGCTGGGACAGCTGGTGGGGAGGGAACTGTGGGCCCCCCCACAACGCTGTGTGACCCCAGGGAGAAGATGGCGCTGGAGCTTGTGTTCTTCACCCGTGGTCCCAGTGGCTTGCTACTCTACAATGGGCAGAAGACGGATGGCAGGGGCGACTTTGTGTCCCTGGCCCTGCGTGACTGGCACCTAGAATTCCGCTATGACCTGGGCAAGGGGGCTGCGGTCATCAGGAGCAAGGAGCCTGTGGCCCCGGGCGTCTGGACAAGAGTCTCCCTGGAGCGAAATGGCCGCAAGGGTGTGCTGCGCGTGGGCGATGGGCCTCGGGTGCTGGGGGAGTCCCCGGTGAGTGCTGGGAGGAGAGGGGCCGCGGCCTCCACCCGCCCTGCCTCCCACCCCTTCCGCGCCCAGGGCCTGGGCAGCCCCTGGCTGGCTCTCACAGGACTGTTTCCTTTCGTCTGTCCTCTCTGCCCTCACTGCTCTCTGGCTCTTGCTCTGCACCCCCACCCGCTCTCCGGATGTCAGAAATCCCACAAGGTGCCACACACCGTGCTCAACCTGAAGGAGCCGCTGTATGTGGGGGGTGCCCCTGACTTCAGCAAGCTGGCCCGGGCAGCTGCGGTGTCCTCCGGCTTTGACGGTGCCATCCAGCTGATCTCCCTGGGAGGCCGCCAGCTGCTGGCCCAGGAGCATGTCCTGCAGGCAGTGGGCGTCTCGCCCTTTGCTGACCACCCTTGCACCCAAGCCCAGGGCCACCCCTGTCTCAACGGAGCCTCGTGTCTCCCACGGGAGGCCGCCTACGAGTGCCTGTGTCCTCCGGGCTTCTCAGGGCTGCACTGTGAGAAAGGGTTGGTTGAAAAGTCAGCGAGGGACCTGGAGACGCTGGCTTTTGACGGGCAGACCTACATCGAGTACCTCAACGCTGTGAGGGAGAGCGAGAAGGCGCTGCAGAGCAACCACTTTGAACTGAGCTTGCGCACTGAGGCCACTCAGGGGCTGGTGCTGTGGAGTGGCAAAGCCACAGAGCGCACTGACTATGTGGCTCTGGCCATTGTGGATGGGTGCCTGCAGCTGAGCTATGACTTGGGCTCCCAGCCTGTGGTGCTGCGCTCCACTGTGAAGGTCAACACCAATCGCTGGCTGCGGGTCAGGGCTCACAGGGAGCAGCGGGAAGGGTCCCTGCAGGTGGGCAACGAAGCCCCTGTGACTGGCTCCTCCCCGCTGGGCGCCACACAGCTGGACACAGATGGAGCCTTGTGGCTCGGGGGGCTTCGGAAGCTGCCCGTGGGCCAGGCCCTACCCAAGGCCTATAGCACAGGCTTCGTGGGCTGCCTGCGGGACGTGGTGGTGAGTGGGCGCCCGCTGCACCTGCTGGAAGATGCAGTCGCCAGGCCGGAGCTGCGGCCCTGCCCCACCCCCTGA

XM_004863895.1 Coding sequence

Agrn agrin, transcript variant X3

High confidence: 4 potential gene matches
Length: 5928 bp    Location: 8496140..8475453   Strand: -
>XM_004863895.1
ATGCCACCCCTGCCACTGGAGCGCCGTCCCGGGCTGCAGCCCGGTGTCTCCCTGCTGGTGCGGTACTTCATGGTCCCCTGCAATGCCTGCCTCATCCTGCTGGCCACCTCCACGCTGGGCTTTGCTGTGCTGCTCTTCCTCAGCAACTACAAACTTGGGACCCACTTCACATCAGCCCCTCTGATGCCTCCTAACCTATGCAAGGGAATGCTGTGTGGCTTTGGTGCCGTGTGCGAGCCCAGCACAGAAGATCCGGGCCGGGCCTCCTGCGTGTGCAAGAAGAGCCCCTGCCCAGCTGTGGTGGCACCCGTGTGCGGTTCGGACGCTTCCACCTACAGCAACGAGTGTGAGTTGCAGCGTGCACAGTGTGTCCTGCAACGGCGCATCCGCTTGCTCCGCCGCGGGCCCTGTGGGTCCAGGGACCCCTGCGCCAACGTGACCTGCAGCTTTGGCAGCACGTGTGCACTCCTGGCTGATGGGCAGACTGCCACGTGCCTGTGCCCGGTGACCTGCCACGGGGCCCCAGAGGGCACGGTGTGTGGCACTGACGGTACCGACTACCCTAGTGAGTGCCAGCTGCTGCGCCACGCCTGTGCACGCCAGGAAAACATCTCTAAGAAGTTCGACGGCCCCTGTGACCCCTGCCAGGGAGCCCTCGCTGACCGGAGCCGCATCTGTCGTGTGAACCCCCGCACACGGCGCCCGGAGATGCTTCTGCGGCCGGGCAGCTGCCCTCCCCGGCACTCACCTGTGTGCGGGGACAACGGGGTCACTTATGAAAACGACTGCATCATGGGCCGCACTGGGGTGCTCCGGGGCCTGCTCCTCCAGAAAGTGCGTTCTGGCCAGTGCCAGCCTCGAGACCAGTGCCCTGAGCCTTGCCAGTTCAATGCTGTGTGCCTGTCTCGCCGTGGCCGTCCCCACTGCTCCTGTGACCGCGTCACCTGTGACGGGGCCTACAGGCCCGTGTGTGCCCAGGATGGCCGCACATATGACAATGACTGTTGGCGCCAGCAGGCAGAGTGTCGGCAGCAGCGTGCCATACCCACCAAGCACCAGGGCCTGTGTGACCAGTGTGGCCAGTGCCGTTTTGGAGCTCTGTGTGAGGCTGAGACTGGGCGCTGCATATGCCCCTCTGAGTGCGTGGCCTCAGCCCAGCCTGTGTGTGGTTCTGACGGGCACACCTATGCCAGTGAGTGTGAGCTGCACGTCCACGCCTGTACACAGCAGATCAGCCTGCACGTGGTCTCGGCCGGACCCTGCCAGACGTGTGGGGATGCAGTGTGTGCCTTTGGGGCCGTGTGCTCGGCAGGGCAGTGTGTATGTCCTCGGTGTGAGGACCCCCCGCCCGGCCCTGTCTGTGGCAGCAACGGAGTCACCTACCCCAGTGCGTGTGACCTGCGGGAAGCTGCCTGCCAGCAGCAGGTGCAGATTGAGGAGGCCCGGGCCGGGCCCTGCGAGCAAGCCGAATGCGGCTCAGGAGGCTCTGGCTCTGGGGAGGATGGCGAGTGTGAGCGGGACCTGTGCCAGCAGCGCGGTGGCCTCTGGGACGAGGACTCAGAGGATGGGCTGTGTGTCTGTGACTTCAGCTGCCAGAGTGTCCTGAGGAGCCCAGTGTGCGGCTCAGATGGGGTGACCTATGACACCGAGTGTGACCTGAAGAAGGCCAGGTGCGAGTCACAGAGAGGGCTGTACGTCGCGGCGCCGGGAGCCTGCCGCACTCCCACGTTGGTCCCGCTGCCACCCGTGGTTCTCCCGCACTGTGCCCAGACCCCCTATGGTTGCTGCCAGGACAATGTGACCGCTGCCCGGGGTGTGGGCCTGGCTGGCTGCCCCGGCCTCTGCCAGTGCAACCCGCACGGCTCCTACGGCGGCACCTGTGACCCCGTCACAGGCCAGTGCTCCTGCCGGCCTGGCGTGGGGGGCCTCAAGTGCGCCCGCTGTGAGCCTGGCTTCTGGAACTTCCGTGGTATTGTCACCGACAACCTGAGTGGCTGCACTCCCTGCAGCTGTGACCCCCGGGGTGCCATGCGGGATGACTGTGAGCAGATGACTGGACTGTGCTCCTGTAGGCCAGGCGTGGCCGGGCCCAAGTGTGGACAGTGTCCAGATGGCCAAGCCCTGGGCCCTGCTGGCTGTGACGCAGGCTCCTCGGTGCCCAGGACCTGCGCGGAGGTGCACTGTGAGTTTGGAGCCTCCTGTGTGGAGGAAGCTGGTTCTGCCCACTGTGTCTGCCCAGCCCTCACGTGCCCAGAGGCCAATGCCACCAAGGTGAGGGTAAGAGCATGTGGAGGGCAGTTGGGTGGGGAGGACTTGCCTGAGCATTCCCGTCCTGTGACCCAGGTCTGTGGGTCCGATGGCATCACATACGGCAACGAGTGCCAGCTGAAGACCATTGCCTGCCGCCAGGGCTTGGACATCTCTACGCAGAGTTTCGGCCCGTGCCAAGATGCCGATGCTCTTGGCACACACCCCACGTCTGCATCTGCGACCACCCTGGAGCCTGTCCGGAGTGAGGCGCTGCTGCCCACCCCCAGCGCACCGCCCCTGGTACCCAGCGGCATCCCCAGCAGCCAGCCCACCCCTTCACCCACATCACGACCTCGGACCACAGCCAGCATGCCCAGGCCCACCGTATGGCCTGTGCCAACCACGGCCCTCACCGCAGCCTCCACTGGCACCAGCCTTGCCCTGCCGGCCTCCGGCGAATCTGGCAGCACTGCTGGGAGCGGTGACGAGGAGCTCAGTGGAGACCAGGAGGCCAGTGGGGGAGGCTCTGGGGGACTTGAACTCCCCACGGGGATCAGCATGGTGACCCCTGGGCCACCCATTGAGAGGGCTTCCTGCTACAACTCCCCTTTGGGCTGCTGTTCAGATGGCAAGACACCCTCGCTGGACACCGAGGGCTCCAACTGCCCTGACACCAAGGCCTTCCAGGGAGTGCTTGAGCTGGAGGGAGTCGAGGGACAGGAGCTGTTCTACACGCCCGAGATGGCTGACCCCAAGTCAGAGCTGTTTGGGGAGACTGCCCGGAGCATCGAGAGTTCACTGGATGACCTGTTCCGAAACTCGGATGTCAAAAAGGACTTCCGGAGTGTCCACCTGAGGGACCTCGGGCCTGGCAGATTGCTGCGAGCGATTGTGGATGTGCACTTTGAGCCCACCACAGCCTTCAGGGCTCCGGACGTGGGCCGGGCACTCCTCCGGCAGATCCAGGCATCCCGGCGTCAGGCTTTGATGGTGCGGAGGCCTCTACAGGAACATGTGCAATTCATGGACTTTGACTGGTTTCCAGCCTCCTTCACAGGAGCCACCACTGAAGCCACGGCCAGAGCCACCACCACGGGCCAGCTGCCCTTGTCTGCTGTGACCCCTCGGGCCCACCCTAGTCACACCAGCCGACCTACTGGCAGGACCACAGCACCTCCCACCACGCACCGGCCGCCTACCACAGCCCCCAGCCGCACGGCAGGACACCGGCCCCTGCCCCCCGGCCTCCAGCAGCCCCCGAGGCCCTGTGCCTCCCAGCCCTGCCTCCACGGGGGCACCTGCCAAGACCAAGACTCTGGCCAAGGCTTCAGCTGCAGCTGCCCAGTGGGCCGGGGCGGCACCGTCTGCGAGGAGGCGCTGCGCCCCCCTGTGCCTGCCTTCTGGGGCCACTCCTTCCTGGCTTTCCCCACCCTCCGCGCCTACCATACCCTGCGCCTGGCACTGGAATTCCGGACTCTGGAGCCGCAGGGGCTGCTGCTGTACAATGGGAACAACCGCGGCAAAGACTTCCTGGCACTGGCTCTGCAGAGCAGCCGGGTGCAGCTCAGGTTTGACACGGGTTCTGGGCCAGCAGTGCTGACGAGCTCCGTGCCTGTGGAACTGGGCCGGTGGCATCGCCTAGAACTCTCAAGGCACTGGCGCCAGGGCACACTCTCTGTGGATGGTGAGAGCCCTGTTGTGGGCCAGAGCCCCAGCGGCACGGATGGCCTTAACCTGGACACGGACCTTTTCGTGGGTGGCATCCCAGAGGACCAAGCTGCTGTGGTGCTCGAGCGGACCTCCGTTGGGGTTGGCCTGAAGGGCTGCATCCGCCTGCTGGACATTAACAACCAGCGACTGGAGCTGGGCAGCTGGCAGGGAGCTGCAGCCCAGAGCTCTGGTGTGGGCGAGTGTGGGGATGACCCCTGCCAGCCAAACCCCTGCAGCGGCGGAGCGCCGTGCCGAGCGCTTGAGGCTGGCCTGTTCCGCTGTCAGTGCCCACCAGGCCACTTTGGTCTGACCTGTGCCACCAAGAAGAACCCCTGCCAGCCAAACCCCTGCCATGGAGCAGCCCCGTGCCACGTGCTGCCTGAGGGGGCTGCCAAGTGCAGATGCCCCCTTGGGCGTGAGGGCACTCTGTGCCAGACAGTCTCAGAGAAGGACCCTGGCTCCCAGCCCTTCCTGGCTGATTTCAGCGGCTTCTCCTACCTGGAACTGAGAGGCTTGCACACCTTTGAACGAGACCTGGGGTCAGCAGGACCGGGGGCTGGGACAGCTGGTGGGGAGGGAACTGTGGGCCCCCCCACAACGCTGTGTGACCCCAGGGAGAAGATGGCGCTGGAGCTTGTGTTCTTCACCCGTGGTCCCAGTGGCTTGCTACTCTACAATGGGCAGAAGACGGATGGCAGGGGCGACTTTGTGTCCCTGGCCCTGCGTGACTGGCACCTAGAATTCCGCTATGACCTGGGCAAGGGGGCTGCGGTCATCAGGAGCAAGGAGCCTGTGGCCCCGGGCGTCTGGACAAGAGTCTCCCTGGAGCGAAATGGCCGCAAGGGTGTGCTGCGCGTGGGCGATGGGCCTCGGGTGCTGGGGGAGTCCCCGGTGAGTGCTGGGAGGAGAGGGGCCGCGGCCTCCACCCGCCCTGCCTCCCACCCCTTCCGCGCCCAGGGCCTGGGCAGCCCCTGGCTGGCTCTCACAGGACTGTTTCCTTTCGTCTGTCCTCTCTGCCCTCACTGCTCTCTGGCTCTTGCTCTGCACCCCCACCCGCTCTCCGGATGTCAGAAATCCCACAAGGTGCCACACACCGTGCTCAACCTGAAGGAGCCGCTGTATGTGGGGGGTGCCCCTGACTTCAGCAAGCTGGCCCGGGCAGCTGCGGTGTCCTCCGGCTTTGACGGTGCCATCCAGCTGATCTCCCTGGGAGGCCGCCAGCTGCTGGCCCAGGAGCATGTCCTGCAGGCAGTGGGCGTCTCGCCCTTTGCTGACCACCCTTGCACCCAAGCCCAGGGCCACCCCTGTCTCAACGGAGCCTCGTGTCTCCCACGGGAGGCCGCCTACGAGTGCCTGTGTCCTCCGGGCTTCTCAGGGCTGCACTGTGAGAAAGGGTTGGTTGAAAAGTCAGCGAGGGACCTGGAGACGCTGGCTTTTGACGGGCAGACCTACATCGAGTACCTCAACGCTGTGAGGGAGAGCGAGAAGGCGCTGCAGAGCAACCACTTTGAACTGAGCTTGCGCACTGAGGCCACTCAGGGGCTGGTGCTGTGGAGTGGCAAAGCCACAGAGCGCACTGACTATGTGGCTCTGGCCATTGTGGATGGGTGCCTGCAGCTGAGCTATGACTTGGGCTCCCAGCCTGTGGTGCTGCGCTCCACTGTGAAGGTCAACACCAATCGCTGGCTGCGGGTCAGGGCTCACAGGGAGCAGCGGGAAGGGTCCCTGCAGGTGGGCAACGAAGCCCCTGTGACTGGCTCCTCCCCGCTGGGCGCCACACAGCTGGACACAGATGGAGCCTTGTGGCTCGGGGGGCTTCGGAAGCTGCCCGTGGGCCAGGCCCTACCCAAGGCCTATAGCACAGGCTTCGTGGGCTGCCTGCGGGACGTGGTGGTGAGTGGGCGCCCGCTGCACCTGCTGGAAGATGCAGTCGCCAGGCCGGAGCTGCGGCCCTGCCCCACCCCCTGA

XM_004863887.1 Coding sequence

LOC101722852 uncharacterized LOC101722852

Length: 696 bp    Location: 8387163..8395269   Strand: +
>XM_004863887.1
ATGGACAAAGACTTTTTAAAGAGCCCTGGCAGCTGTGTGCGGAACACGGGGTCCGGTGCACAGTGTCGGGAGAGCTGGAATGCTGCCAGCGCCCAGGTGGCATCCTCTGGCAGCTGCAAGTCCAGGGTCTCTCTGAAGGACGCGACTCTAAATCCAGAAATTAAAGACTGGTGGGAAATCACTCTGGCTCGACAGACAGATGCTGTTAAACCCGAAGAAAATGTTCAAGAAGAGAAACACATAGGTCTCAGGAGCCCTCTGCTGGGATACAACAGTGGTGGCCTGGCAACTGTCCCTCAGCAACTGTTAACTGGCAACTGCAGCCCAGTGGAGCCCCAGGGTCCTGCACAGCACTGGCTGCTCTGGGGCTTCCTTGCCCACCCAGAAGCTGGCTGCCCTGGGCCACACCCCGTGTGGCTCTTCCCTGAGCTGTCAGAAGGGGGCATTTCGCAAGGCTTGGCTGGGCTGGAGAGCCACCCTCCTGTGGAAAACCCCCACCCTCACTGGTTCCCTGGGTGGGGTCGGTTCCTGTTGCCGGCCCCACCCATCCGAGGGCCTTTGGGCTATCTTGCTGCACCCAGCCATCTGACCCTCTGCCCAGGCAGCCACAGTCCGTCTGGCGGCCAGAGCAGAGGGCGTCCTCATGCTGGCCGGAGGGAGGGAGGGCGGGAGTGCCAGGCCCCACTTTGGTGCTGA

XM_004863890.1 Coding sequence

LOC101723793 chromosome unknown open reading frame, human C1orf159, transcript variant X1

Length: 705 bp    Location: 8443449..8464717   Strand: +
>XM_004863890.1
ATGTCTGCAGCTCTCATCCTGGAGGGGCAGCTCCCTGGCATGGCCCTGCAGTGCCTCGCGCTCCTGGCTGGCCTTCTGGTGGGAGTCGCCAGCAAGTCCACAGAAAGCAAGGCCCAGCAGCCAGAGTGTTGTGTGGATGTGGTGGACATCAATGCTACCTGCCCTGGAACAAACCTGTGCGGCCCAGGCTGCTACAGGCATGGGAACACAGATGGGAGCATCACCTGTGTGTGGTGCCAGAATGAGACCTTCCCGGCCTACAACGCCTCCGCGTGCAGAACCCTCACTGGCCAGGGTGCACAGTTTCCCATGAACAGGAGCACAGGGACTTCTGGCCGGCCACATTTTGAGGCTCCTCGAGTGGCAGTCTCCCTCTTCCTGGGGACATTCTTCATCAGCACGGGCCTCATCCTCTCTGTGGCGGGGTTCTTTTACCTCAAGCGCTCCAGTAAGCTCCCCAGGATCTTCTACAGGAGTGATAAAGCCCCAGCCCTGCAGCCCAGCGAAGCCGTAAGTCCCCCACTGCCTGGGGAGCATCCTGGGCCACACGCTGCCTGCCCCTCACACTGCCTTTCTCTCCTTTTCAAGGCTGCGATGATCCCTGCACCCCAGTCCTCAGTGCGGAAGCCTAGATACGTGAGGCGCGAGAGGCCCCCAGACACCTCTGCCTTCCCTGCAGTGGATGCCCGCATCAGCAATGTCTGA

XM_004863888.1 Coding sequence

Rnf223 ring finger protein 223, transcript variant X1

Length: 1071 bp    Location: 8465017..8467038   Strand: +
>XM_004863888.1
ATGAGGCAGGATGTCTGTGGCTCCTGGGGTAGAGACCTGGCCCAGAGAGGAGCAGCAGACAAGTCCAGGTGGGCCCTGGTCAGCAGGGTCTTCCAGGACGGTCAGGGGCATGGAGCAGACTCTGGAAGAGGAAGGCCCTGGAGCCAGACATCCCCTTTCCTTCTCAGTGGCCAGCTGTGTGATCTCAACACTCAGGGACCAGGACGAGTGGCTGAAGCCTGCACCCCACTTTTCTGGCTATGGCTGGGGGTCATTTCCAATCCCTGCCAGACCAGGAGTCCACTGCTCAGACCCATGTCATCAGGCCAGGAAATATGGCACACAGCTGTGCCGCCCCCCCGCCGGAGCAGCTCCACAGCCTCCTCAGTGCCTGGGTCCTCCAGCTCGGCCAGCAGCCCCAGGTCCCCCTGCACCCCGAGCTCGGAGCGGGTAGCCTCACCGTTGGAGTGCTCCATCTGCTTCTCAGGCTATGACAACATCTTCAAGACACCCAAGGAGCTCTCCTGCACCCACGTCTTCTGCCTAGAATGCCTAGCTCGGCTGGCAGCTGCCCAGCCCACAGGCCGCCCTGGCGCAGAAGCTGTGCCCTGTCCATTCTGCCGGCAGCCCACGGCTGTACCAGCTGCTGGGGCCCCTGGCCTTCGCACCAGCCGCCAGTTGCAGGCCAAGCTGCCAGTGCACCTGCGGCGGGAAGAGCTGGTGTGGCTGGAGGGCACTAAACTGTGCTGCCGCCCACTGCCCACCACGCCTGGCCAGGAGGCACCCGGCTCCGTGTGTGTGGACGTAGGCCTAAGCAAGCCCGCCGAGCCCACGCCTCCAGTGCCCATCCTGGACCCTGCCCCACGCCGGGGCCGCCTGGCCTGCCTGGCCCGCTGCTGGGAGCGATGTGCAGATTGGCGGCGCCTGGCGCTGGTCTCAGTGCTGCTACTGGTGCTGTTCTGCGTGGTTCTGTGGCCCGTGCAGTGTGCCCTCAAGACTGGGAATCTGCGCTGCCTGCCGCAGCAGCATGTAGCCACTGCCACCACTGCTGCCACCGCCCTCTCCCTCCAGCCTCTAGCTCACAGCAACTAG

XM_004863889.1 Coding sequence

Rnf223 ring finger protein 223, transcript variant X2

Length: 777 bp    Location: 8465562..8467038   Strand: +
>XM_004863889.1
ATGTCATCAGGCCAGGAAATATGGCACACAGCTGTGCCGCCCCCCCGCCGGAGCAGCTCCACAGCCTCCTCAGTGCCTGGGTCCTCCAGCTCGGCCAGCAGCCCCAGGTCCCCCTGCACCCCGAGCTCGGAGCGGGTAGCCTCACCGTTGGAGTGCTCCATCTGCTTCTCAGGCTATGACAACATCTTCAAGACACCCAAGGAGCTCTCCTGCACCCACGTCTTCTGCCTAGAATGCCTAGCTCGGCTGGCAGCTGCCCAGCCCACAGGCCGCCCTGGCGCAGAAGCTGTGCCCTGTCCATTCTGCCGGCAGCCCACGGCTGTACCAGCTGCTGGGGCCCCTGGCCTTCGCACCAGCCGCCAGTTGCAGGCCAAGCTGCCAGTGCACCTGCGGCGGGAAGAGCTGGTGTGGCTGGAGGGCACTAAACTGTGCTGCCGCCCACTGCCCACCACGCCTGGCCAGGAGGCACCCGGCTCCGTGTGTGTGGACGTAGGCCTAAGCAAGCCCGCCGAGCCCACGCCTCCAGTGCCCATCCTGGACCCTGCCCCACGCCGGGGCCGCCTGGCCTGCCTGGCCCGCTGCTGGGAGCGATGTGCAGATTGGCGGCGCCTGGCGCTGGTCTCAGTGCTGCTACTGGTGCTGTTCTGCGTGGTTCTGTGGCCCGTGCAGTGTGCCCTCAAGACTGGGAATCTGCGCTGCCTGCCGCAGCAGCATGTAGCCACTGCCACCACTGCTGCCACCGCCCTCTCCCTCCAGCCTCTAGCTCACAGCAACTAG

XM_004863885.1 Coding sequence

Sdf4 stromal cell derived factor 4, transcript variant X4

Length: 1074 bp    Location: 8362108..8371967   Strand: +
>XM_004863885.1
ATGGCAATGGTTTCCAGGCAAGCCCCCCTCTGTGGCCTGGCCACACACTGCTTCTGGCTCCTGGGTTTTGTCCTTTTGATGGAGGCATCTGCACGGCCGGCCAATCACTCGTCCACCCGGGAGAGAGCGGCCAACAGGGAGGAAAAGGAGCTCCTGCCCCCAGACCACCTGAATGGGGTGAAGCTGGAGATGGATGGGCACCTCAACAAGGATTTCCACCAGGAGGTCTTCCTGGGGAAGGACGTGGGTGGCTTTGACGAGGACTCAGAGCCTCGCAGGAGCCGGAGGAAGCTGATGGTCATCTTCTCCAAAGTGGATGTGAACACAGACCGGAGGATCAGCGCCAAGGAGATGCAGCGCTGGATCATGGAGAAGACAGCTGAACACTTCCAGGAGGCTGTGAAGGAGAACAAGATGCACTTCCGGGCTGTGGACCCTGACGGCGATGGCCACGTGTCCTGGGATGAATACAAAGTGAAGTTTCTGACAAGCAAAGGCCACAATGAGAAAGAGGTTGCTGATGCGATCAGGAACCACGAGGAGCTGAAGGTGGATGAGGAGACACAGGAAGTCCTCGAGAACCTCAAAGACCGCTGGTATCAGGCAGACAACCCCCCTGCAGACCTGCTGCTGACTGAGGACGAGTTCTTGTCTTTCCTTCACCCTGAGCACAGCCGGGGCATGCTCAAGTTCATGGTCAAGGAGATTGTCCGGGACTTGGACCAGGATGGTGACAAGCAGCTTTCTCTGCCTGAGTTCATCTCCCTGCCTGTGGGCACAGTCGAGAACCAACAGGGCCAGGACATGGATGACAGCTGGGTCAGAGACAGGAAGAAAGAGTTCGAAGAGCTGATAGACTCCAACCATGATGGGATTGTGACCATGGAGGAGCTAGAGAACTACATGGACCCCATGAACGAGTACAGTGCCCTCAATGAGGCCAAGCAGATGATCGCCATTGCCGATGAGAACCAGAACCAGCACCTGGAGCCGGAGGAGATCCTCAAGTACAGCGAGTTCTTCACGGGCAGCAAGCTGGTGGACTACGCCCGGAACGTGCACGAGGAGTTCTGA

XM_004863878.1 Coding sequence

Acap3 ArfGAP with coiled-coil, ankyrin repeat and PH domains 3, transcript variant X7

Length: 2355 bp    Location: 8302974..8314342   Strand: +
>XM_004863878.1
ATGAAATTCTGGCTGCTCCTGGGAGCTCTCACCTTGGGAGCTGTGACAACTGTGAGTGCTGCTTGCCTGGAGAAGCTGACATGCCCTTCCCCTGCCCACCTGTCCTGTCCACAGCTCGTCAGGCTGTGCAGTGGTATGATCGAGGCTGGCAAGGCCTATGTCACCACCAACAGGCTCTTCGTGAGTGGCGTCCGAGACCTGTCCCAGCAGTGCCAGGGTGACACTGTCATCTCCGAATGTCTGCAGCGCTTTGGAGACAGCTTGCAGGAGATGGTCAACTTCCACACGATCCTGTTTGACCAGGCCCAGAGATCTGTGCGACAGCAGCTCCACAACTTCATCAAAGAGGATGTTCGGAAGTTCAAAGAGACCAAGAAGCAGTTTGATAAGGTGCGGGAGGACATGGAGCTGTCCCTGGTGAGGAATGCCCAGGCCCCAAGGCACCGGCCCCACGAGGTAGAGGAGGCCACTGGTGCGCTCACACTCACCCGGAAGTGCTTCCGCCACCTCGCGCTAGACTATGTGCTCCAGATCAATGTCCTCCAGGCCAAGAAGAAGTTCGAGATCTTGGATTCTATGCTGTCCTTCATGCATGCCCAGTACAGCTTCTTCCAGCAGGGATACAGCCTCCTGCACCAGCTGGACCCCTACATGAAGAAGCTGGCAGCCGAGCTGGACCAGCTGGTGATCGATTCTGCCGTGGAGAAGCGGGAAATGGAGCGCAAGCACGCTGCCATCCAGCAGCGGACGCTACTGCAGGACTTTTCCTATGATGAATCCAAAGTAGAATTCGATGTGGATGCGCCCAGTGGCGTGGTGATGGAGGGCTATCTGTTCAAGAGGGCCAGCAATGCTTTCAAGACATGGAACCGGCGCTGGTTCTCCATCCAGAACAGCCAGCTGGTCTACCAGAAGAAGCTCAAGGACTCGCTGACTGTGGTGGTTGACGACCTCCGCCTATGCTCTGTGAAGCCATGTGAGGACACTGAGCGGAGGTTCTGCTTCGAGGTCGTGTCACCCACCAAGAGCTGCATGCTGCAGGCTGACTCAGAGAAGCTACGCCAGGCCTGGGTCCAAGCCGTGCAGGCCAGCATTGCCTCTGCCTACCGCGAGAGCCCTGACAGCTGCTACAGCGAGAGGCTGGACCGCACAGCATCCCCTTCCACAAGCAGCATCGACTCCACCACAGACTCTCGGGAGCGCGGCGTCAAGGGCGAGAGTGTGCTCCAGCGGGTGCAGAGTGTGGCTGGCAACAGCCAGTGTGGTGACTGTGGCCAGCCAGACCCCCGCTGGGCCAGCATCAACTTGGGTGTCCTGCTTTGCATCGAGTGCTCAGGCATCCACAGGAGCCTGGGTGTCCACTGCTCCAAGGTGCGATCTCTGACATTGGACTCCTGGGAGCCAGAGCTGCTGAAGCTGATGTGTGAGCTTGGAAACAGCACCATAAACCAGATCTATGAGTTCCAGTGTGAGGGTCCTAGTAGCAGGAAGCCCACAGCCAGCAGCCCCAGACAGGACAAGGAAGCCTGGATCAAAGACAAGTACGTGGAGAAGAAGTTCCTTGGGAAACTGCCCACAGTACCCACCCTGGAAGCCCCGAGGCACTGGCGAGGACAGAAGTGCCAGCGCCCCCACAGCTCCCCCCGACCCCCCCCCACCCGCCGAAAGGCCCGACTCGAGCCGGTCCTTCCCTCCTTGGCTGCTCTGTCTTCAGCAGGGACTCTGGAGCGCAGGTTCCGCCGGGACTCCCTCTTCTGCCCAGACGAGCTGGACTCTCTGTTCTCCTACTTCGATGCAGGGGCTGCGGGGGCTGGTCCACGCAGTCTGAGCAGCGACAGTGGCCTGGGGGGCAGCTCTGACGGCAGCTCCGATGTCCTGGCCTTCGGCGCGGGCTCGGTGGTGGACAGCGTCACCGAGGAGGGTGGGTGGCGCCCTCTTCCCCGCCACAGCCCCAGCCCCGGACCCGGCCGCCCTTCGCTGGCGCAGTCTAGCCGCCCCCTCCCCGCAGAGGGTGCGGAGTCCGAGGAGTCCAGCGGTGAGGCGGATGGGGAGGCGGAGGCCTGGAGCCTGGCGGACGTGCGTGAGCTGCACCCCGGGCTGCTGGCGCACCGCGCGGCGCGCACCCGCGACCTCCCCGCACTGGCCGCGGCGCTGGCCCACGGGGCTGAGGTCAACTGGGCGGACGCGGAAGACGAGGGCAAGACTCCGCTGGTGCAGGCGGTGCTGGGGGGCTCCTTGATCATCTGTGAATTTCTTCTGCAAAACGGAGCTGATGTGAACCAAAGAGACAGCAGGGGCCGCGCGCCACTGCACCATGCCACGCTCCTTGGCCGCACCGGGTCTGCCTGTTCCTGA

XM_004863883.1 Coding sequence

Sdf4 stromal cell derived factor 4, transcript variant X2

Length: 1074 bp    Location: 8362108..8371967   Strand: +
>XM_004863883.1
ATGGCAATGGTTTCCAGGCAAGCCCCCCTCTGTGGCCTGGCCACACACTGCTTCTGGCTCCTGGGTTTTGTCCTTTTGATGGAGGCATCTGCACGGCCGGCCAATCACTCGTCCACCCGGGAGAGAGCGGCCAACAGGGAGGAAAAGGAGCTCCTGCCCCCAGACCACCTGAATGGGGTGAAGCTGGAGATGGATGGGCACCTCAACAAGGATTTCCACCAGGAGGTCTTCCTGGGGAAGGACGTGGGTGGCTTTGACGAGGACTCAGAGCCTCGCAGGAGCCGGAGGAAGCTGATGGTCATCTTCTCCAAAGTGGATGTGAACACAGACCGGAGGATCAGCGCCAAGGAGATGCAGCGCTGGATCATGGAGAAGACAGCTGAACACTTCCAGGAGGCTGTGAAGGAGAACAAGATGCACTTCCGGGCTGTGGACCCTGACGGCGATGGCCACGTGTCCTGGGATGAATACAAAGTGAAGTTTCTGACAAGCAAAGGCCACAATGAGAAAGAGGTTGCTGATGCGATCAGGAACCACGAGGAGCTGAAGGTGGATGAGGAGACACAGGAAGTCCTCGAGAACCTCAAAGACCGCTGGTATCAGGCAGACAACCCCCCTGCAGACCTGCTGCTGACTGAGGACGAGTTCTTGTCTTTCCTTCACCCTGAGCACAGCCGGGGCATGCTCAAGTTCATGGTCAAGGAGATTGTCCGGGACTTGGACCAGGATGGTGACAAGCAGCTTTCTCTGCCTGAGTTCATCTCCCTGCCTGTGGGCACAGTCGAGAACCAACAGGGCCAGGACATGGATGACAGCTGGGTCAGAGACAGGAAGAAAGAGTTCGAAGAGCTGATAGACTCCAACCATGATGGGATTGTGACCATGGAGGAGCTAGAGAACTACATGGACCCCATGAACGAGTACAGTGCCCTCAATGAGGCCAAGCAGATGATCGCCATTGCCGATGAGAACCAGAACCAGCACCTGGAGCCGGAGGAGATCCTCAAGTACAGCGAGTTCTTCACGGGCAGCAAGCTGGTGGACTACGCCCGGAACGTGCACGAGGAGTTCTGA

XM_004863882.1 Coding sequence

Sdf4 stromal cell derived factor 4, transcript variant X1

Length: 1074 bp    Location: 8362108..8371967   Strand: +
>XM_004863882.1
ATGGCAATGGTTTCCAGGCAAGCCCCCCTCTGTGGCCTGGCCACACACTGCTTCTGGCTCCTGGGTTTTGTCCTTTTGATGGAGGCATCTGCACGGCCGGCCAATCACTCGTCCACCCGGGAGAGAGCGGCCAACAGGGAGGAAAAGGAGCTCCTGCCCCCAGACCACCTGAATGGGGTGAAGCTGGAGATGGATGGGCACCTCAACAAGGATTTCCACCAGGAGGTCTTCCTGGGGAAGGACGTGGGTGGCTTTGACGAGGACTCAGAGCCTCGCAGGAGCCGGAGGAAGCTGATGGTCATCTTCTCCAAAGTGGATGTGAACACAGACCGGAGGATCAGCGCCAAGGAGATGCAGCGCTGGATCATGGAGAAGACAGCTGAACACTTCCAGGAGGCTGTGAAGGAGAACAAGATGCACTTCCGGGCTGTGGACCCTGACGGCGATGGCCACGTGTCCTGGGATGAATACAAAGTGAAGTTTCTGACAAGCAAAGGCCACAATGAGAAAGAGGTTGCTGATGCGATCAGGAACCACGAGGAGCTGAAGGTGGATGAGGAGACACAGGAAGTCCTCGAGAACCTCAAAGACCGCTGGTATCAGGCAGACAACCCCCCTGCAGACCTGCTGCTGACTGAGGACGAGTTCTTGTCTTTCCTTCACCCTGAGCACAGCCGGGGCATGCTCAAGTTCATGGTCAAGGAGATTGTCCGGGACTTGGACCAGGATGGTGACAAGCAGCTTTCTCTGCCTGAGTTCATCTCCCTGCCTGTGGGCACAGTCGAGAACCAACAGGGCCAGGACATGGATGACAGCTGGGTCAGAGACAGGAAGAAAGAGTTCGAAGAGCTGATAGACTCCAACCATGATGGGATTGTGACCATGGAGGAGCTAGAGAACTACATGGACCCCATGAACGAGTACAGTGCCCTCAATGAGGCCAAGCAGATGATCGCCATTGCCGATGAGAACCAGAACCAGCACCTGGAGCCGGAGGAGATCCTCAAGTACAGCGAGTTCTTCACGGGCAGCAAGCTGGTGGACTACGCCCGGAACGTGCACGAGGAGTTCTGA

XM_004863877.1 Coding sequence

Acap3 ArfGAP with coiled-coil, ankyrin repeat and PH domains 3, transcript variant X6

Length: 2463 bp    Location: 8302974..8315878   Strand: +
>XM_004863877.1
ATGATCGAGGCTGGCAAGGCCTATGTCACCACCAACAGGCTCTTCGTGAGTGGCGTCCGAGACCTGTCCCAGCAGTGCCAGGGTGACACTGTCATCTCCGAATGTCTGCAGCGCTTTGGAGACAGCTTGCAGGAGATGGTCAACTTCCACACGATCCTGTTTGACCAGGCCCAGAGATCTGTGCGACAGCAGCTCCACAACTTCATCAAAGAGGATGTTCGGAAGTTCAAAGAGACCAAGAAGCAGTTTGATAAGGTGCGGGAGGACATGGAGCTGTCCCTGGTGAGGAATGCCCAGGCCCCAAGGCACCGGCCCCACGAGGTAGAGGAGGCCACTGGTGCGCTCACACTCACCCGGAAGTGCTTCCGCCACCTCGCGCTAGACTATGTGCTCCAGATCAATGTCCTCCAGGCCAAGAAGAAGTTCGAGATCTTGGATTCTATGCTGTCCTTCATGCATGCCCAGTACAGCTTCTTCCAGCAGGGATACAGCCTCCTGCACCAGCTGGACCCCTACATGAAGAAGCTGGCAGCCGAGCTGGACCAGCTGGTGATCGATTCTGCCGTGGAGAAGCGGGAAATGGAGCGCAAGCACGCTGCCATCCAGCAGCGGACGCTACTGCAGGACTTTTCCTATGATGAATCCAAAGTAGAATTCGATGTGGATGCGCCCAGTGGCGTGGTGATGGAGGGCTATCTGTTCAAGAGGGCCAGCAATGCTTTCAAGACATGGAACCGGCGCTGGTTCTCCATCCAGAACAGCCAGCTGGTCTACCAGAAGAAGCTCAAGGACTCGCTGACTGTGGTGGTTGACGACCTCCGCCTATGCTCTGTGAAGCCATGTGAGGACACTGAGCGGAGGTTCTGCTTCGAGGTCGTGTCACCCACCAAGAGCTGCATGCTGCAGGCTGACTCAGAGAAGCTACGCCAGGCCTGGGTCCAAGCCGTGCAGGCCAGCATTGCCTCTGCCTACCGCGAGAGCCCTGACAGCTGCTACAGCGAGAGGCTGGACCGCACAGCATCCCCTTCCACAAGCAGCATCGACTCCACCACAGACTCTCGGGAGCGCGGCGTCAAGGGCGAGAGTGTGCTCCAGCGGGTGCAGAGTGTGGCTGGCAACAGCCAGTGTGGTGACTGTGGCCAGCCAGACCCCCGCTGGGCCAGCATCAACTTGGGTGTCCTGCTTTGCATCGAGTGCTCAGGCATCCACAGGAGCCTGGGTGTCCACTGCTCCAAGGTGCGATCTCTGACATTGGACTCCTGGGAGCCAGAGCTGCTGAAGCTGATGTGTGAGCTTGGAAACAGCACCATAAACCAGATCTATGAGTTCCAGTGTGAGGGTCCTAGTAGCAGGAAGCCCACAGCCAGCAGCCCCAGACAGGACAAGGAAGCCTGGATCAAAGACAAGTACGTGGAGAAGAAGTTCCTTGGGAAACTGCCCACAGTACCCACCCTGGAAGCCCCGAGGCACTGGCGAGGACAGAAGTGCCAGCGCCCCCACAGCTCCCCCCGACCCCCCCCCACCCGCCGAAAGGCCCGACTCGAGCCGGTCCTTCCCTCCTTGGCTGCTCTGTCTTCAGCAGGGACTCTGGAGCGCAGGTTCCGCCGGGACTCCCTCTTCTGCCCAGACGAGCTGGACTCTCTGTTCTCCTACTTCGATGCAGGGGCTGCGGGGGCTGGTCCACGCAGTCTGAGCAGCGACAGTGGCCTGGGGGGCAGCTCTGACGGCAGCTCCGATGTCCTGGCCTTCGGCGCGGGCTCGGTGGTGGACAGCGTCACCGAGGAGGGTGGGTGGCGCCCTCTTCCCCGCCACAGCCCCAGCCCCGGACCCGGCCGCCCTTCGCTGGCGCAGTCTAGCCGCCCCCTCCCCGCAGAGGGTGCGGAGTCCGAGGAGTCCAGCGGTGAGGCGGATGGGGAGGCGGAGGCCTGGAGCCTGGCGGACGTGCGTGAGCTGCACCCCGGGCTGCTGGCGCACCGCGCGGCGCGCACCCGCGACCTCCCCGCACTGGCCGCGGCGCTGGCCCACGGGGCTGAGGTCAACTGGGCGGACGCGGAAGACGAGGGCAAGACTCCGCTGGTGCAGGCGGTGCTGGGGGGCTCCTTGATCATCTGTGAATTTCTTCTGCAAAACGGAGCTGATGTGAACCAAAGAGACAGCAGGGGCCGCGCGCCACTGCACCATGCCACGCTCCTTGGCCGCACCGGCCAGGTCTGCCTGTTCCTGAAGCGAGGAGCTGATCAGCACGCCCTGGACGAGCAGCAGCAGGACCCGCTGAGCATAGCTGTGCAGGCGGCCAATGCCGACATTGTCACACTGCTCCGTTTGGCCCGCATGGCTGAGGAGATGCGTGAGGCCGAGGCGCCCTCGGGCCAGCCGGGTCCACTGGCGGGCATCAGCCCCACTGAGCTCCAGTACCGCAGGTGCATCCAGGAATTCATTGGCCTCCACCTGGAGGAGAGCTAG

XM_004863875.1 Coding sequence

Acap3 ArfGAP with coiled-coil, ankyrin repeat and PH domains 3, transcript variant X4

Length: 2511 bp    Location: 8302974..8315878   Strand: +
>XM_004863875.1
ATGAAATTCTGGCTGCTCCTGGGAGCTCTCACCTTGGGAGCTGTGACAACTGTGAGTGCTGCTTGCCTGGAGAAGCTGACATGCCCTTCCCCTGCCCACCTGTCCTGTCCACAGCTCGTCAGGCTGTGCAGTGGTATGATCGAGGCTGGCAAGGCCTATGTCACCACCAACAGGCTCTTCGTGAGTGGCGTCCGAGACCTGTCCCAGCAGTGCCAGGGTGACACTGTCATCTCCGAATGTCTGCAGCGCTTTGGAGACAGCTTGCAGGAGATGGTCAACTTCCACACGATCCTGTTTGACCAGGCCCAGAGATCTGTGCGACAGCAGCTCCACAACTTCATCAAAGAGGATGTTCGGAAGTTCAAAGAGACCAAGAAGCAGTTTGATAAGGTGCGGGAGGACATGGAGCTGTCCCTGGTGAGGAATGCCCAGGCCCCAAGGCACCGGCCCCACGAGGTAGAGGAGGCCACTGGTGCGCTCACACTCACCCGGAAGTGCTTCCGCCACCTCGCGCTAGACTATGTGCTCCAGATCAATGTCCTCCAGGCCAAGAAGAAGTTCGAGATCTTGGATTCTATGCTGTCCTTCATGCATGCCCAGTACAGCTTCTTCCAGCAGGGATACAGCCTCCTGCACCAGCTGGACCCCTACATGAAGAAGCTGGCAGCCGAGCTGGACCAGCTGGTGATCGATTCTGCCGTGGAGAAGCGGGAAATGGAGCGCAAGCACGCTGCCATCCAGCAGCGGACGCTACTGCAGGACTTTTCCTATGATGAATCCAAAGTAGAATTCGATGTGGATGCGCCCAGTGGCGTGGTGATGGAGGGCTATCTGTTCAAGAGGGCCAGCAATGCTTTCAAGACATGGAACCGGCGCTGGTTCTCCATCCAGAACAGCCAGCTGGTCTACCAGAAGAAGCTCAAGGACTCGCTGACTGTGGTGGTTGACGACCTCCGCCTATGCTCTGTGAAGCCATGTGAGGACACTGAGCGGAGGTTCTGCTTCGAGGTCGTGTCACCCACCAAGAGCTGCATGCTGCAGGCTGACTCAGAGAAGCTACGCCAGGCCTGGGTCCAAGCCGTGCAGGCCAGCATTGCCTCTGCCTACCGCGAGAGCCCTGACAGCTGCTACAGCGAGAGGCTGGACCGCACAGCATCCCCTTCCACAAGCAGCATCGACTCCACCACAGACTCTCGGGAGCGCGGCGTCAAGGGCGAGAGTGTGCTCCAGCGGGTGCAGAGTGTGGCTGGCAACAGCCAGTGTGGTGACTGTGGCCAGCCAGACCCCCGCTGGGCCAGCATCAACTTGGGTGTCCTGCTTTGCATCGAGTGCTCAGGCATCCACAGGAGCCTGGGTGTCCACTGCTCCAAGGTGCGATCTCTGACATTGGACTCCTGGGAGCCAGAGCTGCTGAAGCTGATGTGTGAGCTTGGAAACAGCACCATAAACCAGATCTATGAGTTCCAGTGTGAGGGTCCTAGTAGCAGGAAGCCCACAGCCAGCAGCCCCAGACAGGACAAGGAAGCCTGGATCAAAGACAAGTACGTGGAGAAGAAGTTCCTTGGGAAACTGCCCACAGTACCCACCCTGGAAGCCCCGAGGCACTGGCGAGGACAGAAGTGCCAGCGCCCCCACAGCTCCCCCCGACCCCCCCCCACCCGCCGAAAGGCCCGACTCGAGCCGGTCCTTCCCTCCTTGGCTGCTCTGTCTTCAGCAGGGACTCTGGAGCGCAGGTTCCGCCGGGACTCCCTCTTCTGCCCAGACGAGCTGGACTCTCTGTTCTCCTACTTCGATGCAGGGGCTGCGGGGGCTGGTCCACGCAGTCTGAGCAGCGACAGTGGCCTGGGGGGCAGCTCTGACGGCAGCTCCGATGTCCTGGCCTTCGGCGCGGGCTCGGTGGTGGACAGCGTCACCGAGGAGGAGGGTGCGGAGTCCGAGGAGTCCAGCGGTGAGGCGGATGGGGAGGCGGAGGCCTGGAGCCTGGCGGACGTGCGTGAGCTGCACCCCGGGCTGCTGGCGCACCGCGCGGCGCGCACCCGCGACCTCCCCGCACTGGCCGCGGCGCTGGCCCACGGGGCTGAGGTCAACTGGGCGGACGCGGAAGACGAGGGCAAGACTCCGCTGGTGCAGGCGGTGCTGGGGGGCTCCTTGATCATCTGTGAATTTCTTCTGCAAAACGGAGCTGATGTGAACCAAAGAGACAGCAGGGGCCGCGCGCCACTGCACCATGCCACGCTCCTTGGCCGCACCGGCCAGGTCTGCCTGTTCCTGAAGCGAGGAGCTGATCAGCACGCCCTGGACGAGCAGCAGCAGGACCCGCTGAGCATAGCTGTGCAGGCGGCCAATGCCGACATTGTCACACTGCTCCGTTTGGCCCGCATGGCTGAGGAGATGCGTGAGGCCGAGGCGCCCTCGGGCCAGCCGGGTCCACTGGCGGGCATCAGCCCCACTGAGCTCCAGTACCGCAGGTGCATCCAGGAATTCATTGGCCTCCACCTGGAGGAGAGCTAG

XM_004863873.1 Coding sequence

Acap3 ArfGAP with coiled-coil, ankyrin repeat and PH domains 3, transcript variant X2

Length: 2598 bp    Location: 8306532..8315878   Strand: +
>XM_004863873.1
ATGAAATTCTGGCTGCTCCTGGGAGCTCTCACCTTGGGAGCTGTGACAACTGTGAGTGCTGCTTGCCTGGAGAAGCTGACATGCCCTTCCCCTGCCCACCTGTCCTGTCCACAGCTCGTCAGGCTGTGCAGTGGTATGATCGAGGCTGGCAAGGCCTATGTCACCACCAACAGGCTCTTCGTGAGTGGCGTCCGAGACCTGTCCCAGCAGTGCCAGGGTGACACTGTCATCTCCGAATGTCTGCAGCGCTTTGGAGACAGCTTGCAGGAGATGGTCAACTTCCACACGATCCTGTTTGACCAGGCCCAGAGATCTGTGCGACAGCAGCTCCACAACTTCATCAAAGAGGATGTTCGGAAGTTCAAAGAGACCAAGAAGCAGTTTGATAAGGTGCGGGAGGACATGGAGCTGTCCCTGGTGAGGAATGCCCAGGCCCCAAGGCACCGGCCCCACGAGGTAGAGGAGGCCACTGGTGCGCTCACACTCACCCGGAAGTGCTTCCGCCACCTCGCGCTAGACTATGTGCTCCAGATCAATGTCCTCCAGGCCAAGAAGAAGTTCGAGATCTTGGATTCTATGCTGTCCTTCATGCATGCCCAGTACAGCTTCTTCCAGCAGGGATACAGCCTCCTGCACCAGCTGGACCCCTACATGAAGAAGCTGGCAGCCGAGCTGGACCAGCTGGTGATCGATTCTGCCGTGGAGAAGCGGGAAATGGAGCGCAAGCACGCTGCCATCCAGCAGCGGACGCTACTGCAGGACTTTTCCTATGATGAATCCAAAGTAGAATTCGATGTGGATGCGCCCAGTGGCGTGGTGATGGAGGGCTATCTGTTCAAGAGGGCCAGCAATGCTTTCAAGACATGGAACCGGCGCTGGTTCTCCATCCAGAACAGCCAGCTGGTCTACCAGAAGAAGCTCAAGGACTCGCTGACTGTGGTGGTTGACGACCTCCGCCTATGCTCTGTGAAGCCATGTGAGGACACTGAGCGGAGGTTCTGCTTCGAGGTCGTGTCACCCACCAAGAGCTGCATGCTGCAGGCTGACTCAGAGAAGCTACGCCAGGCCTGGGTCCAAGCCGTGCAGGCCAGCATTGCCTCTGCCTACCGCGAGAGCCCTGACAGCTGCTACAGCGAGAGGCTGGACCGCACAGCATCCCCTTCCACAAGCAGCATCGACTCCACCACAGACTCTCGGGAGCGCGGCGTCAAGGGCGAGAGTGTGCTCCAGCGGGTGCAGAGTGTGGCTGGCAACAGCCAGTGTGGTGACTGTGGCCAGCCAGACCCCCGCTGGGCCAGCATCAACTTGGGTGTCCTGCTTTGCATCGAGTGCTCAGGCATCCACAGGAGCCTGGGTGTCCACTGCTCCAAGGTGCGATCTCTGACATTGGACTCCTGGGAGCCAGAGCTGCTGAAGCTGATGTGTGAGCTTGGAAACAGCACCATAAACCAGATCTATGAGTTCCAGTGTGAGGGTCCTAGTAGCAGGAAGCCCACAGCCAGCAGCCCCAGACAGGACAAGGAAGCCTGGATCAAAGACAAGTACGTGGAGAAGAAGTTCCTTGGGAAACTGCCCACAGTACCCACCCTGGAAGCCCCGAGGCACTGGCGAGGACAGAAGTGCCAGCGCCCCCACAGCTCCCCCCGACCCCCCCCCACCCGCCGAAAGGCCCGACTCGAGCCGGTCCTTCCCTCCTTGGCTGCTCTGTCTTCAGCAGGGACTCTGGAGCGCAGGTTCCGCCGGGACTCCCTCTTCTGCCCAGACGAGCTGGACTCTCTGTTCTCCTACTTCGATGCAGGGGCTGCGGGGGCTGGTCCACGCAGTCTGAGCAGCGACAGTGGCCTGGGGGGCAGCTCTGACGGCAGCTCCGATGTCCTGGCCTTCGGCGCGGGCTCGGTGGTGGACAGCGTCACCGAGGAGGGTGGGTGGCGCCCTCTTCCCCGCCACAGCCCCAGCCCCGGACCCGGCCGCCCTTCGCTGGCGCAGTCTAGCCGCCCCCTCCCCGCAGAGGGTGCGGAGTCCGAGGAGTCCAGCGGTGAGGCGGATGGGGAGGCGGAGGCCTGGAGCCTGGCGGACGTGCGTGAGCTGCACCCCGGGCTGCTGGCGCACCGCGCGGCGCGCACCCGCGACCTCCCCGCACTGGCCGCGGCGCTGGCCCACGGGGCTGAGGTCAACTGGGCGGACGCGGAAGACGAGGGCAAGACTCCGCTGGTGCAGGCGGTGCTGGGGGGCTCCTTGATCATCTGTGAATTTCTTCTGCAAAACGGAGCTGATGTGAACCAAAGAGACAGCAGGGGCCGCGCGCCACTGCACCATGCCACGCTCCTTGGCCGCACCGGCCAGGTCTGCCTGTTCCTGAAGCGAGGAGCTGATCAGCACGCCCTGGACGAGCAGCAGCAGGACCCGCTGAGCATAGCTGTGCAGGCGGCCAATGCCGACATTGTCACACTGCTCCGTTTGGCCCGCATGGCTGAGGAGATGCGTGAGGCCGAGGCGCCCTCGGGCCAGCCGGGTCCACTGGCGGGCATCAGCCCCACTGAGCTCCAGTACCGCAGGTGCATCCAGGAATTCATTGGCCTCCACCTGGAGGAGAGCTAG

XM_004863862.1 Coding sequence

Dvl1 dishevelled segment polarity protein 1, transcript variant X2

Length: 2013 bp    Location: 8267128..8278732   Strand: +
>XM_004863862.1
ATGGCGGAGACCAAGATCATCTACCACATGGACGAAGAGGAGACGCCGTACCTGGTCAAGCTGCCGGTGGCCCCCGAGCGCGTCACGCTGGCGGACTTCAAGAACGTGCTCAGCAACCGGCCCGTGCACGCCTACAAATTCTTCTTCAAGTCCATGGACCAGGACTTCGGGGTGGTGAAGGAAGAGATCTTTGATGACAACGCCAAGCTGCCCTGCTTCAATGGCCGAGTGGTCTCCTGGCTGGTCCTGGCCGAGGGTGCTCACTCAGACGCCGGGTCCCAGGGCACCGACAGCCACACTGACCTGCCCCCGGCCCTCGAGCGGACAGGTGGCATCGGGGACTCCCGGCCGCCTTCCTTCCACCCAAATGTGGCCGGCAGCCGCGATGGGATGGACCACGAGACCGGCTCAGAGTCCGTGGTCAGTCGCCGGCGGGAGCGAGCCCGGCGCCGGAACCGTGAGGAGGCCACGCGCACCAATGGGCACCCAAGGGGCGACCGGCGGCGGGACCTGGGGCTGCCCTCGGACAGTGCATCTGCTGTGCTGAGCAGCGAACTGGAGTCCAGCAGCTTCGTGGACTCAGAGGACGACAGCACGAGCCGGCTGAGCAGTTCCACAGAGCAGAGCACCTCCTCTCGGCTTATCCGGAAGCACAAGCGCCGGCGCAGGAAGCAGCGCCTGCGGCAGACAGACCGGGCCTCCTCCTTCAGCAGCATCACTGACTCCACAATGTCGCTGAACATCATCACCGTCACACTCAACATGGAGAGGCACCACTTCCTGGGCATCAGCATCGTGGGCCAGAGCAATGACCGGGGTGACGGTGGCATCTACATCGGTTCCATCATGAAGGGCGGGGCAGTGGCCGCCGACGGCCGCATCGAGCCGGGCGACATGCTGCTGCAGGTGAACGATGTGAACTTTGAGAACATGAGCAACGACGACGCTGTGCGGGTGCTCCGGGAGATCGTGTCCCAAACAGGGCCCATCAGCCTCACAGTGGCCAAGTGCTGGGACCCAACCCCCCGGAGCTACTTCACTATCCCGAGGGCTGACCCTGTGCGGCCCATCGACCCAGCCGCCTGGCTGTCCCACACGGCAGCGCTGACCGGCGCCCTGCCCCGCTACGAGCTGGAAGAAGCACCTCTGACAGTGAAGAGCGACATGAGCGCCATTGCCCGGGTCATGCAGCTGCCAGACTCGGGATTGGAGATCCGTGACCGCATGTGGCTCAAGATTACCATTGCCAATGCTGTTATCGGGGCGGATGTGGTGGACTGGCTGTACACGCACGTAGAGGGCTTCCGGGAGCGGCGCGAAGCCAGGAAGTATGCCGGCAGCATGCTGAGGCGCGGCTTCCTGCGGCACACGGTGAACAAGATCACCTTCTCCGAGCAGTGCTACTATGTGTTCGGGGACCTGTGCAGTGATCTCGCAGCCCTGAATCTCCACAGTGGCTCCAGCGGAGCCTCGGATCAGGACACCCTGGCCCCACTGCCCCACCCAGCCACAGCCTGGCCCCTAGGCCAGGGCTACCCCTACCAGTACCCTGGGCCCCCACCCTGCTTCCCGCCTGCCTACCAGGACCCCAGCTTCAGCTATGGCAGTGGCAGCGCTGGGAGCCAGCAGAGTGAAGGGAGCAAAAGCAGTGGGTCCACCCGGAGCAGCCGCCGGGCCCCAGGCCGGGAGAAGGAGCACCGGGCGGCTGGAGCTGGGGGCAGCGGCAGTGAGTCGGACCCTGCGGCGCCCAGCGGGGTGGGCAGCGCCGGCTGGTGGGAGCGCCCTGTAAGCCAGCTCAGCCAGGGCAGCAGCCCGCGTAGCCAGGCCTCGGCTGTTGCTCCAGGGCTCCCCCCACTGCACCCCCTGACAAAGGCCTACACAGTGGTGGGTGGGCCCCCGGGGGGACCTCCTGTCCGGGAGCTGGCTGCTATACCCCCAGAGCTGACTGGCAGCCGCCAGTCCTTCCAGAAGGCCATGGGAAACCCCTGCGAGTTCTTTGTGGACATCATGTAA

XM_004863842.1 Coding sequence

Tmem240 transmembrane protein 240

Length: 522 bp    Location: 8178451..8183043   Strand: +
>XM_004863842.1
ATGTCCATGAGCGCGAACACCATGATCTTCATGGTTCTGGGGGCGTCGATCGTGATGGCCATCGCGTGTTTGATGGACATGAACGCGCTGCTGGACCGCTTCCACAACTACATCCTCCCGCACCTGCGGGGCGAAGACCGCGTCTGCCACTGCAACTGTGGCCGGCACCACATCCACTATGTGATCCCGTACGACGGGGACCAGTCGGTGGTGGACGCGTCCGAGAACTACTTTGTGACGGACAATGTGACCAAGCAGGAGATAGACCTCATGCTGGGGCTGCTGCTGGGCTTCTGCATCAGCTGGTTCCTGGTGTGGATGGACGGCGTCCTGCACTGCGCCGTGCGTGCCTGGAGGGCCGGCCGGCGCTACGATGGCTCGTGGACCTGGCTGCCCAAGCTGTGTAGCCTGCGAGAGCTGGGCCGGCGGCCGCACAGGCCCTTCGAGGAGGCCACGGGGAACATGGTGCACGTGAAGCAGAAACTCTACCACAACGGCCACCCCAGCCCACGGCACCTGTGA

XM_004863643.1 Coding sequence

LOC101710659 beta-catenin-interacting protein 1-like, transcript variant X7

Length: 246 bp    Location: 2643913..2666645   Strand: +
>XM_004863643.1
ATGAACCGTGAGGGCGCGCCCGGGAAGAGTCCGGAGGAGATGTACATCCAGCAGAAGGTCCGCGTGCTGCTCATGCTGAGGAAGATGGGGTCGAACCTCACGGCCAGCGAGGAGGAGTTCCTGCGTACCTACGCGGGGGTGGTCAGCAGCCAGCTCAGCCAGCTGCCCCAGCATGCCATTGACCAGGGTGCAGAGGACGTGGTGACGGCCTTCTCCAGGTCAGAGACAGAGGACCGGAGGCAGTAG

XM_004863828.1 Coding sequence

Nadk NAD kinase, transcript variant X7

High confidence: 4 potential gene matches
Length: 1233 bp    Location: 8016409..8025664   Strand: +
>XM_004863828.1
ATGCCTGGCGCACGCCGCACCGCCGTCAGTGCAGCACGTCTCACCGGCACCTGCCCCTGTACAGCGAGAACGCGCTCTCTCCATGGACCATGCCCAGTGACCACGTTTGGACCAAAGGCCTGCGTGCTGCAGAACCCCCAGACCATCATGCACATTCAGGACCCTGCGAGCCAGCGGTTGACGTGGAACAAGTCCCCGAAGAGTGTGCTCGTCATCAAGAAGATCCGAGATGCCAGCCTGCTTCAGCCCTTCAAGGAGCTCTGCATGTACCTCATGGAGGAGAATGGCATGATTGTGTACGTGGAGAAGAAGGTGCTGGAGGACCCTGCCATTGCATGTGACGACAACTTCGGACCAGTGAAGAAGAGGTTCTGCACCTTCCGGGAAGATTACGACGACATTTCCAACCAAATAGACTTCATCATATGCCTGGGAGGTGACGGGACCCTGCTGTACGCCTCCTCACTGTTCCAGGGCAGTGTGCCTCCTGTTATGGCCTTCCACCTGGGCTCCCTGGGCTTCCTGACCCCGTTCACCTTCAAGAGCTTCCAGTCGCAGCTGACCCAGGTGATCGAAGGGAACGCTGCCGTGGTGCTCCGGAGCCGGCTAAAGGTCAGGGTGGTGAAGGAGCCCCGCAGCAAGAAGATGGCCGAGCACAACGGACTCAGCGAGAACGGGCTGCCAGGCCCCTCACTCGAGGGCGGGAAGCAGGCCCTGCAGTACCAGGTCCTGAACGAGGTTGTGATCGACAGGGGCCCCTCCTCGTACCTGTCCAACGTGGATGTCTACCTGGACGGACACCTCATCACCACGGTGCAGGGCGACGGAGTGATCGTGTCCACCCCAACGGGCAGCACGGCGTACGCGGCCGCGGCCGGTGCCTCCATGATCCACCCCAACGTGCCAGCCATCATGATCACACCCATCTGCCCTCACTCGCTGTCCTTCCGGCCCATCGTGGTCCCCGCAGGGGTGGAGCTGAAGATCACGCTGTCACCAGAAGCCAGGAACACTGCGTGGGTGTCCTTGGACGGACGGAAGCGGCAGGAGATACGCCATGGAGACAGCATCACCATCACCACCTCCTGCTACCCGCTCCCCTCCATCTGCGTCCACGACCCTGTGAGTGACTGGTTTGAGAGCCTGGCGCAGTGTCTGCATTGGAATGTGCGCAAGAAGCAAGCCCACTTCGAGGAAGAGGAGGAGGCAGCCGAGGACGGCGAGGAGGGCTAG

XM_004863820.1 Coding sequence

Gnb1 guanine nucleotide binding protein (G protein), beta polypeptide 1, transcript variant X1

Length: 1023 bp    Location: 7937082..8002796   Strand: +
>XM_004863820.1
ATGAGCGAGCTTGACCAGCTACGGCAGGAGGCCGAGCAGCTCAAGAACCAGATCAGAGATGCTCGGAAAGCATGTGCGGATGCAACTCTCTCACAGATCACAAACAGCATCGACCCAGTGGGAAGGATCCAGATGCGCACCAGGAGGACGCTGAGGGGGCACCTGGCCAAGATCTATGCCATGCACTGGGGCACAGACTCCAGGCTCCTGGTCAGCGCCTCACAGGATGGGAAACTCATCATCTGGGACAGCTACACCACAAACAAGGTCCACGCCATCCCCCTGCGCTCCTCCTGGGTCATGACCTGTGCTTACGCCCCCTCTGGGAACTACGTAGCCTGTGGTGGCCTGGACAACATCTGCTCCATTTACAATCTGAAGACTCGAGAAGGAAACGTGCGTGTGAGCCGTGAACTGGCGGGACACACAGGCTACCTGTCCTGCTGCCGATTCCTAGACGACAATCAGATCGTCACCAGCTCTGGAGACACCACGTGTGCACTGTGGGACATCGAGACTGGCCAGCAGACAACCACGTTCACTGGACACACTGGGGATGTCATGAGCCTCTCTCTGGCTCCCGACACCAGGCTCTTTGTTTCCGGTGCTTGTGACGCCTCAGCCAAGCTCTGGGACGTTCGAGAGGGCATGTGCCGGCAGACCTTCACTGGCCACGAGTCCGACATCAACGCCATCTGCTTCTTTCCAAATGGCAATGCATTTGCTACCGGCTCAGATGACGCTACCTGCAGGCTCTTTGACCTCCGTGCAGACCAGGAGCTCATGACCTACTCCCACGACAACATCATATGCGGGATCACCTCTGTCTCCTTCTCCAAGAGCGGGCGCCTCCTCCTCGCTGGGTACGACGACTTCAACTGCAACGTGTGGGATGCCCTCAAAGCTGACAGGGCAGGTGTCTTGGCTGGACATGACAACCGCGTCAGCTGCCTGGGGGTGACTGACGATGGCATGGCTGTGGCAACAGGGTCCTGGGACAGCTTCCTCAAGATCTGGAACTAA

XM_004863805.1 Coding sequence

LOC101697702 chromosome unknown open reading frame, human C1orf86, transcript variant X6

Length: 531 bp    Location: 7751460..7756968   Strand: +
>XM_004863805.1
ATGGGGTCGTCCCGGCCCTGGCGCGGGGGCGGGGCCCGGTTCTGGGGTGGGGTCAGGTTTGGGGCCGGGCCTGCGTCGCACTTCCGCCTGCACCGGATGGAGGAGGCGGCTTGGAGGCCGCGCGGGAAGCTGAGCCGCCGGAGGGCGCCCTCCGGGGGCGGCCCCAGGCCTCCCGCTGCAGAAGGGCCCAGTGACCCTCTCGTGTCGCCCATGGTCCCCAGCGGCAGCCCCCAGTGTCCCCCCAGCAGTGGCGAGAGCAAGCTGTGGGCTGCACTGCTGCGTGCTGTGCTCTCAGATCCAGTCCTGGACGGCCTGCCGCTGTCCCCGCTGCCCACCTTTCCCAGCCAGGAAGCAGGGCCGGAGAACCTCGAATCCCCTGAGGTCTTCACCGTGGGGACCAAGGCCTTTACCTGGACACCTTTTCCGCCAGCCCATGGGGGCCAAGGCCATGCTGAGAGGCTGACACAGCTGGACGTGGACGGCCACCTTGCACAGTGCCTGGCTGAGAGCACGGAAGATGTGGAGTGGTAG

XM_004863786.1 Coding sequence

Mmel1 membrane metallo-endopeptidase-like 1, transcript variant X1

High confidence: 4 potential gene matches
Length: 2343 bp    Location: 7453186..7482499   Strand: +
>XM_004863786.1
ATGGGGAAGCCAGAAAGCCCGGCGGGGATGGTGGACAGAGCCGGCTGGGCAGTGCAGAGGCGCCGAGGCTTCCTGGAGAGGGGGCTGCTGCTCCTGCTCCTGCTGGTGACGGGCGCCCTGGTGGCCCTGGGCGTCCTCTACAGCCGAGGGAAGCAGCTGCCCCCCTTTACGAGCTGGCTGTCCTCCTTACAGGAAGAGAGGACCGTTGTAAAACAAGAGTCCCGAGATATCCCTCCCCTCCGGAAGCCCACGCGGGTGGAAGAGGTCTGCACCAGCCCTGGCTGCGTGGTGGCGGCTGCCAGGATCCTCCAAAACATGGACCCGTCCACGGAACCGTGCAGCAACTTTTACCAGTACGCGTGCGGGGGCTGGCTGCGGCGCCATGTGATCCCTGAGACCAGTTCCCACTACAGCGTCTTCGATATCCTCCGAAACGAGGTGGAGGTCATCCTCAAAGGGGTGCTGGAGAATTCCACTGCCAAGTCCCGGCCAGCCGTGGAGAAGGCGAAGCTGCTGTACCGCTCCTGCATGAACCAGAGCATGATAGAGAAGCGAGACTCTCAGCCCCTTCTGGACGTCTTGGCGGTGGTGGGAGGCTGGCCGGTGGCCATGGACAAGTGGAACCAGACCATAGGCCCCACGTGGGAGCTGGAGCGGCAGCTGGCGGTGATGAACACACAGTTCAACCGGCGGGTCCTCATCGACCTCTTCGTGTGGAATGACGACCTGAACTCCAGCCGCCACATCATCTACATAGACCAGCCCACGCTGGGCATGCCGTCCCAGGAGTACTACATCAAGGAGGGCAGCAACCAGAAGGTGCGGGACGCCTACCTGCAGTTCATGACATCGGTGGCCACCATGCTGCGGAGGGACAACAAGCTGCCTGGGGACACCCACCTGGTGCAGGAGGACATGGCGCAGGTGCTGGAGCTGGAGACTCACCTGGCCAACGCCACCACACCCCCAGAGGAGAGGCAAGATATCACCGAACTATACCACAGGATGGACCTGCAGCAGCTCCAGGACAGGTTCAGCCTGAAGGGTTTTAACTGGACTCTCTTCATACAAACTGTGCTGTCCTCCGTCAAAATCGAGCTGCTGCCCAATGAGGAAGTAGTGGTCTATGGCATCCCCTACCTGGAGAAGCTCGAGAACATCATCGACCTCTACTCGGCCAGGACCATGCAGAACTATCTGGTCTGGCGCCTGGTGCTGGATCGCATCAGCAGCCTGAGCCAGCGGTTCAAGGATGCCCGGGTAAACTACCGCAAGGTGCTGTACGGCACCACGGTGGAGGAGGTGCGCTGGCGGGAGTGCGTCGGCTACGTCAACAGCAACATGGAGAGCGCCGTGGGCTCCCTGTATGTCAAGGAGGCCTTCCCCGGGGACAGCAAGAACATGGTCAGAGAGCTCATCAAGAAGGTGCAGGCCATGTTCGTGGAGACCCTGGACGAGCTGGGCTGGATGGACGAGGAATCCAAGAAGAAGGCCCAGGAGAAGGCCATGAGCATCCAGGAGCAGGTCGGCTACCCCACCTACATCCTTGAGGAAAGCAACAGGCGCCTGGACCAGGAGTATTCCAGCCTGAACTTCTCGGAGGACTTGTACTTCGAGAACACACTGCAGAACCTCAAGGCCAGCGCTCACAGGAGCCTCAGGAAGCTTCGGAAAAAGGTGGACCAGAATCTCTGGATCATTGGGGCCGCAGTGGTCAACGCGTTCTACTCCCCGAACCGAAACCAGATCGTGTTCCCCGCCGGGATCCTCCAACCACCGTTTTTCAGCAAGGAGCAGCCACAGGCCTTGAACTTCGGGGGCATTGGGATGGTGATCGGGCATGAAATCACGCATGGCTTTGATGACAATGGCCGGAACTTTGACAAGAACGGCAATATGCTAGACTGGTGGAGCAACTCCTCGGCCCAGCACTTCCGAGAGCAGTCGGAGTGCATGATCCACCAGTACAGCAACTACAGCTGGGACCTGGCCGGGAGCCAGCACGTGAATGGATTCAGCACCCTCGGGGAAAACATCGCTGACAACGGAGGGGTGCGCCAGGCATTCAAGGCCTACCTAAAGTGGATGGCGGAAGGTGGCAAGGACCAGCTGCTGCCAGGGCTGGAGCTCACCTACAAACAGCTTTTCTTTGTCAACTATGCCCAGGTGTGGTGCGGGTCCTACCGGCCAGAGTTCGCCATCCAGTCCATCAAGACTGACGTCCACAGCCCCCTGAAGTACAGGGTGCTAGGCTCCCTGCAGAACCTGCCTGCCTTCGCTGATGCGTTCCACTGCCCCCGGGGCACCCCCATGCACCCCAAGGAGCGATGCCGCATCTGGTAG

XM_004863781.1 Coding sequence

Actrt2 actin-related protein T2

High confidence: 4 potential gene matches
Length: 1131 bp    Location: 7289458..7288221   Strand: -
>XM_004863781.1
ATGTCGAGCCTGCATGCCTTGAACTCCCCAGCTGTAATCTTTGACAATGGCTCTGGGCTCTGCAAAGCTGGGCTGTCGGGGGAGATCGGGCCGCGCCACGTCCTCAGGTCTGTCGTGGGGCACCCGAAGGTCAAGCCGTCACCGGAGGAGTCCCACCAGGAGTACGTTGTGGGGGCCGAGGCCCTGCTCAAGCAGGAGGCGCTGCACCTGCATGTGCCCATCGAGCGGGGCCTGATCGTGGGCTGGGATGACGCGGAGAGGCTGTGGCAACACCTGTTCGAGTGGGAGCTGGGCGTGAAGCCTAGCGAGCAGCCAGTGCTGGTGACCGAGCCCTCGCTGAACCCCAGGGAAAACCGGGAGAAGACAGCTCAGGTGATGTTCGAGAGCTTCGGCGTGCCTGCCTTCTACCTGTCGGACCAGGCGGTGCTGGCGCTGTATGCCTCAGCCTGCATCACGGGCCTGGTGGTGGACAGCGGGGAGGGCGTCACCTGCACCGTCCCCATCTTTGAAGGTTACTCCCTACCGCACGCCGTGGCCAAGCTGAATGTGGCGGGCAGGGACATCATGGAGCAGCTCACCCGGCTCCTCCGGGCGAGAGGGCGGACCTTCCCCTGCCTGCTGGACAAGGCCCTGGTGGAGGACATCAAAGAGAAGTTGTGCTATGTGGCCTTGGAGCCCGGCAAGGAGCTGAGCCGGTGGCCGGCAGGCATCCTGCAGGAGTACAGACTGCCGGATGGCAATGTCATCTACCTCGGCGAGCAGCTGTTCCAGGCCCCTGAGGCCCTGTTCTCGCCCGAGCAGGTGGGCACCCAGAGCCCGGGGCTGGCCGAGATGGTGTCAGGCAGCATCGCCAAGTGCGATGCCGACATCCAGAAGATGCTTTTTGGGGAGATAGTGCTGTCAGGGGGCAGCACACTGTTCCAGGGGCTGGACAACCGGCTGCTGAGGGAGCTGGAACCGCTGGCCCCCACAGGGATCCCCATCAAGATCACCGCGCCCCCCGACCGCTGGTTCTCCACGTGGATTGGGGCTTCCATTGTGACCTCTCTGAGCAGCTTCAAGCAGATGTGGGTCACTGATGCTGATTTCAAGGAGTTCGGGACATCTGTGGTCCAGAGGAGGTGCTTCTGA

XM_004863771.1 Coding sequence

Arhgef16 Rho guanine nucleotide exchange factor (GEF) 16, transcript variant X1

Length: 2712 bp    Location: 6959242..6949484   Strand: -
>XM_004863771.1
ATGAGCCACGAGCAGGTGCCGGGCCGTCCCTGGGCGACTCTTGGTGACCAGGGCTGTGTGCACCACACCCTAGGACCTGTCCCGGGCCCATCTGCCCCTTGGGAGATGCTCAGGCGCAGGAGGGTGTGGGCCTGGAGGCCCCGGGAGGCGCCCCTGCTGCGCCTTCCTCACCTCTGTCCATCCTTCACCCCAGGCACCTCGGCGCCCAGCATGTCCCAGCGGCCCTCAGACAGCTCCTTGGAGGAGAGGCTGCTGGAAAACCGCTTCCACTCGGAGCTGCAGCTGGATGCCAACGGCAGTCCCTCGTCCAAGCTCCCCATCGTCCGGGGCTCCCTGCGCTCCAGGAGCCATGCCGCCTTCGAGCCGGAGGCCCTGGCGCCCCCACCGTCACCCGCAGAGGACAGGGAGCCACGGGGCATCATCCTGAGCACACAGAGCCCTGCAGCCCTCAAGATGGGCGCTCAGCAGCTCATCCCCCGGAGCCTGGCTGTGGCCAGCAAGGCCAAGACCCCCACCCGCCACCAGAGCTTCGGGGCAGCCGTGCTCAGCAGGGAGGCTGCGCGGCGGGAGCCCCAGCTCCTCTCGGCCCCCAGCTTCTCCTTGGACGACCTGGGCGTGAACGTGAGCCCTGAGGGGACCCTGAAGCGAAACCTGCGGACCCAGTCTTACCGCGCGGCCATGAAGGCGCTGGGGTCCCCGTGCAGCAAGGGGGACTCCAGCCAGCTCAGCCCCAAACTCCAGGCTCTGGCTGAGGAGCCCAGCCAGCCCCCCACCCAGTGCCCAGCCAAAAGCAAGAGGACACTGGGCCGGAAGCGTGCACACAAGGGCTCCTTCAAGGACGACCCCGGATTCTACCAGGAGATCCGGGAGCGGGGCCTGAACACCAGCCACGAGTCTGATGATGACATGCTCGACGAAGCCCCTGGCCCCGATGGGACCCAGAGGGTGGACACCTCCATCGTGGTCAAGAGCTACCGGCCCGCCCAGGTCACCTGGAGCCAGCTCCCTGAGGTGGTGGAGTCGGGCATCTTGGGGAAGCTATGCACCGAGGAACGCAAGCGGCAGGAGGCCATCTTCGAGATCCTCACGTCCGAGTTCTCCTACCTGCACAGCCTGGGCATCCTGGTGGCTGAGTTCCTGCAGTCCCCAGAGCTGCGGGCCACCATGACGCAGATGGAGCACCACCACCTCTTCTCCAACATCCAGGACGTCCTGGCTGCCAGTAAGAGGTTCTTCGAGGACCTGGAGCAGCGGCACCAGGCGCAGGTGTGCGTGGAGGACATCAGTGACATCCTGGAGGAGCACGCGGAGAGGCACTTCCACCCCTACGTGGCCTACTGCTCCAACGAGGTCTACCAGCAGCGCACACTGCAGAGGCTGACGAACAGCAATGCCGCCTTCCGCGAGGCCCTGCGGAACATCGAGAGGCGGCCGGCGTGCGGGGGGCTGCCCATGATCTCCTTCCTGATCCTGCCCATGCAGCGGGTGACCAGGCTGCCCCTCCTGACTGATACCCTCTGTCTCAAGTCCCAGGGCCACCCCGAAAGGTACAAGGCTGCCAGCCACGCCCTGAAGGCCATCAGCAAGCTGGTGAGGCAGTGTAACGAGGGGGCGCACACCATGGAGCGCACGGAGCAGATGTACATGCTGCAGACACAGCTGGACTTCAGCAAGGTCAAGTCCTTCCCGCTGATCTCCGCCTCCCGCTGGCTGCTGAAGCGTGGCGAGCTCTTCCTGGTGGAGGAAGCCGGGCTGTTTAGGAAAATTGCCAGCCGGCCCACCTGTTACCTGTTCCTGTTCAACGATGTCCTGATCATCACCAAGAAGAAGAGCGAGGACAGCTACGCGGTGCAGGACTATGGCCAGCTGGACCACGTCCAGGTCCGGAAGCTGGAGCCCTCGGAGCCGTATCTGCCAGGGGGTGGCAACCGCAGCTCCTCCGTGCCCCACCCCTTCCGGGTGACCCTGCTGCGGAACAGCGAGGGCCGCCAGGAGCAGGTCCTGCTGTCCTCAGACTCTGCGAGCGACCGAGCACGGTGGATCACAGCGCTCACCTACCAGGAGAGCCAGTGGCAGGGCCCCACCGACAAAGGCGAGCTGCCCCAGGTGGAGGTCACCAAGGCCTACCTGGCCAAGCAGGCGGACGAGATCTCGCTGCAGCAGGCTGACGTGGTGCTGGTCATGGAGGAGGAGGACGGTGAGCGCGAGGCGGGGTCGGCCCTGAGGGCCTGGGCGCTGGTGTCCCCAGGAGCAGCCCCCGGGAGCTGGGGTGCAGCCCACCTCACGGCCTGGGCCCCGCAGGGTGGCTGCACGGAGAGCGGCTCCGGGATGGCGAGGTGGGCTGGTTCCCCGAGGACGTGGCCCGCCGCATCACCAGCCCCGTGGCCGTGGAGGACAACGTGCGCCGCATGGAGCGGCTGCGGGTGGAGACCAACGTGTAGCACACGGCTGGAGAGCCAGCTGCGGGGCACAGCCTTGCGGGTCCGGAGCACGCAGTGGGGAGGAGGCGCTGCCCTCCGGGCGAGTCCTGGGCTCTGCGGTCTACAGTCTCCCCAGGCCACATCCCAGCAGGAGCCCGGCCCCGCCCAGGGGCGCCCATGGCAGCGGCTCGAGGCTGACGGGGACGAAGGACCGAGGCGGCCCTCTCCCCATAAACTTCCTGCCCCAAGGGACGAGAAGGCCCTCAAGTACCCAGTGGTGCCCACATTCTGA

XM_004863775.1 Coding sequence

Arhgef16 Rho guanine nucleotide exchange factor (GEF) 16, transcript variant X5

Length: 2502 bp    Location: 6962484..6949484   Strand: -
>XM_004863775.1
ATGTCCCAGCGGCCCTCAGACAGCTCCTTGGAGGAGAGGCTGCTGGAAAACCGCTTCCACTCGGAGCTGCAGCTGGATGCCAACGGCAGTCCCTCGTCCAAGCTCCCCATCGTCCGGGGCTCCCTGCGCTCCAGGAGCCATGCCGCCTTCGAGCCGGAGGCCCTGGCGCCCCCACCGTCACCCGCAGAGGACAGGGAGCCACGGGGCATCATCCTGAGCACACAGAGCCCTGCAGCCCTCAAGATGGGCGCTCAGCAGCTCATCCCCCGGAGCCTGGCTGTGGCCAGCAAGGCCAAGACCCCCACCCGCCACCAGAGCTTCGGGGCAGCCGTGCTCAGCAGGGAGGCTGCGCGGCGGGAGCCCCAGCTCCTCTCGGCCCCCAGCTTCTCCTTGGACGACCTGGGCGTGAACGTGAGCCCTGAGGGGACCCTGAAGCGAAACCTGCGGACCCAGTCTTACCGCGCGGCCATGAAGGCGCTGGGGTCCCCGTGCAGCAAGGGGGACTCCAGCCAGCTCAGCCCCAAACTCCAGGCTCTGGCTGAGGAGCCCAGCCAGCCCCCCACCCAGTGCCCAGCCAAAAGCAAGAGGACACTGGGCCGGAAGCGTGCACACAAGGGCTCCTTCAAGGACGACCCCGGATTCTACCAGGAGATCCGGGAGCGGGGCCTGAACACCAGCCACGAGTCTGATGATGACATGCTCGACGAAGCCCCTGGCCCCGATGGGACCCAGAGGGTGGACACCTCCATCGTGGTCAAGAGCTACCGGCCCGCCCAGGTCACCTGGAGCCAGCTCCCTGAGGTGGTGGAGTCGGGCATCTTGGGGAAGCTATGCACCGAGGAACGCAAGCGGCAGGAGGCCATCTTCGAGATCCTCACGTCCGAGTTCTCCTACCTGCACAGCCTGGGCATCCTGGTGGCTGAGTTCCTGCAGTCCCCAGAGCTGCGGGCCACCATGACGCAGATGGAGCACCACCACCTCTTCTCCAACATCCAGGACGTCCTGGCTGCCAGTAAGAGGTTCTTCGAGGACCTGGAGCAGCGGCACCAGGCGCAGGTGTGCGTGGAGGACATCAGTGACATCCTGGAGGAGCACGCGGAGAGGCACTTCCACCCCTACGTGGCCTACTGCTCCAACGAGGTCTACCAGCAGCGCACACTGCAGAGGCTGACGAACAGCAATGCCGCCTTCCGCGAGGCCCTGCGGAACATCGAGAGGCGGCCGGCGTGCGGGGGGCTGCCCATGATCTCCTTCCTGATCCTGCCCATGCAGCGGGTGACCAGGCTGCCCCTCCTGACTGATACCCTCTGTCTCAAGTCCCAGGGCCACCCCGAAAGGTACAAGGCTGCCAGCCACGCCCTGAAGGCCATCAGCAAGCTGGTGAGGCAGTGTAACGAGGGGGCGCACACCATGGAGCGCACGGAGCAGATGTACATGCTGCAGACACAGCTGGACTTCAGCAAGGTCAAGTCCTTCCCGCTGATCTCCGCCTCCCGCTGGCTGCTGAAGCGTGGCGAGCTCTTCCTGGTGGAGGAAGCCGGGCTGTTTAGGAAAATTGCCAGCCGGCCCACCTGTTACCTGTTCCTGTTCAACGATGTCCTGATCATCACCAAGAAGAAGAGCGAGGACAGCTACGCGGTGCAGGACTATGGCCAGCTGGACCACGTCCAGGTCCGGAAGCTGGAGCCCTCGGAGCCGTATCTGCCAGGGGGTGGCAACCGCAGCTCCTCCGTGCCCCACCCCTTCCGGGTGACCCTGCTGCGGAACAGCGAGGGCCGCCAGGAGCAGGTCCTGCTGTCCTCAGACTCTGCGAGCGACCGAGCACGGTGGATCACAGCGCTCACCTACCAGGAGAGCCAGTGGCAGGGCCCCACCGACAAAGGCGAGCTGCCCCAGGTGGAGGTCACCAAGGCCTACCTGGCCAAGCAGGCGGACGAGATCTCGCTGCAGCAGGCTGACGTGGTGCTGGTCATGGAGGAGGAGGACGGTGAGCGCGAGGCGGGGTCGGCCCTGAGGGCCTGGGCGCTGGTGTCCCCAGGAGCAGCCCCCGGGAGCTGGGGTGCAGCCCACCTCACGGCCTGGGCCCCGCAGGGTGGCTGCACGGAGAGCGGCTCCGGGATGGCGAGGTGGGCTGGTTCCCCGAGGACGTGGCCCGCCGCATCACCAGCCCCGTGGCCGTGGAGGACAACGTGCGCCGCATGGAGCGGCTGCGGGTGGAGACCAACGTGTAGCACACGGCTGGAGAGCCAGCTGCGGGGCACAGCCTTGCGGGTCCGGAGCACGCAGTGGGGAGGAGGCGCTGCCCTCCGGGCGAGTCCTGGGCTCTGCGGTCTACAGTCTCCCCAGGCCACATCCCAGCAGGAGCCCGGCCCCGCCCAGGGGCGCCCATGGCAGCGGCTCGAGGCTGACGGGGACGAAGGACCGAGGCGGCCCTCTCCCCATAAACTTCCTGCCCCAAGGGACGAGAAGGCCCTCAAGTACCCAGTGGTGCCCACATTCTGA

XM_004863762.1 Coding sequence

Tprg1l tumor protein p63 regulated 1-like

Length: 816 bp    Location: 6857935..6850486   Strand: -
>XM_004863762.1
ATGCTGCAGCTGCGGGACTCGGTGGACTCGGCGGGCTCGAGCCCCACGGCGCTGCTGGCGGCCGGCGAGGCGGTGACGGTGTGCGGCGCGACCGTCGGCCGGGCGGGGGCGGGTACGCCGCTACGCCAGACTCTGTGGCCGCTCAGCGTCCACGACCCCACGCGCCGCGCCCGCGTCAAGGAGTACTTCGTGTTCCGGCCCGGCACCATCGAACAGGCGGTGGAGGAGATCCGCGCCGTGGTGCGGCCCGTGGAGGACGGCGAGATCCAGGGGGTGTGGCTGCTGACCGAGGTGGACCACTGGAACAACGAGAAGGAGCGGCTGGTACTGGTGACCGACCAGTCGCTGCTTGTCTGTAAATACGACTTCATCAGCCTCCAGTGCCAGCAAGTGGTCAGGGTGGCGCTCAGCGCTGTGGACACGATCTCCTACGGAGAGTTCCAGTTTCCCCCGAAGTCCCTCAACAAGCGAGAAGGCTGTGGGATCCGTATTCAGTGGGACAAGCAGAGTCGTCCTTCCTTCGTAAACAGGTGGAATCCCTGGTCCACAAACCTGCCCTATGCCACTTTCATCGAGCACCCAATGGCCGGTGTGGACGAGAAGACAGCAACCCTGTGCCACTTAGAAAGCTTCAAGGCTCTGTTGATCCAAGCTGTCAAAAAAGCACAGAAGGAAAGCCCTGTGCCAGGGCAGGTGAACGGCGTGCTGGTCTTGGAGCGGCCCCTCCTCATCGAGACCTACGTGGGACTGATGTCCTTCATCAACAACGAGGCCAAGCTGGGCTACTCCATGACCCGGGGCAAAATAGGTTTCTAG

XM_004863748.1 Coding sequence

LOC101713067 chromosome unknown open reading frame, human C1orf174, transcript variant X2

Length: 651 bp    Location: 6691439..6697626   Strand: +
>XM_004863748.1
ATGGGTGGCAGAACAGCAGGTGACGGTGTTAGAGTTGTGGTTTCAGCATTCACATTGCCTCAGACTTCGTCACACAAGGCCCCAGACAGGCGAACCTCAAAGAAGTTCAAGTCTGACAAAGGTCACCTTGTGAAGGCAGAATTACAGAAACTAGTCTCCAAAGGCAACAGTGCTGCTTTGCCAGAAGTGGTGCCCAGGGCCCCGTGTAAAGACAGCTCTGCAGAAGGCAGCGCGTTGCTCCCGGGCAGTGACTCCACTGCCCCTGCACGCCAGGAGGCTGCAGCTCTTCCCCACAGTGGCTGCCGATGTGCGAACGATACTGTCCCTGCTAAGACTGAAGACAGCCAGTCCCCGCCAGAGCCCTGCACCAGTGCAGCGGCAGAGGAGGCAGACAGGAGCCCCAGGGGGCTACACGAAGCAGCATTAGCCACAGGGGAGATGCAGATGCCCCTGCCTCAGATGGACAACAGCGTCTTTCTGGACGATGACAGCAATCAGCCCCTGCCGGTGAGCCGGTTCTTCGGGAACGTGGAGCTCATGCAGGACCTGCCACCGGCCTCTTCATCATGTCCTTCAATGAACAGACGGGAATTCAGGAAGATGCATTTCAGAGCCAAAGACGATGAGGACGACGAAGATGCAGAAATGTAG

XM_004863734.1 Coding sequence

Chd5 chromodomain helicase DNA binding protein 5, transcript variant X3

Length: 5961 bp    Location: 5203254..5251054   Strand: +
>XM_004863734.1
ATGCGGGGCCCGCTGGGCACCGAGGAGGCGCTGCCGCGGCTGTTCGCCGAGGAGATGGAGAACGAGGACGAGATGTCAGAGGAAGAAGATGGGGGCCTGGAAGGCTTCGATGACTTTTTCCCTACGGAGCCCATGAGCCTCCCCAAGAAGAAGAAAGCTAAGAAGCTGAAGGACAGCAAGTCCAAGGGGAAGCGGAAGAAGAAAGAGGGGAGCAATGACGAGCTGTCGGCCAATGACGAGGATCTGGAGGAGAGGTCGGAGAGTGAGGGGAGCGACTACTCCCCCAACAAGAAGAAGAAGAAGAAGCTCAAGGACAAGAAGGAGAAAAAAGCCAAGCGGAGAAAGAAGGACGAAGATGAGGAGGACAATGAAGACGGGTGCTTAAAGGAGCCCAAGTCCTCGGGGCAGCTCATGGCTGAGTGGGGCCTGGACGACGTGGACTACCTGTTCTCAGAGGAGGACTACCACACACTGACCAACTACAAGGCCTTCAGCCAGTTCCTCCGGCCGCTCATTGCCAAGAAGAACCCGAAGATCCCCATGTCCAAAATGATGACCGTGCTGGGGGCCAAGTGGCGGGAGTTCAGCGCCAACAACCCCTTGAAGGGCAGCTCCGCGGTGGCGGCAGCAGCGGCCGTGGCTGCAGCTGTGGAGACGGTCATCATCGCGCCTCCGCTGGCCGTCAGCCCCCAGCCGGTGCCCCAGCCTGTGCCCCTCCGCAAGGCCAAGACCAAAGAGGGCAAGGGGCCCGGAGTGAGGAAGAAGATGAAAGGCCCCAAAGACGGGAAGAAGAAGGGGAAGGGCAAGAAGGTGGCCGGGCTCAAGTTCCGCTTCGGGGGCATCAGCAACAAGAGGAAGAAAGGCTCCTCGAGTGAGGAGGACGAGCGGGAGGAGTCGGACTTGGACAGCGCCAGCATCCACAGCTCCTCAGTGCGCTCCGAGTGCTCTGCAGCCTTGGGCAAAAAGAGCAAGAGGAGGCGCAAGAAGAAGAGAATTGATGATGGTGACGGCTACGAGACTGACCACCAGGATTACTGCGAGGTGTGCCAGCAGGGCGGGGAGATCATCCTGTGTGACACCTGCCCGCGGGCCTACCACCTGGTGTGCCTGGACCCTGAGCTGGAGAAGGCTCCTGAGGGCAAGTGGAGCTGCCCGCACTGTGAGAAGGAAGGCATCCAGTGGGAGCCGAAGGATGACGACGACGAGGAGGAGGAGCCCGGCTGTGAGGAGGAGGAGGACGACCACATGGAGTTCTGCCGCGTGTGCAAGGATGGCGGCGAGCTGCTCTGCTGCGACGCCTGCCCGTCCTCCTACCACCTGCACTGCCTCAACCCGCCGCTGCCTGAGATTCCAAATGGTGAATGGCTCTGCCCGCGCTGTACTTGTCCCCCACTGAAGGGCAAAGTCCAGCGGATTCTACACTGGAGGTGGACCGAGCCCCCGGCACCCTTCATGGTTGGGCTGCCGGGACCGGACGTGGAGCCAGGTGTGCCTCCGCCCAAGCCACTGGAGGGCATCCCGGAGAGGGAGTTCTTTGTCAAGTGGGCTGGGCTGTCCTACTGGCACTGCTCCTGGGTGAAGGAGCTGCAGCTGGAGCTGTACCACACCGTGATGTACCGCAACTACCAAAGAAAGAACGACATGGACGAGCCGCCACCCTTCGACTACGGCTCTGGCGACGAGGATGGCAAGAGTGAGAAGAGGAAGAACAAGGACCCCCTCTATGCCAAGATGGAGGAGCGCTTCTACCGCTACGGCATCAAGCCCGAGTGGATGATGGTCCACCGCATCCTGAACCACAGTTTTTTGTGTCCCAGCTTCGACAAGAAGGGGGACGTGCACTACCTGATCAAATGGAAAGACCTGCCCTACGACCAGTGCACCTGGGAGATCGACGACATCGACATTCCCTACTATGACAACCTGAAGCAGGCCTACTGGGGCCACAGGGAGCTGATGCTGGGGGAGGACACCCGGCTGCCCAAGCGGCTCATCAAGAAGGGCAAGAAGCTGAAGGACGACAAACAAGAGAAGCCGCCGGACACTCCCATCGTGGACCCCACCGTCAAGTTCGACAAGCAGCCCTGGTACATCGACGCCACGGGCGGCACACTGCACCCGTACCAGCTGGAGGGCCTCAACTGGCTGCGCTTCTCCTGGGCGCAGGGCACCGACACCATCCTGGCCGATGAGATGGGCCTGGGCAAGACAGTGCAGACCATCGTGTTCCTCTACTCCCTGTACAAGGAGGGCCACTCCAAGGGGCCCTACCTGGTCAGCGCGCCCCTGTCCACCATCATCAACTGGGAGCGCGAGTTTGAGATGTGGGCGCCCGACTTCTACGTGGTCACCTACACGGGGGACAAGGAGAGCCGCTCCGTGATCCGTGAGAACGAGTTCTCCTTCGAGGACAACGCCATTCGGAGTGGGAAGAAGGTGTTCCGCATGAAGAAAGAAGTGCAGATCAAGTTCCACGTCCTGCTCACCTCGTACGAGCTCATCACCATCGACCAGGCCATCCTGGGCTCCATCGAGTGGGCCTGCCTCGTGGTGGACGAGGCCCACCGGCTTAAGAACAACCAGTCCAAGTTCTTCAGGGTCCTGAACAGCTACAAGATCGACTACAAGCTGCTGCTGACGGGGACCCCCCTTCAGAACAACCTGGAGGAGCTCTTCCACCTACTCAACTTCCTGACACCGGAGCGGTTCAACAACCTGGAGGGCTTCCTGGAGGAGTTTGCGGACATCTCCAAGGAGGACCAGATCAAGAAGCTGCACGACCTGCTGGGGCCACACATGCTGCGGCGGCTCAAGGCGGACGTGTTCAAGAACATGCCGGCCAAGACTGAGCTCATTGTGCGTGTGGAGCTGAGCCAGATGCAGAAGAAGTACTACAAGTTTATCCTCACTCGCAACTTCGAGGCGCTGAACTCCAAGGGGGGTGGGAACCAGGTGTCGCTGCTGAACATCATGATGGACCTGAAGAAGTGCTGCAACCACCCCTACCTCTTCCCCGTGGCCGCTGTGGAGGCCCCTGTCCTGCCCAACGGCTCCTACGATGGCAGCTCCCTGGTCAAGTCCTCAGGGAAACTCATGTTGCTGCAGAAGATGCTGAAGAAACTGCGGGATGAGGGGCACCGCGTGCTCATCTTCTCCCAGATGACCAAGATGCTGGACCTTCTGGAGGACTTCCTGGAGTATGAGGGTTATAAGTATGAGCGGATTGACGGTGGCATCACTGGGGGTCTCCGGCAGGAGGCGATCGACAGATTCAACGCCCCTGGGGCCCAGCAGTTCTGCTTCCTCCTCTCCACCCGTGCGGGTGGCCTGGGCATCAACCTGGCCACAGCAGACACAGTCATCATCTACGACTCGGACTGGAACCCGCACAATGATATCCAGGCCTTCAGCCGTGCCCACCGCATCGGGCAGAACAAGAAGGTGATGATCTACCGCTTCGTGACACGGGCCTCGGTGGAGGAGCGCATCACGCAGGTGGCCAAGCGCAAGATGATGCTGACCCACCTGGTGGTGCGGCCCGGCCTCGGCTCCAAGTCGGGCTCCATGACCAAACAGGAGCTGGACGACATCCTCAAGTTCGGCACCGAGGAGCTGTTCAAGGACGACGTGGAGGGCATGATGTCCCAGGGCCAGAGGCCGGCCACGCCCATCCCCGATGTGCAGTCCTCCAAGGGTGGCACCCTGGCGGCCGGCCTGAAGAAGAAGCACGGTAGCACGCCTCCAGGCGACAACAAGGACGTGGAGGACAGCAGCGTGATCCACTATGATGATGCAGCCATCTCTAAGCTGCTGGACCGGAACCAGGACGCTACGGACGACACGGAGCTACAGAACATGAACGAGTACCTGAGCTCCTTCAAGGTGGCGCAGTACGTGGTTCGCGAGGAGGACGGCGTGGAGGAGGTGGAGCGGGAGGTGATCAAGCAGGAGGAGAACGTGGACCCTGACTACTGGGAGAAGCTGCTGCGCCACCACTACGAGCAGCAGCAGGAGGACCTGGCCCGGAACCTGGGCAAGGGCAAGCGCATCCGGAAGCAGGTCAACTACAACGACGCCTCCCAGGAGGACCAAGAGTGGCAGGATGAGCTCTCGGACAACCAGTCTGAGTATTCCATTGGCTCTGAGGACGAGGACGAGGACTTCGAGGAGCGGCCAGAGGGCCAGAGTGGACGGCGACAGTCCAGGAGGCAGCTCAAGAGTGACAGGGACAAGCCCCTGCCACCTCTCCTTGCTCGAGTCGGTGGCAACATCGAGGTGCTGGGCTTCAATGCGCGGCAGCGGAAGGCCTTCCTGAACGCCATCATGCGCTGGGGCATGCCGCCCCAGGATGCCTTCAACTCCCACTGGCTTGTGCGGGACCTGCGCGGGAAGAGTGAGAAGGAGTTCAGAGCCTATGTGTCCCTCTTCATGCGACACCTGTGCGAACCTGGGGCCGATGGCGCCGAGACCTTCGCGGACGGTGTGCCGAGGGAGGGGCTGTCTCGGCAGCACGTGCTCACGCGCATCGGGGTCATGTCGCTGGTTAGGAAGAAGGTTCAAGAGTTTGAACACGTCAATGGGAAGTACAGCACCCCGGACCTGGTCCCCGAGGGGCCCGAGGGCAAGAAGCCGGGCGAGGTCATCTCAGACCCCAACACACCTGTGCCTGCCAGCCCTGCCCACCTGCCACCTGCCCCACTGGGCCTGTCAGACAAAGTGGATGCCCCACTGGGCTACGGAGATGAGAAGGAGCCAGGGCTGCAGAAGCCAAAGAAACCCCTGGAAATCCAGGTCCTGCCAGCTGCCCTGGACAGAGTGGAGGGGGAGGACAAGCAGGAGAGCTTAGACAGCAAGGACAGAGCCCGAGACGAGCGGCCGGAGGAGATGGAGAAGGCACAGGCCTCCCCGGAGCAGCTACCCAAAGATGACACCAAGGCGGACGAGAAGGAGGCCATCGAGATGCAGCAGAATGGTGACAGAGAGGAAGACGAGGAGGGCAAGAAGGACGACAAGAATGGGAGATTCAAATTCATGTTCAACATTGCGGACGGTGGCTTCACAGAGCTGCACACGCTATGGCAGAACGAGGAGCGGGCTGCAGTGTCCTCGGGAAAAATCTATGACATCTGGCACCGGCGCCATGACTACTGGCTGCTGGCTGGCATCGTGACGCACGGCTATGCCCGCTGGCAGGACATCCAGAACGACCCCAGGTATCTGATCCTCAATGAGCCCTTCAAGTCTGAGATCCACAAGGGCAACTACCTGGAGATGAAGAACAAGTTCCTGGCCCGCAGGTTCAAGCTGCTGGAGCAGGCCCTGGTCATTGAGGAGCAGCTGCGGAGGGCCGCGTACCTCAACATGACCCAGGACCCCAACCACCCGGCCATGGCCCTCAATGCCCGCCTGGCTGAGGTGGAATGCCTGGCTGAGAGCCACCAGCACCTGTCCAAGGAGTCCCTGGCCGGGAACAAGCCGGCCAACGCCGTGCTGCACAAGGTACTGAACCAGCTGGAGGAGCTGCTGAGCGATATGAAGGCGGACGTGACGCGCTTGCCCTCCATGCTGTCCCGCATCCCCCCGGTGGCTGCCCGCCTGCAGATGTCAGAGCGCAGCATCCTGAGCCGCCTGACCAACCGTGCTGGGGACCCCACCATCCAGCAGACATCTAGCCGACCCCGCAGCGTCCCCCCGTTGCAGTGCTCCCTTCCAGCTGAGCGCGATGCCGGGCCACCTGCTCGACCCCCACGGGAGAGAAAAGCTACGGACTTGTACGAGCCAGTGCCCCCTCGGGACAAAAAGGGAAACCGAGTGATGCTATCACATGGAGGACGAGGCCCAGCCCGGCTGGGCCAGAGCCCGGAGGCACCATCTCGTCGTAATTCAAGTCTTCTTCCACGTGGCACTGCACCCACGGCCACGCGGATGTGCCCCTCCACCCCTCTCAGAGCGACTCCCTAG

XM_004863721.1 Coding sequence

Hes2 hairy and enhancer of split 2 (Drosophila)

High confidence: 4 potential gene matches
Length: 471 bp    Location: 5045858..5046750   Strand: +
>XM_004863721.1
ATGGGGCTCCCTCGCAGGGCGGGGGATGGCGCCGACCTGCGCAAGAGTCTGAAGCCGCTGCTGGAGAAGCGCCGGCGCGCGCGCATCAACCACAGCCTGAGCCAGCTCCAGGGGCTCATCCTGCCGCTGCTGGGCCGGGAGAACTCCCGCTACTCGAAGCTGGAAAAGGCAGACATTCTGGAAATGACCGTGCACTTCCTGCAGGAGCTGCCCTCGTCCCCCTGCCCCGAGGCTGCGCCTGCGCCCACAGACAGCTACCGCGAGGGCTACCGCGCCTGCCTGGCGCGCCTGGCTTGCGTGCTGCCGGCCTGCGGCGTCCTGGAGCCCGCGGTGAGCGCCGGCCTGCTGGGACACCTGCGGCGGAGATCCGCCTGCGCCAGCCCAGACGCCAGGCCGCTCTCCCCTCCGCCACCCGCGCCCTCGCCGTCCCCGCCAGCACCGCCCACCCCTGGCTTCTGGCGGCCCTGGTAG

XM_004863715.1 Coding sequence

Tnfrsf25 tumor necrosis factor receptor superfamily, member 25

Length: 552 bp    Location: 5010974..5013119   Strand: +
>XM_004863715.1
ATGGAGCCGCGGCCGAGGGGCTGCGCGGCGGCTGGGGCTGCGGGGCTCCTGCTCCTGCTGCTGCTGGGTGTCGGGGGTCAGGGCAGCACTCCTGGCTCCAGGTGTGACTGTGGCGGTGACATCCAGAAGAGGTATGGCCCGTTTTGTTGCAGGGGCTGTCCAATGGGGTACTACCTGAAGGCCCGCTGCACGGAGCACTGTGGTGACGCCACCTGCCTTCCGTGTCCCCAGGGCACCTTCTTGGCCAGGGAGAACCATTATAATGTCCACTGCACCCGCTGCCAGGCCTGTGACGAGGAGGCCTCCCAGGTGGTCTTGAAGAACTGCTCTGCAGTGGCAGACACCCGCTGTGGCTGTGCCCCAGGCCAGCTTGTCGACTGCTCAGTCAAGCCATGCGTGGCAAGTTCGCCCTTCCGATGCCTCCCGTGCCTAGACTGCAAGCCCCCTGAGAACCACACACCTACACCCTGTTTCGGCAGAGACAGCAGCTGTGGGCCCTGCCTGCCTGGCTTCTATGAACACAGCAGTGGCTGCGCGTCCTGCCCCACGTAA

XM_004863708.1 Coding sequence

LOC101701597 taste receptor type 1 member 1-like, transcript variant X1

Length: 2526 bp    Location: 4959503..4951359   Strand: -
>XM_004863708.1
ATGTTGCTCTGGGTGACTCACCTGGTCCGTCTGCAGCTGGCCCTGACCTGCTGCTGGGCTCTCGACTGCCATGAAATGGCCTCTTCACCCGACTTCACTCTCCCGGGGGACTACCTCCTGTCAGGCCTGTTCCCCCTGCACAGCGACTGTCTGCAGGTGCGGCACAGCCCCCAGGTGACCCTCTGTGACAGGGCTAACAGCTTCAATGGCCACGGCTACCACCTCTTCCAGGCCATGCGGCTCAGCGTGGAGCAGATAAACAACTCCACGGCCCTGCTGCCCAACGTCACCCTGGGGTACGAGCTCCAGGACGTGTGCTCCGAGTCGGCCACTGTGTATGCAGTGCTGCACGCGCTGTCCCGGCAGGGCACGTACCACGTGGAGATGCAGGGAGACCTGTACCAATACTCTCCCCGGGCGATGGCTGTCATCGGGCCTGACACCACCAACAATGCGGGCACTGCCGCCGCCCTGCTGAGTCCCTTCCTAGTGCCCCTGATCAGCTACGAGGCCAGCAGCATGGTGCTCAGCGCAAAGCAGCTGTACCCCTCTTTCCTGCGGACCATCCCCAGTGACAGGTACCAGGTGGAGACCATAGTGCTGCTGCTGCAGACATTTGGGTGGATCTGGATTTCCCTGGTTGGCAGCTCCGGTGACTATGGGGAGCTGGGGGTGGAGGCACTGGAGGACCTGGCCACACAGCAGGGCATCTGCATCGCCTACAAGGGGATTGTGCATTCTTCTGCCCGGGTGGGCGACCAGGAGATGCAGGGCATGATGCGTGGCCTGGTCCAGGCCAGGACCACTGTGGTGGTGGTCTTTTCTAGCCGGCAGCTGGCCAAAGTATTCTTTGGCTCTGTGATACTGGCCAACCTGACAGGGAAGGTGTGGATCGCCTCCGAAGACTGGGCCATCTCCACACACATCAGCAGAATGTCTGGAATCCAGGGCATCGGGATGGTGCTGGGGGTGGCGATCCAGCAGAGACTTGTCCCTGGCCTAGAGGAGTTTGAAGAGGCCTACGCCCGGGCAAACAAGGGAGCCCCCAGGCCTTGCTCCAGGGGCTCCTGGTGCAGCACCAATCAGCTCTGCAGAGAGTGCCAGGCCTTCACAGCATACACGATGCCCATGCTTGGAGCCTTCTCAATGAGTTCTGCCTACAATGTGTACCAGGCGGTGTATGCTGTGGCCCATGGCCTTCATCAGCTCCTGGGCTGTGTCTCTGGCTCCTGTTCCAAGGGCCAAGTCTACCCCTGGCAGCTTCTGGAGCAGATCTACAAGGTGAATTTCCTTCTACATGAGGACACTGTGGCGTTTGATAAGAATGGGGACCCCCTCGGTAGCTATGACATCATTGCCTGGGACTGGAGCGGGCCCATGTGGACCTTCAGGGTTGTTGGCTCCTCCACGTGGCCCCCTGTTCAGCTGGACATAAACAAGACCAATATTCGGTGGCCTGGAAAGGACAACCAGGTGCCCACGTCTGTGTGTACCAGAGACTGTGCGGAAGGGCACCATCGCGTGGTTGTGGGTTTCTACCATTGCTGCTTCGAATGCGTTCCCTGCGAGGCTGGGACCTTCCTCAACAAGAGTGACCTCTACCGCTGCCAGCCTTGTGGGAGAGAAGAGTGGTCACCTGAGGCCAGCCACACCTGCTTCCCACGCACGGAGGTGGTTCTGACTTGGCGTTGGCCCATCTCTTGGGTACTGTTGGCAGCTAATACACTGTTGCTGCTGCTGCTGGTAGGCACTACCGGCCTGTTTGCCTGGCATCTAGACACCCCTGTGGTGAAGTCAGCTGGGGGGAGGCTGTGCTTCCTCATGCTGGGGTCCCTGGCAGGGGGCAGCTGCAGCCTCTATGGCTTCTTTGTGGAGCCCACACTGCCCATGTGCCTGCTGCGACAAGCCCTCTTTTCCCTTGGTTTCGCCATCTTCCTGTCCTGCCTGATGATTCGCTCCTTCCACCTGGTCATCATCTTCAAGTTTGCCACCAAGGTGCCCACGTCCTACCATGCCTGGGTCCGAAACCATGGACCTGGCCTGTTTGTGATGCTCAGCTCAATGGCCCAGGTGCTCATCTGTCTAACCTGGCTTGTGGTGTGGACCCCACTGCCCACCAGGGAATACCGGCGCTTCCCCCAGCTGGTGGTGCTGGAGTGTACAGAGGCTATCTCGCCCGGCTTTCTGTTGGCTTTCACCTACAATGGCCTCCTCTCAGTCAGCGCCTTTGCCTGCAGCTACCTGGGCAAGGACCTGCCAGAGAACTACAACGAGGCCAAATGTGTCACCTTCAGCCTGCTCCTCAACTTTGTATCCTGGATCACCTTCTTCACCATGGCCAGCGTCTACCAGGGCCCGTTACTGTCCGTGATCAATGTGCTGGCCGCGCTGACCAGCCTGAGCGGCGGCTTCAGCGGCTATTTCCTCCCAAAGTGCTATGTAATCCTCTGCCGCCCAGACCTCAACAACACGGAGCACTTCCAGGCTTCCATCCAAGACTACTCGAGGCGCTGCGGGTCCACCTGA

XM_004863704.1 Coding sequence

Phf13 PHD finger protein 13, transcript variant X2

Length: 906 bp    Location: 4920950..4913214   Strand: -
>XM_004863704.1
ATGGACTCCGACTCCTGCGCCGCCGCCTTCCATCCGGAGGAGTACTCCCCCAGCTACAAGAGGCGCAGGACCGTGGAGGACTTCAACAAGTTCTGCACTTTCGTCTTGGCTTATGCTGGCTACATCCCATACCCGAAGGAGGAGCTCCCTCTGAGGAGCAGCCCCAGCCCTGCCAACAGCACCGCGGGCACTATTGATAGTGACGGCTGGGATGCAGGTTTCACCGACATCGCGTCCTCCGTGCCCCTGCCAGTGTCCGACCGCTGCTTTAGCCATCTGCAGCCCACCCTCCTGCAGCGGGCAAAGCCCAGCAACTTCCTGCTAGACAGAAAGAAGACAGATAAACTGAAGAAGAAGAAGAAGAGGAAGCGAAGGGACAGCGATGTCCCGGTGAAGGAGGCCTACCGAGGGGGCGTGCTGAAGCTGGAGGCTGCAGACCCATACTCTGAGACCCCCGAGAGCCCCGCCCTGCAGGGTCTGCCCCAAGCCCCCAGCGAGCCCTGCTCAGGCTGGGACTCCGACACTCCCTCGAGTGGCTCTTGTGCCACCACTGTGTCACCCGATCAGGTCAAAGAAATAAAACCTGAAGGCAAACGGACTATTGTCCGGCAGGGGAAGCAGGTGGTGTTCCGGGACGAGGACAGCACTGGCAACGATGAGGACATTATGGTGGACTCAGATGACGATTCCTGGGACCTAGTCACCTGCTTCTGCATGAAGCCATTTGCGGGCCGTCCCATGATAGAGTGTAACGAGTGCCACACCTGGATTCACCTGTCCTGTGCGAAGATCCGGAAGTCCAACGTTCCGGAAGTGTTCGTCTGCCAAAAGTGCCGGGACTCCAAGTTTGACATCCGCCGTTCCAACCGCTCCCGAATGGGCTCCCGCAAGCTGTTTCTGGACTGA

XM_004863682.1 Coding sequence

Park7 parkinson protein 7, transcript variant X3

Length: 714 bp    Location: 3911242..3903102   Strand: -
>XM_004863682.1
ATGGCTTCGAAGAGAGCCCTGGTCATCCTGGCCAAAGGCGCGGAGGAGATGGAGACGGTCATCCCCGTGGATGTCATGAGGCGCGCCGGGATTAGGGTCACCGTTGCAGGTCTGGCTGGGAACGACCCGGTACAGTGTAGCCGTGACGTGGTCATTTGTCCTGACACAAGTCTGGAAGAGGCAAAAAAGCAGTCCCCGGCCGTGAGGGAGATCCTGAAGGAGCAGGAGAGCCGGAAGGGCCTCATCGCAGCCATCTGTGCAGGTAAAGCGGTGCACCTGTGCACTGCCCTCCCGGGAGCTCCTCCCCAGAAGGCCCGGGGCACCTGCGGGGTTACTCGGGCGCCGTGCAGTCGTGTTGTCTCAGCAGCCAGTCCTGCTGCTCTGCTGTCTGCCTCTCTGTGCCCTTTGCATACTGTGAAGCCACTGTTATGCGCGTCTGACCCCGGAGGCCCTCGGAATTCAGTAAACAGCCTGTTCCAGCAGACCTCACTGCCAGGAAGCGCGTCTGCCAGCATAGCAGTCAGCAAGAACCCGGCAGACGTAAACATGACCTCCTGCCCTGTGCTTGCCCTGCAGACTCAGAGCCAGGCCCTTCTGCCTGCCTCCCTCTTCTCAGTGCTGAGACCCTGGCCGTCATGTAGTGTAAGGTCTTCGGGCTTCACAGATGTCCCTGTGTCTGAGCTTAGTCACACTCTGTTTTCTGGTACCATTTGA

XM_004863697.1 Coding sequence

Camta1 calmodulin binding transcription activator 1, transcript variant X10

Length: 405 bp    Location: 4798027..4118952   Strand: -
>XM_004863697.1
ATGTGGCGCGCGGAGGGGAAATGGCTGCCGAAAACAAGCCGGAAGAGCGTTTCCCAAAGTGTATTCTGCGGAACTAGCACCTACTGTGTTCTCAACACCGTGCCACCTATAGAAGATGATCATGGGAACAGCAATAGTAGTCATGTAAAAATCTTTTTACCGAAAAAGCTGCTTGAGTGTCTGCCGAAGTGTTCAAGTTTACCAAAAGAGAGGCACCGATGGAACACTAATGAGGAAATTGCAGCTTATTTAATAACATTTGAGAAACACGAAGAATGGCTAACCACATCCCCTAAGACAAGTGCTTGTACGGCTGCTATGTCCATTCCTCCATCATCCCCACCTTTCACCGGAGGTGCTACTGGCTCCTTCAGAACCCCGACATTGTCCTGGTGCACTACCTGA

XM_004863698.1 Coding sequence

Camta1 calmodulin binding transcription activator 1, transcript variant X11

Length: 243 bp    Location: 4798027..4723903   Strand: -
>XM_004863698.1
ATGTGGCGCGCGGAGGGGAAATGGCTGCCGAAAACAAGCCGGAAGAGCGTTTCCCAAAGTGTATTCTGCGGAACTAGCACCTACTGTGTTCTCAACACCGTGCCACCTATAGAAGATGATCATGGGAACAGCAATAGTAGTCATGTAAAAATCTTTTTACCGAAAAAGCTGCTTGAGTGTCTGCCGAAGTGTTCAAGTTTACCAAAAGAGAGGCACCGATGGAACACTAATGAGAGATCATGA

XM_004863685.1 Coding sequence

Park7 parkinson protein 7, transcript variant X6

High confidence: 3 potential gene matches
Length: 570 bp    Location: 3911409..3900918   Strand: -
>XM_004863685.1
ATGGCTTCGAAGAGAGCCCTGGTCATCCTGGCCAAAGGCGCGGAGGAGATGGAGACGGTCATCCCCGTGGATGTCATGAGGCGCGCCGGGATTAGGGTCACCGTTGCAGGTCTGGCTGGGAACGACCCGGTACAGTGTAGCCGTGACGTGGTCATTTGTCCTGACACAAGTCTGGAAGAGGCAAAAAAGCAGGGCCCCTACGACGTGGTGGTTCTCCCCGGAGGCAACCTGGGCGCGCAGAATTTATCTGAGTCCCCGGCCGTGAGGGAGATCCTGAAGGAGCAGGAGAGCCGGAAGGGCCTCATCGCAGCCATCTGTGCAGGTCCCACAGCACTGTTGGCTCACGAGATAGGCTTTGGAAGCAAAGTTACAACACACCCACTTGCTAAAGACAAAATGATGAATGGGAATCATTACAGCTACTCGGAGAGCCGTGTGGAGCGGGATGGCCAGGTGCTCACCAGCCGCGGCCCGGGCACCAGCTTCGAGTTCGCGCTGGCCATCGTGGAGGCGCTCAGCGGCCCAGAGGTGGTGCAGCAGGTGAGGGCACCGCTCGTGCTCCGAGACTAG

XM_004863692.1 Coding sequence

Camta1 calmodulin binding transcription activator 1, transcript variant X5

Length: 4977 bp    Location: 4798027..4022996   Strand: -
>XM_004863692.1
ATGTGGCGCGCGGAGGGGAAATGGCTGCCGAAAACAAGCCGGAAGAGCGTTTCCCAAAGTGTATTCTGCGGAACTAGCACCTACTGTGTTCTCAACACCGTGCCACCTATAGAAGATGATCATGGGAACAGCAATAGTAGTCATGTAAAAATCTTTTTACCGAAAAAGCTGCTTGAGTGTCTGCCGAAGTGTTCAAGTTTACCAAAAGAGAGGCACCGATGGAACACTAATGAGGAAATTGCAGCTTATTTAATAACATTTGAGAAACACGAAGAATGGCTAACCACATCCCCTAAGACAAGACCGCAGAATGGCTCAATGATACTCTACAACAGGAAGAAAGTGAAATACAGGAAAGATGGGTATTGCTGGAAAAAGAGGAAAGATGGGAAAACGACCAGAGAGGACCACATGAAACTCAAGGTCCAGGGAGTAGAGAACCCCGACATTGTCCTGGTGCACTACCTGAACGTGCCGGCCATTGAGGACTGCGGCAAGCCCTGCGGCCCCATCCTCTGCTCCATCAACACCGACAAGAAGGAGTGGGCGAAATGGACGAAGGAAGAGCTCATCGGGCAGCTGAAACCCATGTTCCACGGCATCAAGTGGACCTGCAGCAACGGCAACAGCAGCTCAGGCTTCTCCGTGGAGCAGCTGGTACAGCAGATCCTCGACAGCCACCAGACCAAGCCCCAGCCACGGACCCACAACTGCCTGTGCACCGGCAGCCTGGGAGCGGGCAGCAGCATGCACCACAAGTGTAACAGTGCCAAACACCGCATCATCTCGCCGAAGGTGGAGCCGCGGTCGGGGGGCTACGGGAGCCACTCGGAGGTGCAGCACAACGACGTGTCAGAGGGAAAGCACGAACCCAGCCACGGCAAGGGCGCCAGCCGCGAGAAGCGGAACGGCAAGGTGGCCAAGCCAGCCCTGCTGCACCAGAACAGCACCGAGGTGTCCTCCACCAACCAGGTGGAGGTGCCTGACACCACCCAGAGCTCCCCCGTGTCCATCAGCAGCGGGCTCAACAGCGACCCGGACATGGTGGACAGCCCCGTGGTCACAGGCGTGTCCAGCATGGCGGTGGCCTCCGTGATGGGGGGCTTGTCCCAGAGCGCCACGGTGTTCATGTCGGAGGTCACCAGCGAGGCCGTGTACACCATGTCCCCCACCTCGGGGCCCAATCACCACCTCCTCTCGCCCGACGCCTCTCAGGGCCTGGTCCTGGCCGTGAGCTCCGACGGCCACAAATTCGCCTTCCCCACCACGGGCAGCTCGGAGAGCCTGTCCATGCTGCCCACCAACGTGTCCGAAGAGCTGGTCCTCTCCACCACCCTCGACGGCGGCCGGAAGATCCCGGAGACCACCATGAACTTTGACCCCGACTGTTTCCTCAATAACCCAAAGCAGGGCCAGACGTACGGGGGCGGGGGCCTGAAGGCCGAGATGGTCAGCTCCAACATCCGGCACTCCCCGCCCGCTGCTGACAGGAGCTTCGGCTTCACCAGCGTCCTGGCCAAGGAGATAAAGACGGAGGACACCTCTTTCGAGCAGCAGATGGCCAAGGAGGCATACTCTTCCTCCGCAGTGGCCGCGGGCTCCGGCTCCCTCACCCTGACGGCTGGCTCCAGCCTCCTGCCATCGGGTGGCGGCCTGAGTCCCAGCACCACGCTGGAGCAGATGGACTTCAGCGCCATAGACTCCAACAAAGACTACACGTCCAGCTTCAGCCAGACAGGCCACAGCCCCCACATCCACCAGACCCCCTCCCCAAGCTTCTTCCTGCAGGACGCCAGCAAGCCCCTTCCCCTTGAGCAGACCGCCCACAGCAGCTTGAGCCACTCCGGGGGCACCTTCGTGATGCCCACGGTGAAAACCGAGGCCTCGTCCCAGACCAGCTCCTGCAGCGGCCACGTGGAGACTCGGATAGAGTCCACGTCCTCCCTGCACCTCATGCAGTTCCAGGCCAATTTCCAGGCCATGACAGCAGAAGGGGAGGTCACTATGGAGACCTCTCAGGCAGCCGAAGGGGGCGAGGTCCTCCTCAAGTCCGGGGAGCTGCAGGCCTGTGCCTCAGAGCACTACCTGCAGCCTGAAAGCAACGGGGTGATCCGAAGCGCTGGTGGGGTCCCCATCCTCCCGAGCAACGTGGTGCCGGGACTCTACCCAGTGGCCCAGCCCAGCCTGGGCAACACCTCCAACATGGAGCTCAGCCTGGACCACTTCGACATCTCCTTCAGCAACCAGTTCTCCGACCTCATCAATGACTTTATCTCCGTGGAGGGGGGCAGCGGCACCATCTACGGTCAGCAGCTGGTGTCGGGGGACAGTGCCGGGCTCTCGCAGTCGGAAGACGGGGCTCGCGCCCCCTTCACCCAGGCGGAGATGTGCATTCCCTGCTGCAGCCCCCAGCAAGGGACCCTGCAGCTGAGCAGCACTGAGGGCGGGGCCGGCACCATGGCCTACATGCACATCACAGACGTGGTCTCCGCCTCCTCAGCCCAGGGCTCGCTGGGGATGCTGCAGCCGAGCGGACGGGTGTTCATGGTGACCGACTACTCCCCCGAGTGGTCTTACCCAGAGGGAGGAGTGAAGGTCCTCATCACAGGCCCATGGCAAGAAGCCAGCAATAACTACAGCTGCCTGTTCGACCAGATCTCAGTGCCTGCATCCCTGATTCAGCCTGGGGTGCTGCGCTGCTACTGCCCAGCCCATGACACGGGTCTTGTGACCCTACAAGTTGCCTTCAACAACCAGATCATCTCCAACTCGGTGGTATTTGAGTACAAAGCTCGGGCTCTGCCCACGCTACCTTCCTCCCAACACGACTGGCTGTCATTGGACGATAACCAGTTCAGGATGTCCATCCTGGAACGGCTGGAGCAGATGGAGAGGAGGATGGCGGAGATGACGGGCTCCCAGCAGCACAAGCAGGCCAGTGGAGGCAGCGGGAGTGGAGGCGGTGGCGGCGTCAGTGGGAACGGAGGAAGCCAAGCTCAGTGCGCCTCTGGGCCTGGGACCTTGGGGAGCTGCTTCGAGAGTCGCGTGGTCATCGTGTGTGAGAAGATGATGAGCCGAGCCTGCTGGGCAAAGTCCAAGCATCTGATCCACTCGAAGACTTTCCGGGGGATGACCCTCTTACACCTGGCTGCTGCCCAGGGCTATGCCACCCTGATCCAGACCCTCATCAAGTGGCGCACAAAGCACGCGGATAGCATTGACTTGGAGCTGGAGGTCGACCCCTTGAATGTGGACCACTTCTCCTGCACGCCTCTGATGTGGGCGTGCGCCCTGGGGCACTTGGAAGCTGCTGTGGTACTGTACAAGTGGGACCGCCGGGCCATCTCCATCCCTGACTCCCTGGGCAGGCTGCCCTTGGGAATCGCCCGCTCAAGGGGCCATGTGAAATTAGCAGAGTGTCTGGAGCACCTGCAGAGAGACGAGCAGGTCCAACTGGGGCAGAACCCCAGGGCCCACGGTCCCCTGAGCCAGGAGCCAGGTACAGACAGCTGGATGGCCCAGTGGCACAGCGAAGCCATGAGCTCTCCAGAGATCCCCAAAGGCGTCACCGTTATTGCAAGTACCAATCCAGAGCTGAGAAGACCTCGGTCTGAACCCTCTAATTACTACAGCAGTGAGAGCCACAAAGATTATCCAGCTCCCAAAAAGCATAAATTGAACCCTGAGTACTTCCAGGCGAGGCAGGAGAAGCTGCTTTCCACTGCACTGAGTCTGGAACAGCCAAATATCAGGAAGCAGAGCCCTAGTTCTAAGCAGGCTGTCCCCGAGACAATCAGCCCCAGTGAAGGAGTGAGGGACTACAGCCGGGAGACCTCCCCTCCCACTCCAGAGACTGCAGCCTTCCACGCCTCTGGATCTCAGCCCGTAGTAAAGTGGAATTCCAAAGATCTTTACATTGGTGTGTCTACAGTACAGGTGACTGGAACTCCGAAGGGGACCAGTGTAGTAAAGGACACAGCACCTTCTCAGGTGCGCCCGCGGGAACCAATGAGTGTCCTGATGATGGCTAACAGAGAGGTGGTGAATACAGAGCTGGGGTCCTACCGTGATAGTGCAGAGAACGAGGAGTGTGCGCAGCCCATGGATGACATTCAGGTGAACATGATGACCCTGGCGGAACACATTATCGAGGCCATACCTGACCGGATCAAGCAGGAAAGCTTTGTGCCCATGGAGTCTCCAGCACTGGAAAGAACAGACCCTGCTGCTGTCAGCAGTACAATGAGCTGGCTGGCCAGTTACTTAGCGGATGCGGATCGTCTGCCGAATGCTGCCCAGATCAGAAGTGCGTATAACGAACCTCTGACCCCTTCTTCTAATACCAGCTTGAGCCCCGTCGGCTCGCCAGTCAGTGAAATAGCTTATGAGAAGCCTAACCTTCCCTCGGCTGCAGACTGGTCCGAATTCCTGAGTGCATCTACCAGTGAGAAGGTAGAGAATGAGTTTGCCCAGCTCACGCTGTCTGACCACGAGCAGAGAGAACTCTATGAGGCTGCCAGGCTTGTTCAGACAGCTTTCCGGAAATACAAGGGCCGACCCCTGCGGGAACAGCAGGAAGTGGCTGCTGCTGTCATCCAGCGTTGTTACAGAAAATATAAACAGCTGACATGGATAGCCTTGAAGTATGCACTTTATAAAAAGATGACCCAGGCGGCCATCCTTATCCAGAGCAAATTCCGAAGTTACTATGAACAAAAAAAGTTCCAGCAAAGCCGGCGTGCCGCCGTGCTGATCCAGAAGTACTACCGGAGTTACAAGAAATGTGGCAAGAGACTGCAGGCTCGCCGGACGGCGGTGATCGTGCAGCAGAAGCTCAGGAGCAGTTTGTTAACCAAAAAGCAGGACCAAGCTGCTCGGAAAATAATGAGGTTTCTACGTCGCTGCCGCCACAGAGTGAAAGAATTGAAAAAGGCCAAGGAACTTGAAGACATACAGCAGCATCCCTTAGCAATGTGA

XM_004863693.1 Coding sequence

Camta1 calmodulin binding transcription activator 1, transcript variant X6

Length: 4959 bp    Location: 4798027..4022996   Strand: -
>XM_004863693.1
ATGGCTGCCGAAAACAAGCCGGAAGATGATCATGGGAACAGCAATAGTAGTCATGTAAAAATCTTTTTACCGAAAAAGCTGCTTGAGTGTCTGCCGAAGTGTTCAAGTTTACCAAAAGAGAGGCACCGATGGAACACTAATGAGGAAATTGCAGCTTATTTAATAACATTTGAGAAACACGAAGAATGGCTAACCACATCCCCTAAGACAAGACCGCAGAATGGCTCAATGATACTCTACAACAGGAAGAAAGTGAAATACAGGAAAGATGGGTATTGCTGGAAAAAGAGGAAAGATGGGAAAACGACCAGAGAGGACCACATGAAACTCAAGGTCCAGGGAGTAGAGTGCTTGTACGGCTGCTATGTCCATTCCTCCATCATCCCCACCTTTCACCGGAGGTGCTACTGGCTCCTTCAGAACCCCGACATTGTCCTGGTGCACTACCTGAACGTGCCGGCCATTGAGGACTGCGGCAAGCCCTGCGGCCCCATCCTCTGCTCCATCAACACCGACAAGAAGGAGTGGGCGAAATGGACGAAGGAAGAGCTCATCGGGCAGCTGAAACCCATGTTCCACGGCATCAAGTGGACCTGCAGCAACGGCAACAGCAGCTCAGGCTTCTCCGTGGAGCAGCTGGTACAGCAGATCCTCGACAGCCACCAGACCAAGCCCCAGCCACGGACCCACAACTGCCTGTGCACCGGCAGCCTGGGAGCGGGCAGCAGCATGCACCACAAGTGTAACAGTGCCAAACACCGCATCATCTCGCCGAAGGTGGAGCCGCGGTCGGGGGGCTACGGGAGCCACTCGGAGGTGCAGCACAACGACGTGTCAGAGGGAAAGCACGAACCCAGCCACGGCAAGGGCGCCAGCCGCGAGAAGCGGAACGGCAAGGTGGCCAAGCCAGCCCTGCTGCACCAGAACAGCACCGAGGTGTCCTCCACCAACCAGGTGGAGGTGCCTGACACCACCCAGAGCTCCCCCGTGTCCATCAGCAGCGGGCTCAACAGCGACCCGGACATGGTGGACAGCCCCGTGGTCACAGGCGTGTCCAGCATGGCGGTGGCCTCCGTGATGGGGGGCTTGTCCCAGAGCGCCACGGTGTTCATGTCGGAGGTCACCAGCGAGGCCGTGTACACCATGTCCCCCACCTCGGGGCCCAATCACCACCTCCTCTCGCCCGACGCCTCTCAGGGCCTGGTCCTGGCCGTGAGCTCCGACGGCCACAAATTCGCCTTCCCCACCACGGGCAGCTCGGAGAGCCTGTCCATGCTGCCCACCAACGTGTCCGAAGAGCTGGTCCTCTCCACCACCCTCGACGGCGGCCGGAAGATCCCGGAGACCACCATGAACTTTGACCCCGACTGTTTCCTCAATAACCCAAAGCAGGGCCAGACGTACGGGGGCGGGGGCCTGAAGGCCGAGATGGTCAGCTCCAACATCCGGCACTCCCCGCCCGCTGCTGACAGGAGCTTCGGCTTCACCAGCGTCCTGGCCAAGGAGATAAAGACGGAGGACACCTCTTTCGAGCAGCAGATGGCCAAGGAGGCATACTCTTCCTCCGCAGTGGCCGCGGGCTCCGGCTCCCTCACCCTGACGGCTGGCTCCAGCCTCCTGCCATCGGGTGGCGGCCTGAGTCCCAGCACCACGCTGGAGCAGATGGACTTCAGCGCCATAGACTCCAACAAAGACTACACGTCCAGCTTCAGCCAGACAGGCCACAGCCCCCACATCCACCAGACCCCCTCCCCAAGCTTCTTCCTGCAGGACGCCAGCAAGCCCCTTCCCCTTGAGCAGACCGCCCACAGCAGCTTGAGCCACTCCGGGGGCACCTTCGTGATGCCCACGGTGAAAACCGAGGCCTCGTCCCAGACCAGCTCCTGCAGCGGCCACGTGGAGACTCGGATAGAGTCCACGTCCTCCCTGCACCTCATGCAGTTCCAGGCCAATTTCCAGGCCATGACAGCAGAAGGGGAGGTCACTATGGAGACCTCTCAGGCAGCCGAAGGGGGCGAGGTCCTCCTCAAGTCCGGGGAGCTGCAGGCCTGTGCCTCAGAGCACTACCTGCAGCCTGAAAGCAACGGGGTGATCCGAAGCGCTGGTGGGGTCCCCATCCTCCCGAGCAACGTGGTGCCGGGACTCTACCCAGTGGCCCAGCCCAGCCTGGGCAACACCTCCAACATGGAGCTCAGCCTGGACCACTTCGACATCTCCTTCAGCAACCAGTTCTCCGACCTCATCAATGACTTTATCTCCGTGGAGGGGGGCAGCGGCACCATCTACGGTCAGCAGCTGGTGTCGGGGGACAGTGCCGGGCTCTCGCAGTCGGAAGACGGGGCTCGCGCCCCCTTCACCCAGGCGGAGATGTGCATTCCCTGCTGCAGCCCCCAGCAAGGGACCCTGCAGCTGAGCAGCACTGAGGGCGGGGCCGGCACCATGGCCTACATGCACATCACAGACGTGGTCTCCGCCTCCTCAGCCCAGGGCTCGCTGGGGATGCTGCAGCCGAGCGGACGGGTGTTCATGGTGACCGACTACTCCCCCGAGTGGTCTTACCCAGAGGGAGGAGTGAAGGTCCTCATCACAGGCCCATGGCAAGAAGCCAGCAATAACTACAGCTGCCTGTTCGACCAGATCTCAGTGCCTGCATCCCTGATTCAGCCTGGGGTGCTGCGCTGCTACTGCCCAGCCCATGACACGGGTCTTGTGACCCTACAAGTTGCCTTCAACAACCAGATCATCTCCAACTCGGTGGTATTTGAGTACAAAGCTCGGGCTCTGCCCACGCTACCTTCCTCCCAACACGACTGGCTGTCATTGGACGATAACCAGTTCAGGATGTCCATCCTGGAACGGCTGGAGCAGATGGAGAGGAGGATGGCGGAGATGACGGGCTCCCAGCAGCACAAGCAGGCCAGTGGAGGCAGCGGGAGTGGAGGCGGTGGCGGCGTCAGTGGGAACGGAGGAAGCCAAGCTCAGTGCGCCTCTGGGCCTGGGACCTTGGGGAGCTGCTTCGAGAGTCGCGTGGTCATCGTGTGTGAGAAGATGATGAGCCGAGCCTGCTGGGCAAAGTCCAAGCATCTGATCCACTCGAAGACTTTCCGGGGGATGACCCTCTTACACCTGGCTGCTGCCCAGGGCTATGCCACCCTGATCCAGACCCTCATCAAGTGGCGCACAAAGCACGCGGATAGCATTGACTTGGAGCTGGAGGTCGACCCCTTGAATGTGGACCACTTCTCCTGCACGCCTCTGATGTGGGCGTGCGCCCTGGGGCACTTGGAAGCTGCTGTGGTACTGTACAAGTGGGACCGCCGGGCCATCTCCATCCCTGACTCCCTGGGCAGGCTGCCCTTGGGAATCGCCCGCTCAAGGGGCCATGTGAAATTAGCAGAGTGTCTGGAGCACCTGCAGAGAGACGAGCAGGTCCAACTGGGGCAGAACCCCAGGGCCCACGGTCCCCTGAGCCAGGAGCCAGGTACAGACAGCTGGATGGCCCAGTGGCACAGCGAAGCCATGAGCTCTCCAGAGATCCCCAAAGGCGTCACCGTTATTGCAAGTACCAATCCAGAGCTGAGAAGACCTCGGTCTGAACCCTCTAATTACTACAGCAGTGAGAGCCACAAAGATTATCCAGCTCCCAAAAAGCATAAATTGAACCCTGAGTACTTCCAGGCGAGGCAGGAGAAGCTGCTTTCCACTGCACTGAGTCTGGAACAGCCAAATATCAGGAAGCAGAGCCCTAGTTCTAAGCAGGCTGTCCCCGAGACAATCAGCCCCAGTGAAGGAGTGAGGGACTACAGCCGGGAGACCTCCCCTCCCACTCCAGAGACTGCAGCCTTCCACGCCTCTGGATCTCAGCCCGTAGTAAAGTGGAATTCCAAAGATCTTTACATTGGTGTGTCTACAGTACAGGTGACTGGAACTCCGAAGGGGACCAGTGTAGTAAAGGACACAGCACCTTCTCAGGTGCGCCCGCGGGAACCAATGAGTGTCCTGATGATGGCTAACAGAGAGGTGGTGAATACAGAGCTGGGGTCCTACCGTGATAGTGCAGAGAACGAGGAGTGTGCGCAGCCCATGGATGACATTCAGGTGAACATGATGACCCTGGCGGAACACATTATCGAGGCCATACCTGACCGGATCAAGCAGGAAAGCTTTGTGCCCATGGAGTCTCCAGCACTGGAAAGAACAGACCCTGCTGCTGTCAGCAGTACAATGAGCTGGCTGGCCAGTTACTTAGCGGATGCGGATCGTCTGCCGAATGCTGCCCAGATCAGAAGTGCGTATAACGAACCTCTGACCCCTTCTTCTAATACCAGCTTGAGCCCCGTCGGCTCGCCAGTCAGTGAAATAGCTTATGAGAAGCCTAACCTTCCCTCGGCTGCAGACTGGTCCGAATTCCTGAGTGCATCTACCAGTGAGAAGGTAGAGAATGAGTTTGCCCAGCTCACGCTGTCTGACCACGAGCAGAGAGAACTCTATGAGGCTGCCAGGCTTGTTCAGACAGCTTTCCGGAAATACAAGGGCCGACCCCTGCGGGAACAGCAGGAAGTGGCTGCTGCTGTCATCCAGCGTTGTTACAGAAAATATAAACAGCTGACATGGATAGCCTTGAAGTATGCACTTTATAAAAAGATGACCCAGGCGGCCATCCTTATCCAGAGCAAATTCCGAAGTTACTATGAACAAAAAAAGTTCCAGCAAAGCCGGCGTGCCGCCGTGCTGATCCAGAAGTACTACCGGAGTTACAAGAAATGTGGCAAGAGACTGCAGGCTCGCCGGACGGCGGTGATCGTGCAGCAGAAGCTCAGGAGCAGTTTGTTAACCAAAAAGCAGGACCAAGCTGCTCGGAAAATAATGAGGTTTCTACGTCGCTGCCGCCACAGAGTGAAAGAATTGAAAAAGGCCAAGGAACTTGAAGACATACAGCAGCATCCCTTAGCAATGTGA

XM_004863690.1 Coding sequence

Camta1 calmodulin binding transcription activator 1, transcript variant X3

Length: 5028 bp    Location: 4798027..4022996   Strand: -
>XM_004863690.1
ATGTGGCGCGCGGAGGGGAAATGGCTGCCGAAAACAAGCCGGAAGAGCGTTTCCCAAAGTGTATTCTGCGGAACTAGCACCTACTGTGTTCTCAACACCGTGCCACCTATAGAAGATGATCATGGGAACAGCAATAGTAGTCATGTAAAAATCTTTTTACCGAAAAAGCTGCTTGAGTGTCTGCCGAAGTGTTCAAGTTTACCAAAAGAGAGGCACCGATGGAACACTAATGAGGAAATTGCAGCTTATTTAATAACATTTGAGAAACACGAAGAATGGCTAACCACATCCCCTAAGACAAGACCGCAGAATGGCTCAATGATACTCTACAACAGGAAGAAAGTGAAATACAGGAAAGATGGGTATTGCTGGAAAAAGAGGAAAGATGGGAAAACGACCAGAGAGGACCACATGAAACTCAAGGTCCAGGGAGTAGAGTGCTTGTACGGCTGCTATGTCCATTCCTCCATCATCCCCACCTTTCACCGGAGGTGCTACTGGCTCCTTCAGAACCCCGACATTGTCCTGGTGCACTACCTGAACGTGCCGGCCATTGAGGACTGCGGCAAGCCCTGCGGCCCCATCCTCTGCTCCATCAACACCGACAAGAAGGAGTGGGCGAAATGGACGAAGGAAGAGCTCATCGGGCAGCTGAAACCCATGTTCCACGGCATCAAGTGGACCTGCAGCAACGGCAACAGCAGCTCAGGCTTCTCCGTGGAGCAGCTGGTACAGCAGATCCTCGACAGCCACCAGACCAAGCCCCAGCCACGGACCCACAACTGCCTGTGCACCGGCAGCCTGGGAGCGGGCAGCAGCATGCACCACAAGTGTAACAGTGCCAAACACCGCATCATCTCGCCGAAGGTGGAGCCGCGGTCGGGGGGCTACGGGAGCCACTCGGAGGTGCAGCACAACGACGTGTCAGAGGGAAAGCACGAACCCAGCCACGGCAAGGGCGCCAGCCGCGAGAAGCGGAACGGCAAGGTGGCCAAGCCAGCCCTGCTGCACCAGAACAGCACCGAGGTGTCCTCCACCAACCAGGTGGAGGTGCCTGACACCACCCAGAGCTCCCCCGTGTCCATCAGCAGCGGGCTCAACAGCGACCCGGACATGGTGGACAGCCCCGTGGTCACAGGCGTGTCCAGCATGGCGGTGGCCTCCGTGATGGGGGGCTTGTCCCAGAGCGCCACGGTGTTCATGTCGGAGGTCACCAGCGAGGCCGTGTACACCATGTCCCCCACCTCGGGGCCCAATCACCACCTCCTCTCGCCCGACGCCTCTCAGGGCCTGGTCCTGGCCGTGAGCTCCGACGGCCACAAATTCGCCTTCCCCACCACGGGCAGCTCGGAGAGCCTGTCCATGCTGCCCACCAACGTGTCCGAAGAGCTGGTCCTCTCCACCACCCTCGACGGCGGCCGGAAGATCCCGGAGACCACCATGAACTTTGACCCCGACTGTTTCCTCAATAACCCAAAGCAGGGCCAGACGTACGGGGGCGGGGGCCTGAAGGCCGAGATGGTCAGCTCCAACATCCGGCACTCCCCGCCCGCTGCTGACAGGAGCTTCGGCTTCACCAGCGTCCTGGCCAAGGAGATAAAGACGGAGGACACCTCTTTCGAGCAGCAGATGGCCAAGGAGGCATACTCTTCCTCCGCAGTGGCCGCGGGCTCCGGCTCCCTCACCCTGACGGCTGGCTCCAGCCTCCTGCCATCGGGTGGCGGCCTGAGTCCCAGCACCACGCTGGAGCAGATGGACTTCAGCGCCATAGACTCCAACAAAGACTACACGTCCAGCTTCAGCCAGACAGGCCACAGCCCCCACATCCACCAGACCCCCTCCCCAAGCTTCTTCCTGCAGGACGCCAGCAAGCCCCTTCCCCTTGAGCAGACCGCCCACAGCAGCTTGAGCCACTCCGGGGGCACCTTCGTGATGCCCACGGTGAAAACCGAGGCCTCGTCCCAGACCAGCTCCTGCAGCGGCCACGTGGAGACTCGGATAGAGTCCACGTCCTCCCTGCACCTCATGCAGTTCCAGGCCAATTTCCAGGCCATGACAGCAGAAGGGGAGGTCACTATGGAGACCTCTCAGGCAGCCGAAGGGGGCGAGGTCCTCCTCAAGTCCGGGGAGCTGCAGGCCTGTGCCTCAGAGCACTACCTGCAGCCTGAAAGCAACGGGGTGATCCGAAGCGCTGGTGGGGTCCCCATCCTCCCGAGCAACGTGGTGCCGGGACTCTACCCAGTGGCCCAGCCCAGCCTGGGCAACACCTCCAACATGGAGCTCAGCCTGGACCACTTCGACATCTCCTTCAGCAACCAGTTCTCCGACCTCATCAATGACTTTATCTCCGTGGAGGGGGGCAGCGGCACCATCTACGGTCAGCAGCTGGTGTCGGGGGACAGTGCCGGGCTCTCGCAGTCGGAAGACGGGGCTCGCGCCCCCTTCACCCAGGCGGAGATGTGCATTCCCTGCTGCAGCCCCCAGCAAGGGACCCTGCAGCTGAGCAGCACTGAGGGCGGGGCCGGCACCATGGCCTACATGCACATCACAGACGTGGTCTCCGCCTCCTCAGCCCAGGGCTCGCTGGGGATGCTGCAGCCGAGCGGACGGGTGTTCATGGTGACCGACTACTCCCCCGAGTGGTCTTACCCAGAGGGAGGAGTGAAGGTCCTCATCACAGGCCCATGGCAAGAAGCCAGCAATAACTACAGCTGCCTGTTCGACCAGATCTCAGTGCCTGCATCCCTGATTCAGCCTGGGGTGCTGCGCTGCTACTGCCCAGCCCATGACACGGGTCTTGTGACCCTACAAGTTGCCTTCAACAACCAGATCATCTCCAACTCGGTGGTATTTGAGTACAAAGCTCGGGCTCTGCCCACGCTACCTTCCTCCCAACACGACTGGCTGTCATTGGACGATAACCAGTTCAGGATGTCCATCCTGGAACGGCTGGAGCAGATGGAGAGGAGGATGGCGGAGATGACGGGCTCCCAGCAGCACAAGCAGGCCAGTGGAGGCAGCGGGAGTGGAGGCGGTGGCGGCGTCAGTGGGAACGGAGGAAGCCAAGCTCAGTGCGCCTCTGGGCCTGGGACCTTGGGGAGCTGCTTCGAGAGTCGCGTGGTCATCGTGTGTGAGAAGATGATGAGCCGAGCCTGCTGGGCAAAGTCCAAGCATCTGATCCACTCGAAGACTTTCCGGGGGATGACCCTCTTACACCTGGCTGCTGCCCAGGGCTATGCCACCCTGATCCAGACCCTCATCAAGTGGCGCACAAAGCACGCGGATAGCATTGACTTGGAGCTGGAGGTCGACCCCTTGAATGTGGACCACTTCTCCTGCACGCCTCTGATGTGGGCGTGCGCCCTGGGGCACTTGGAAGCTGCTGTGGTACTGTACAAGTGGGACCGCCGGGCCATCTCCATCCCTGACTCCCTGGGCAGGCTGCCCTTGGGAATCGCCCGCTCAAGGGGCCATGTGAAATTAGCAGAGTGTCTGGAGCACCTGCAGAGAGACGAGCAGGTCCAACTGGGGCAGAACCCCAGGGCCCACGGTCCCCTGAGCCAGGAGCCAGGTACAGACAGCTGGATGGCCCAGTGGCACAGCGAAGCCATGAGCTCTCCAGAGATCCCCAAAGGCGTCACCGTTATTGCAAGTACCAATCCAGAGCTGAGAAGACCTCGGTCTGAACCCTCTAATTACTACAGCAGTGAGAGCCACAAAGATTATCCAGCTCCCAAAAAGCATAAATTGAACCCTGAGTACTTCCAGGCGAGGCAGGAGAAGCTGCTTTCCACTGCACTGAGTCTGGAACAGCCAAATATCAGGAAGCAGAGCCCTAGTTCTAAGCAGGCTGTCCCCGAGACAATCAGCCCCAGTGAAGGAGTGAGGGACTACAGCCGGGAGACCTCCCCTCCCACTCCAGAGACTGCAGCCTTCCACGCCTCTGGATCTCAGCCCGTAGTAAAGTGGAATTCCAAAGATCTTTACATTGGTGTGTCTACAGTACAGGTGACTGGAACTCCGAAGGGGACCAGTGTAGTAAAGGACACAGCACCTTCTCAGGTGCGCCCGCGGGAACCAATGAGTGTCCTGATGATGGCTAACAGAGAGGTGGTGAATACAGAGCTGGGGTCCTACCGTGATAGTGCAGAGAACGAGGAGTGTGCGCAGCCCATGGATGACATTCAGGTGAACATGATGACCCTGGCGGAACACATTATCGAGGCCATACCTGACCGGATCAAGCAGGAAAGCTTTGTGCCCATGGAGTCTCCAGCACTGGAAAGAACAGACCCTGCTGCTGTCAGCAGTACAATGAGCTGGCTGGCCAGTTACTTAGCGGATGCGGATCGTCTGCCGAATGCTGCCCAGATCAGAAGTGCGTATAACGAACCTCTGACCCCTTCTTCTAATACCAGCTTGAGCCCCGTCGGCTCGCCAGTCAGTGAAATAGCTTATGAGAAGCCTAACCTTCCCTCGGCTGCAGACTGGTCCGAATTCCTGAGTGCATCTACCAGTGAGAAGGTAGAGAATGAGTTTGCCCAGCTCACGCTGTCTGACCACGAGCAGAGAGAACTCTATGAGGCTGCCAGGCTTGTTCAGACAGCTTTCCGGAAATACAAGGGCCGACCCCTGCGGGAACAGCAGGAAGTGGCTGCTGCTGTCATCCAGCGTTGTTACAGAAAATATAAACAGTATGCACTTTATAAAAAGATGACCCAGGCGGCCATCCTTATCCAGAGCAAATTCCGAAGTTACTATGAACAAAAAAAGTTCCAGCAAAGCCGGCGTGCCGCCGTGCTGATCCAGAAGTACTACCGGAGTTACAAGAAATGTGGCAAGAGACTGCAGGCTCGCCGGACGGCGGTGATCGTGCAGCAGAAGCTCAGGAGCAGTTTGTTAACCAAAAAGCAGGACCAAGCTGCTCGGAAAATAATGAGGTTTCTACGTCGCTGCCGCCACAGAGTGAAAGAATTGAAAAAGGCCAAGGAACTTGAAGACATACAGCAGCATCCCTTAGCAATGTGA

XM_004863691.1 Coding sequence

Camta1 calmodulin binding transcription activator 1, transcript variant X4

High confidence: 4 potential gene matches
Length: 5028 bp    Location: 4798027..4022996   Strand: -
>XM_004863691.1
ATGTGGCGCGCGGAGGGGAAATGGCTGCCGAAAACAAGCCGGAAGAGCGTTTCCCAAAGTGTATTCTGCGGAACTAGCACCTACTGTGTTCTCAACACCGTGCCACCTATAGAAGATGATCATGGGAACAGCAATAGTAGTCATGTAAAAATCTTTTTACCGAAAAAGCTGCTTGAGTGTCTGCCGAAGTGTTCAAGTTTACCAAAAGAGAGGCACCGATGGAACACTAATGAGGAAATTGCAGCTTATTTAATAACATTTGAGAAACACGAAGAATGGCTAACCACATCCCCTAAGACAAGACCGCAGAATGGCTCAATGATACTCTACAACAGGAAGAAAGTGAAATACAGGAAAGATGGGTATTGCTGGAAAAAGAGGAAAGATGGGAAAACGACCAGAGAGGACCACATGAAACTCAAGGTCCAGGGAGTAGAGTGCTTGTACGGCTGCTATGTCCATTCCTCCATCATCCCCACCTTTCACCGGAGGTGCTACTGGCTCCTTCAGAACCCCGACATTGTCCTGGTGCACTACCTGAACGTGCCGGCCATTGAGGACTGCGGCAAGCCCTGCGGCCCCATCCTCTGCTCCATCAACACCGACAAGAAGGAGTGGGCGAAATGGACGAAGGAAGAGCTCATCGGGCAGCTGAAACCCATGTTCCACGGCATCAAGTGGACCTGCAGCAACGGCAACAGCAGCTCAGGCTTCTCCGTGGAGCAGCTGGTACAGCAGATCCTCGACAGCCACCAGACCAAGCCCCAGCCACGGACCCACAACTGCCTGTGCACCGGCAGCCTGGGAGCGGGCAGCAGCATGCACCACAAGTGTAACAGTGCCAAACACCGCATCATCTCGCCGAAGGTGGAGCCGCGGTCGGGGGGCTACGGGAGCCACTCGGAGGTGCAGCACAACGACGTGTCAGAGGGAAAGCACGAACCCAGCCACGGCAAGGGCGCCAGCCGCGAGAAGCGGAACGGCAAGGTGGCCAAGCCAGCCCTGCTGCACCAGAACAGCACCGAGGTGTCCTCCACCAACCAGGTGGAGGTGCCTGACACCACCCAGAGCTCCCCCGTGTCCATCAGCAGCGGGCTCAACAGCGACCCGGACATGGTGGACAGCCCCGTGGTCACAGGCGTGTCCAGCATGGCGGTGGCCTCCGTGATGGGGGGCTTGTCCCAGAGCGCCACGGTGTTCATGTCGGAGGTCACCAGCGAGGCCGTGTACACCATGTCCCCCACCTCGGGGCCCAATCACCACCTCCTCTCGCCCGACGCCTCTCAGGGCCTGGTCCTGGCCGTGAGCTCCGACGGCCACAAATTCGCCTTCCCCACCACGGGCAGCTCGGAGAGCCTGTCCATGCTGCCCACCAACGTGTCCGAAGAGCTGGTCCTCTCCACCACCCTCGACGGCGGCCGGAAGATCCCGGAGACCACCATGAACTTTGACCCCGACTGTTTCCTCAATAACCCAAAGCAGGGCCAGACGTACGGGGGCGGGGGCCTGAAGGCCGAGATGGTCAGCTCCAACATCCGGCACTCCCCGCCCGCTGCTGACAGGAGCTTCGGCTTCACCAGCGTCCTGGCCAAGGAGATAAAGACGGAGGACACCTCTTTCGAGCAGCAGATGGCCAAGGAGGCATACTCTTCCTCCGCAGTGGCCGCGGGCTCCGGCTCCCTCACCCTGACGGCTGGCTCCAGCCTCCTGCCATCGGGTGGCGGCCTGAGTCCCAGCACCACGCTGGAGCAGATGGACTTCAGCGCCATAGACTCCAACAAAGACTACACGTCCAGCTTCAGCCAGACAGGCCACAGCCCCCACATCCACCAGACCCCCTCCCCAAGCTTCTTCCTGCAGGACGCCAGCAAGCCCCTTCCCCTTGAGCAGACCGCCCACAGCAGCTTGAGCCACTCCGGGGGCACCTTCGTGATGCCCACGGTGAAAACCGAGGCCTCGTCCCAGACCAGCTCCTGCAGCGGCCACGTGGAGACTCGGATAGAGTCCACGTCCTCCCTGCACCTCATGCAGTTCCAGGCCAATTTCCAGGCCATGACAGCAGAAGGGGAGGTCACTATGGAGACCTCTCAGGCAGCCGAAGGGGGCGAGGTCCTCCTCAAGTCCGGGGAGCTGCAGGCCTGTGCCTCAGAGCACTACCTGCAGCCTGAAAGCAACGGGGTGATCCGAAGCGCTGGTGGGGTCCCCATCCTCCCGAGCAACGTGGTGCCGGGACTCTACCCAGTGGCCCAGCCCAGCCTGGGCAACACCTCCAACATGGAGCTCAGCCTGGACCACTTCGACATCTCCTTCAGCAACCAGTTCTCCGACCTCATCAATGACTTTATCTCCGTGGAGGGGGGCAGCGGCACCATCTACGGTCAGCAGCTGGTGTCGGGGGACAGTGCCGGGCTCTCGCAGTCGGAAGACGGGGCTCGCGCCCCCTTCACCCAGGCGGAGATGTGCATTCCCTGCTGCAGCCCCCAGCAAGGGACCCTGCAGCTGAGCAGCACTGAGGGCGGGGCCGGCACCATGGCCTACATGCACATCACAGACGTGGTCTCCGCCTCCTCAGCCCAGGGCTCGCTGGGGATGCTGCAGCCGAGCGGACGGGTGTTCATGGTGACCGACTACTCCCCCGAGTGGTCTTACCCAGAGGGAGGAGTGAAGGTCCTCATCACAGGCCCATGGCAAGAAGCCAGCAATAACTACAGCTGCCTGTTCGACCAGATCTCAGTGCCTGCATCCCTGATTCAGCCTGGGGTGCTGCGCTGCTACTGCCCAGCCCATGACACGGGTCTTGTGACCCTACAAGTTGCCTTCAACAACCAGATCATCTCCAACTCGGTGGTATTTGAGTACAAAGCTCGGGCTCTGCCCACGCTACCTTCCTCCCAACACGACTGGCTGTCATTGGACGATAACCAGTTCAGGATGTCCATCCTGGAACGGCTGGAGCAGATGGAGAGGAGGATGGCGGAGATGACGGGCTCCCAGCAGCACAAGCAGGCCAGTGGAGGCAGCGGGAGTGGAGGCGGTGGCGGCGTCAGTGGGAACGGAGGAAGCCAAGCTCAGTGCGCCTCTGGGCCTGGGACCTTGGGGAGCTGCTTCGAGAGTCGCGTGGTCATCGTGTGTGAGAAGATGATGAGCCGAGCCTGCTGGGCAAAGTCCAAGCATCTGATCCACTCGAAGACTTTCCGGGGGATGACCCTCTTACACCTGGCTGCTGCCCAGGGCTATGCCACCCTGATCCAGACCCTCATCAAGTGGCGCACAAAGCACGCGGATAGCATTGACTTGGAGCTGGAGGTCGACCCCTTGAATGTGGACCACTTCTCCTGCACGCCTCTGATGTGGGCGTGCGCCCTGGGGCACTTGGAAGCTGCTGTGGTACTGTACAAGTGGGACCGCCGGGCCATCTCCATCCCTGACTCCCTGGGCAGGCTGCCCTTGGGAATCGCCCGCTCAAGGGGCCATGTGAAATTAGCAGAGTGTCTGGAGCACCTGCAGAGAGACGAGCAGGTCCAACTGGGGCAGAACCCCAGGGCCCACGGTCCCCTGAGCCAGGAGCCAGGTACAGACAGCTGGATGGCCCAGTGGCACAGCGAAGCCATGAGCTCTCCAGAGATCCCCAAAGGCGTCACCGTTATTGCAAGTACCAATCCAGAGCTGAGAAGACCTCGGTCTGAACCCTCTAATTACTACAGCAGTGAGAGCCACAAAGATTATCCAGCTCCCAAAAAGCATAAATTGAACCCTGAGTACTTCCAGGCGAGGCAGGAGAAGCTGCTTTCCACTGCACTGAGTCTGGAACAGCCAAATATCAGGAAGCAGAGCCCTAGTTCTAAGCAGGCTGTCCCCGAGACAATCAGCCCCAGTGAAGGAGTGAGGGACTACAGCCGGGAGACCTCCCCTCCCACTCCAGAGACTGCAGCCTTCCACGCCTCTGGATCTCAGCCCGTAGTAAAGTGGAATTCCAAAGATCTTTACATTGGTGTGTCTACAGTACAGGTGACTGGAACTCCGAAGGGGACCAGTGTAGTAAAGGACACAGCACCTTCTCAGGTGCGCCCGCGGGAACCAATGAGTGTCCTGATGATGGCTAACAGAGAGGTGGTGAATACAGAGCTGGGGTCCTACCGTGATAGTGCAGAGAACGAGGAGTGTGCGCAGCCCATGGATGACATTCAGGTGAACATGATGACCCTGGCGGAACACATTATCGAGGCCATACCTGACCGGATCAAGCAGGAAAGCTTTGTGCCCATGGAGTCTCCAGCACTGGAAAGAACAGACCCTGCTGCTGTCAGCAGTACAATGAGCTGGCTGGCCAGTTACTTAGCGGATGCGGATCGTCTGCCGAATGCTGCCCAGATCAGAAGTGCGTATAACGAACCTCTGACCCCTTCTTCTAATACCAGCTTGAGCCCCGTCGGCTCGCCAGTCAGTGAAATAGCTTATGAGAAGCCTAACCTTCCCTCGGCTGCAGACTGGTCCGAATTCCTGAGTGCATCTACCAGTGAGAAGGTAGAGAATGAGTTTGCCCAGCTCACGCTGTCTGACCACGAGCAGAGAGAACTCTATGAGGCTGCCAGGCTTGTTCAGACAGCTTTCCGGAAATACAAGGGCCGACCCCTGCGGGAACAGCAGGAAGTGGCTGCTGCTGTCATCCAGCGTTGTTACAGAAAATATAAACAGTATGCACTTTATAAAAAGATGACCCAGGCGGCCATCCTTATCCAGAGCAAATTCCGAAGTTACTATGAACAAAAAAAGTTCCAGCAAAGCCGGCGTGCCGCCGTGCTGATCCAGAAGTACTACCGGAGTTACAAGAAATGTGGCAAGAGACTGCAGGCTCGCCGGACGGCGGTGATCGTGCAGCAGAAGCTCAGGAGCAGTTTGTTAACCAAAAAGCAGGACCAAGCTGCTCGGAAAATAATGAGGTTTCTACGTCGCTGCCGCCACAGCCCCCTGGTGGACCATAGGCTGTACAAAAGGAGTGAAAGAATTGAAAAAGGCCAAGGAACTTGA

XM_004863671.1 Coding sequence

Rere arginine-glutamic acid dipeptide (RE) repeats, transcript variant X3

Length: 4635 bp    Location: 3388263..3648634   Strand: +
>XM_004863671.1
ATGACAGCTGATAAAGACAAAGACAAAGACAAAGAGAAGGACCGGGACCGAGATCGGGACCGAGAAAGAGATAAAAGAGATAAAGCAAGAGAGAGTGAGAATTCAAGGCCACGCAGGAGCTGCACCTTGGAAGGAGGAGCCAAAAATTATGCTGAGAGCGATCACAGTGAAGATGAGGACAATGACAACAATGGTGCCACCACTGAAGAGTCCACCAAGAAGAACAAGAAGAAACCACCCAAAAAAAAATCTCGTTACGAAAGGACAGACACTGGTGAGATAACATCCTACATCACTGAGGATGATGTTGTCTACAGACCAGGAGACTGTGTGTATATCGAGAGTCGGAGGCCAAACACACCGTATTTCATCTGTAGCATTCAAGACTTCAAACTGGTCCACAACTCCCAGGCCTGTTGCAGATCTCCAACTCCTGCTTTGTGTGACCCCCCAGCATGCTCTCTGCCGGTGGCATCACAGCCACCACAACATCTTTCTGAAGCCGGGAGAGGGCCTGTAGGGAGTAAGAGGGACCATCTACTCATGAACGTCAAATGGTACTACCGTCAGTCTGAAGTTCCAGATTCTGTGTATCAGCATTTGGTTCAGGATCGGCATAATGAAAATGACTCTGGAAGAGAACTTGTCATTACAGACCCCGTTATCAAGAACCGAGAGCTCTTCATTTCTGATTACGTTGACACATACCATGCTGCTGCTCTTAGAGGGAAGTGTAACATCTCCCATTTTTCTGACATATTCGCTGCTAGAGAATTCAAAGCCCGAGTGGACTCATTTTTCTACATATTAGGCTACAACCCTGAGACAAGGAGGCTGAACAGTACTCAGGGGGAAATTCGCGTTGGTCCTAGCCATCAGGCCAAACTTCCAGATTTGCAGCCATTTCCTTCTCCAGATGGGGATACTGTGACCCAGCATGAGGAGTTGGTCTGGATGCCTGGAGTGAATGACTGTGACCTCCTTATGTACTTGAGGGCAGCAAGGAGCATGGCAGCATTTGCAGGGATGTGTGATGGCGGCTCCACGGAGGACGGCTGTGTCGCTGCGTCTCGTGATGACACCACCCTCAATGCGCTGAACACACTACATGAGAGCAGTTACGACGCTGGCAAAGCCCTGCAGCGCCTGGTAAAGAAGCCTGTGCCCAAGCTGATCGAGAAGTGCTGGACTGAAGATGAAGTGAAACGCTTCGTTAAGGGACTCAGGCAGTACGGGAAGAACTTCTTCAGAATTAGAAAGGAGCTGCTTCCCAATAAGGAAACAGGGGAGCTGATCACCTTCTATTACTACTGGAAGAAAACCCCCGAAGCAGCCAGCTCCCGAGCCCATCGCCGGCACCGCAGGCAGGCTGTGTTCAGGAGGATTAAGACCCGGACTGCGTCCACACCGGTCAACACGCCCTCCAGACCACCCTCCAGTGAATTCTTGGACCTGAGTTCAGCCAGCGAAGATGACTTCGACAGTGAGGACAGCGAGCAGGAGTTGAAGGGGTACGCCTGCCGCCACTGCTTCACCACCACCTCCAAAGACTGGCACCACGGGGGCCGGGAGAACATCCTGCTCTGCACCGACTGCCGCATCCACTTCAAGAAGTACGGCGAGCTGCCACCCATCGAGAAGCCGGTGGACCCCCCGCCGTTCATGTTCAAGCCTGTCAAGGAGGAGGACGATGGGCTCGGTGGGAAGCATAGCATGAGGACGCGGCGGAGTCGGGGCTCGATGTCTACACTACGTAGTGGTCGGAAGAAGCAGCCCGCCAGCCCCGATGGTCCTGCCTCTCCCATCAATGAAGACATCCGCTCCAGCGGTCGCACCTCCCCCAGCGCTGCCAGCACCTCCAGCAATGACAGCAAAACAGAGACAGTGAAGAAGTCTGCCAAGAAGGTGAAGGAGGAGGCCTCGTCGCCTCTCAAGAGCACCAAGCGCCAGCGGGAGAAGGTGGCGTCTGACACAGAGGAGGCCGACAGGAACAGCTCCAAGAAGACAAAAACCCAGGAGCTCAGCCGGCCCAACTCGCCCTCCGAAGGGGAGGGAGAGAGCTCGGATAGTCGCAGTGTCAACGATGAGGGTAGCAGTGACCCCAAAGACATCGACCAGGACAATCGCAGCACGTCCCCCAGCATCCCCAGCCCTCAGGACAATGAGAGTGACTCAGACTCCTCTGCTCAGCAGCAGATGCTGCAGGCCCAGCCCCCAGCCTTGCAGGCTCCCCCAACAGCGCCCCCAGGAACCGCCCAGCTCCCCACCCCAGGACCCACGCCCTCCACTACTGCAGCCCCTCCACAGGGCTCCCTGGCAGCCGCACAGCCCCCGAACCAGTCTCAAGCACCCGCGGCGCAGGCCACCCTCAGCCACATCCAGCAGGCGCCCGTGCTGCACCCTCCGAGGCTGCCCTCGCCACACCCCCCGCTGCAGCCGCTGAGTGGGCCCGTGGGCCAGACTCCTGCGGCCCACACCCAGCCGGGTCTGCACAGCCAGGGCCCGCCTGGCCCTCATGGCCTGCAGGCAGGGTCACTGCTGCAGCACCCTGGCCCCCCGCAGCCCTTCGCCCTCCCTCCCCAGGCTGCCCAGGCACAGGCCCCTCTGGGGGCTGTCGCAGCCACAGCTCACCCCCATGCCGCCCTGCAGCTCCCGGCCTCTTCGGGGCTGCAGCCTCAACAGCCCCCCCGCGAGCAGCCCCTGCCGCCGGCGCCCCTGGCCATGCCTCACATCAAGCCCCCTCCCACCACGCCCATCCCCCAGCTCCCGGCCCCGCAGGCCCACAAGCACCCGCCACACCTCTCCGGGCCCTCCCCCTTCTCCATGAATGCCAACCTGCCGCCCCCTCCCGCTCTGAAGCCCCTCAGCTCCCTGTCCACACACCACCCGCCCTCAGCCCACCCCCCGCCACTGCAGCTCATGCCGCAGAGCCAGCCCCTACCCTCCTCCCCGGCCCAGCCCCCTGGGCTGACCCAGAGCCAGGGTCTTGCACCCCCTGCCCCTGCCCATGCCCCTGCCAGCCTCCACCAGGGGCCCCCGCAGGCCCCCTTCACCCAGCACCCCTTTGGCCCAGGTGGCACCCCACCCATCTGTCCACCCACCTCTACCCCGCCTGCGGGCCCCAGCACCTCTGCCCAGCCTCCCTGCTCTGCTGCCCTGTCTTCAGGGGGGACCACGCCAGGGGGGGCGCCCTGCCCACTCCCCGCTGTCCAGATCAAGGAGGAGGCTCTGGATGATGCCGAAGAGCCCGAGAGCCCCCCGCCCGCACCGCGGAGCCCGTCCCCTGAGCCCACTGTGGTGGACACCCCCAGCCACGCCAGCCAGTCTGCCAGGTTCTACAAGCACCTGGACCGGGGTTACAACTCGTGCGCACGGACAGACCTGTACTTCATGCCTCTGGCTGGGTCCAAGCTATCCAAGAAGAGGGAGGAGGCCATCGAGAAGGCCAAACGGGAGGCAGAGCAGAAAGCCCGAGAGGAGCGCGAGCGGGAGAAGGAGAAGGAGCGGGAGCGCGAGCGGGAGCGCGAGCGGGAGGCTGAGCGGGCAGCTCAGAAAGCATCCAGCTCTGCACACGAAGGCCGCCTCAGTGACCCTCAGCTCAGCGGTCCAGGCCACATGCGGCCCTCCTTCGAGCCGCCTCCAACCACCATCGCCGCCGTGCCCCCCTACATCGGGCCCGACACCCCGGCGCTGCGGACACTGAGCGAGTACGCTCGGCCCCACGTCATGTCTCCCACCAACCGCAACCACCCCTTCTATATGCCCCTGAACCCCACTGATCCCCTGCTGGCCTACCACATGCCCGGCCTCTACAACGTGGACCCCACCATCCGGGAGCGGGAGCTCCGGGAGCGGGAGATCCGGGAGCGGGAGATCCGGGAGCGGGAGCTGCGAGAGCGCATGAAGCCGGGCTTCGAGGTGAAGCCCCCGGAGCTGGACCCCCTGCACCCAGCCACCAACCCCATGGAGCACTTCGCACGGCACAGTGCCCTCACCATCCCGCCCTCGGCCGGCCCCCATCCTTTCGCCTCTTTCCACCCGGGCCTGAACCCCTTGGAGCGGGAGAGACTGGCCTTGGCAGGCCCCCAGCTGCGGCCCGAAATGAGCTACCCCGACAGACTGGCCGCCGAGCGCATCCACGCCGAGCGCATGGCGTCGCTTACCAGTGACCCCCTGGCCCGGCTGCAGATGTTCAATGTGACTCCGCACCACCACCAGCACTCCCACATCCACTCGCACCTCCACCTCCACCAGCAGGACCCCCTCCACCAAGGCTCAGCAGGCCCAGTTCATCCCTTGGTTGACCCCCTGACTGCTGGCCCTCACCTGGCTCGCTTCCCCTACCCACCCGGCACCCTCCCCAGCCCTCTGCTGGGTCAGCCCCCCCACGAGCACGAGATGCTGCGCCACCCTGTCTTCGGCACCCCCTATCCCCGAGACCTGCCTGGGGCCATCCCACCCCCCATGTCGGCAGCCCACCAGCTGCAGGCCATGCACGCCCAGTCAGCTGAGCTGCAGAGACTGGCCATGGAGCAGCAGTGGCTGCATGGACACCCCCACATGCATGGTGGCCATCTACCGAGTCAGGAGGATTATTACAGTCGACTGAAGAAAGAAGGTGACAAGCAGTTATAA

XM_004863660.1 Coding sequence

H6pd hexose-6-phosphate dehydrogenase (glucose 1-dehydrogenase), transcript variant X6

Length: 2415 bp    Location: 3052102..3029187   Strand: -
>XM_004863660.1
ATGCTTAATCCCTACACTGAGCCCTTGCACCCAGGCCTTTGGAAGATGCTCACGGTGGCCATGTGCGTGGCCCTCGTGGGCTGCCTGCAGGCCCAGGAGCTCCGGGGACACGTCTCCATCGTCCTGCTGGGAGCGACCGGGGACCTGGCTAAGAAGTACTTGTGGCAGGGACTGTTCCAGCTCTACCTGGACGAGGTGGGGAAGGACCATAGTTTTAGCTTCCATGGGGCTGCTCTGACGGCACCCGAGCAGGGCTGGAAGCTGATGGCCAAGGCCCTGGAATCCCTCTCCTGCCCCAGTGACATGGCACCTAGTCACTGTGCTGAACTCAAGGATCAGTTCCTGCGCCTGAGCCAGTACCGCCAGCTGAAGACAGCCGAAGACTATCGGACACTGAGCAAGGACATTGAGGCACAGGTCAAGCAAGAGGACCTCCGGGAGGCTGGCAGGATTTTCTACTTCTCCGTGCCACCCTTTGCCTATGTGGACATTGCCCGCAACATCAACAGCAGCTGCCGGCCAGGCCCGGGTGCCTGGCTGCGGGTTGTCTTTGAGAAACCCTTTGGCCATGACCACCTCTCTGCCCAGCAGCTGGCCACTGAACTTGGGAGCTTTTTCCAGGAGGAGGAGATGTACCGGGTGGACCATTACCTGGGCAAGCAGGCTGTGGCTCAGATCCTGCCCTTCCGAGACCAGAACCGCAAGGCCCTGGATGGCCTCTGGAACCGGCACCATGTGGAGCGGGTGGAGATCATCATGAAGGAGACCGTGGATGCAGAAGGTCGCATCAGCTTCTACGAGGAGTACGGCGTCATCCGAGATGTCCTGCAGAACCACCTGACCGAGATCCTCATGCTGGTGGCCATGGAGCTGCCGCTCAATGTCAGCAGCTCGGCGGCCGTGCTGCAGCACAAGCTCGAAGCCTTCCGTGGCCTGAGGGGCCTGAACAAGGGCAGCGCCGTGGTGGGCCAGTACCAGGCCTATAGCGCGCAGGCACGCAGGGAGCTGCAGAAGCCCGAGGGCTTCCACAGCCTGACTCCCACCTTCGCAGGTGTCCTCGTGCATGTGGACAGCCTGCGCTGGGAGGGTGTGCCCTTCACCCTGATGTCTGGCAAGGCCCTGGACGAGAGAGTGGGCTATGTGCGGGTCCTGTTCAAAAACCAGGCGTTCTGCATCCAGCACGAGAGGCACTGGGCCCCAGAGCAGAGCCCGTGTCTTCCCCGGCAGATCATCTTCCACATCGGACATGGTGAGCTGAGCCACCCAGCCATCCTGGTCAGCCGGAACCTGTTCAGGCCCTCCCTGCCTGCACACAGCTGGGCGGAAGTGCAGGAGAGGCCCGGGCTCCGAGTGTTGGGTCGCCCCCTGTCTGATTTCTATGCCTACAGCCCCTTGAGGGAGCGAGACGCCTACTCCATCCTCCTGTCCCACATCTTCCACGGCCGGAAAGAATCCTTCATCACCACAGAGAACTTGCTGGCTTCCTGGGATTTCTGGACCCCGTTGCTGGACAGCCTGGCCCATGAGGTCCCGCGCCTCTACCCGGGGGGAGCAGACACCGGCTGTCTGTTGGACCTGGAGTTAAATGGGGGCCACCTGTCCTTCTCCCAGCAGCAGCCCGAGCAGCTGGTCCCAGGGCCGGGGTCGGCCCCCAAGCCCAGTGACTTCCAGGTCCTCAGGGCCAGGTACCGAGAGAGCCCGCTGATCTCGGCCTGGCCTGAGGAGCTGATCTCCAGGCTGGCCAGCGACATTGAGGCCTCTGCCCTGCAGGCCGTGCAGCACTTCGGCAAGTTCCACCTGGCGCTGTCGGGTGGCTCCAGCCCCATCGCCCTGTTCCAGCAGCTGGCCATGGGCCACTACAGCTTCCCCTGGGCCCACACACACCTCTGGCTGGTGGACGAGCGCTGCGTCCCGCTGTCGGACCCTGACTCCAACTTCCAGGGCCTGCAGGCTCACCTGCTGCAGCACATCCGCTTGCCCTACTACAATATCCACCCCATGCCGGTGCACCTGCACCAGCGGCTGTGCGCGGAAGAGGACCAGGGTGCCCAGACCTATGCCGGGGAGATCTCGGCCCTGGTGGCCAACAGCAGCTTCGACCTGGTGCTGCTGGGCATGGGCACCGATGGGCACACGGCCTCCCTCTTCCCGCAGTCGCCCACGGGCCTGGACGGCGAGCAGCTGGTGGTGCTGACGCAGAGCCCCTTCAGGCCGCACCAGCGCATGAGCCTCAGCCTGCCGCTCATCAACAGGGCCAAGAAGGTGGCCGTCCTGGTCATGGGCCGGACAAAGCGTGACATCACCATGCTGGTGAGCCGTGTGGGCCAGGAGCCCAGGAAGTGGCCCATCTCAGGCGTGCTTCCCAGCTCCGGCCAGCTGGTTTGGTACATGGACTACGAAGCCTTCCTGGGGTGA

XM_004863659.1 Coding sequence

H6pd hexose-6-phosphate dehydrogenase (glucose 1-dehydrogenase), transcript variant X5

Length: 2463 bp    Location: 3048493..3029187   Strand: -
>XM_004863659.1
ATGTGGACCTGCCCTGCACCTGCTGAATCACAGCTGCATTTTCTGGGTGATGTGAGTAGAGGACGGAGGACCAGGCACCCAGGCCTTTGGAAGATGCTCACGGTGGCCATGTGCGTGGCCCTCGTGGGCTGCCTGCAGGCCCAGGAGCTCCGGGGACACGTCTCCATCGTCCTGCTGGGAGCGACCGGGGACCTGGCTAAGAAGTACTTGTGGCAGGGACTGTTCCAGCTCTACCTGGACGAGGTGGGGAAGGACCATAGTTTTAGCTTCCATGGGGCTGCTCTGACGGCACCCGAGCAGGGCTGGAAGCTGATGGCCAAGGCCCTGGAATCCCTCTCCTGCCCCAGTGACATGGCACCTAGTCACTGTGCTGAACTCAAGGATCAGTTCCTGCGCCTGAGCCAGTACCGCCAGCTGAAGACAGCCGAAGACTATCGGACACTGAGCAAGGACATTGAGGCACAGGTCAAGCAAGAGGACCTCCGGGAGGCTGGCAGGATTTTCTACTTCTCCGTGCCACCCTTTGCCTATGTGGACATTGCCCGCAACATCAACAGCAGCTGCCGGCCAGGCCCGGGTGCCTGGCTGCGGGTTGTCTTTGAGAAACCCTTTGGCCATGACCACCTCTCTGCCCAGCAGCTGGCCACTGAACTTGGGAGCTTTTTCCAGGAGGAGGAGATGTACCGGGTGGACCATTACCTGGGCAAGCAGGCTGTGGCTCAGATCCTGCCCTTCCGAGACCAGAACCGCAAGGCCCTGGATGGCCTCTGGAACCGGCACCATGTGGAGCGGGTGGAGATCATCATGAAGGAGACCGTGGATGCAGAAGGTCGCATCAGCTTCTACGAGGAGTACGGCGTCATCCGAGATGTCCTGCAGAACCACCTGACCGAGATCCTCATGCTGGTGGCCATGGAGCTGCCGCTCAATGTCAGCAGCTCGGCGGCCGTGCTGCAGCACAAGCTCGAAGCCTTCCGTGGCCTGAGGGGCCTGAACAAGGGCAGCGCCGTGGTGGGCCAGTACCAGGCCTATAGCGCGCAGGCACGCAGGGAGCTGCAGAAGCCCGAGGGCTTCCACAGCCTGACTCCCACCTTCGCAGGTGTCCTCGTGCATGTGGACAGCCTGCGCTGGGAGGGTGTGCCCTTCACCCTGATGTCTGGCAAGGCCCTGGACGAGAGAGTGGGCTATGTGCGGGTCCTGTTCAAAAACCAGGCGTTCTGCATCCAGCACGAGAGGCACTGGGCCCCAGAGCAGAGCCCGTGTCTTCCCCGGCAGATCATCTTCCACATCGGACATGGTGAGCTGAGCCACCCAGCCATCCTGGTCAGCCGGAACCTGTTCAGGCCCTCCCTGCCTGCACACAGCTGGGCGGAAGTGCAGGAGAGGCCCGGGCTCCGAGTGTTGGGTCGCCCCCTGTCTGATTTCTATGCCTACAGCCCCTTGAGGGAGCGAGACGCCTACTCCATCCTCCTGTCCCACATCTTCCACGGCCGGAAAGAATCCTTCATCACCACAGAGAACTTGCTGGCTTCCTGGGATTTCTGGACCCCGTTGCTGGACAGCCTGGCCCATGAGGTCCCGCGCCTCTACCCGGGGGGAGCAGACACCGGCTGTCTGTTGGACCTGGAGTTAAATGGGGGCCACCTGTCCTTCTCCCAGCAGCAGCCCGAGCAGCTGGTCCCAGGGCCGGGGTCGGCCCCCAAGCCCAGTGACTTCCAGGTCCTCAGGGCCAGGTACCGAGAGAGCCCGCTGATCTCGGCCTGGCCTGAGGAGCTGATCTCCAGGCTGGCCAGCGACATTGAGGCCTCTGCCCTGCAGGCCGTGCAGCACTTCGGCAAGTTCCACCTGGCGCTGTCGGGTGGCTCCAGCCCCATCGCCCTGTTCCAGCAGCTGGCCATGGGCCACTACAGCTTCCCCTGGGCCCACACACACCTCTGGCTGGTGGACGAGCGCTGCGTCCCGCTGTCGGACCCTGACTCCAACTTCCAGGGCCTGCAGGCTCACCTGCTGCAGCACATCCGCTTGCCCTACTACAATATCCACCCCATGCCGGTGCACCTGCACCAGCGGCTGTGCGCGGAAGAGGACCAGGGTGCCCAGACCTATGCCGGGGAGATCTCGGCCCTGGTGGCCAACAGCAGCTTCGACCTGGTGCTGCTGGGCATGGGCACCGATGGGCACACGGCCTCCCTCTTCCCGCAGTCGCCCACGGGCCTGGACGGCGAGCAGCTGGTGGTGCTGACGCAGAGCCCCTTCAGGCCGCACCAGCGCATGAGCCTCAGCCTGCCGCTCATCAACAGGGCCAAGAAGGTGGCCGTCCTGGTCATGGGCCGGACAAAGCGTGACATCACCATGCTGGTGAGCCGTGTGGGCCAGGAGCCCAGGAAGTGGCCCATCTCAGGCGTGCTTCCCAGCTCCGGCCAGCTGGTTTGGTACATGGACTACGAAGCCTTCCTGGGGTGA

XM_004863661.1 Coding sequence

H6pd hexose-6-phosphate dehydrogenase (glucose 1-dehydrogenase), transcript variant X7

Length: 2415 bp    Location: 3047191..3029187   Strand: -
>XM_004863661.1
ATGCTTAATCCCTACACTGAGCCCTTGCACCCAGGCCTTTGGAAGATGCTCACGGTGGCCATGTGCGTGGCCCTCGTGGGCTGCCTGCAGGCCCAGGAGCTCCGGGGACACGTCTCCATCGTCCTGCTGGGAGCGACCGGGGACCTGGCTAAGAAGTACTTGTGGCAGGGACTGTTCCAGCTCTACCTGGACGAGGTGGGGAAGGACCATAGTTTTAGCTTCCATGGGGCTGCTCTGACGGCACCCGAGCAGGGCTGGAAGCTGATGGCCAAGGCCCTGGAATCCCTCTCCTGCCCCAGTGACATGGCACCTAGTCACTGTGCTGAACTCAAGGATCAGTTCCTGCGCCTGAGCCAGTACCGCCAGCTGAAGACAGCCGAAGACTATCGGACACTGAGCAAGGACATTGAGGCACAGGTCAAGCAAGAGGACCTCCGGGAGGCTGGCAGGATTTTCTACTTCTCCGTGCCACCCTTTGCCTATGTGGACATTGCCCGCAACATCAACAGCAGCTGCCGGCCAGGCCCGGGTGCCTGGCTGCGGGTTGTCTTTGAGAAACCCTTTGGCCATGACCACCTCTCTGCCCAGCAGCTGGCCACTGAACTTGGGAGCTTTTTCCAGGAGGAGGAGATGTACCGGGTGGACCATTACCTGGGCAAGCAGGCTGTGGCTCAGATCCTGCCCTTCCGAGACCAGAACCGCAAGGCCCTGGATGGCCTCTGGAACCGGCACCATGTGGAGCGGGTGGAGATCATCATGAAGGAGACCGTGGATGCAGAAGGTCGCATCAGCTTCTACGAGGAGTACGGCGTCATCCGAGATGTCCTGCAGAACCACCTGACCGAGATCCTCATGCTGGTGGCCATGGAGCTGCCGCTCAATGTCAGCAGCTCGGCGGCCGTGCTGCAGCACAAGCTCGAAGCCTTCCGTGGCCTGAGGGGCCTGAACAAGGGCAGCGCCGTGGTGGGCCAGTACCAGGCCTATAGCGCGCAGGCACGCAGGGAGCTGCAGAAGCCCGAGGGCTTCCACAGCCTGACTCCCACCTTCGCAGGTGTCCTCGTGCATGTGGACAGCCTGCGCTGGGAGGGTGTGCCCTTCACCCTGATGTCTGGCAAGGCCCTGGACGAGAGAGTGGGCTATGTGCGGGTCCTGTTCAAAAACCAGGCGTTCTGCATCCAGCACGAGAGGCACTGGGCCCCAGAGCAGAGCCCGTGTCTTCCCCGGCAGATCATCTTCCACATCGGACATGGTGAGCTGAGCCACCCAGCCATCCTGGTCAGCCGGAACCTGTTCAGGCCCTCCCTGCCTGCACACAGCTGGGCGGAAGTGCAGGAGAGGCCCGGGCTCCGAGTGTTGGGTCGCCCCCTGTCTGATTTCTATGCCTACAGCCCCTTGAGGGAGCGAGACGCCTACTCCATCCTCCTGTCCCACATCTTCCACGGCCGGAAAGAATCCTTCATCACCACAGAGAACTTGCTGGCTTCCTGGGATTTCTGGACCCCGTTGCTGGACAGCCTGGCCCATGAGGTCCCGCGCCTCTACCCGGGGGGAGCAGACACCGGCTGTCTGTTGGACCTGGAGTTAAATGGGGGCCACCTGTCCTTCTCCCAGCAGCAGCCCGAGCAGCTGGTCCCAGGGCCGGGGTCGGCCCCCAAGCCCAGTGACTTCCAGGTCCTCAGGGCCAGGTACCGAGAGAGCCCGCTGATCTCGGCCTGGCCTGAGGAGCTGATCTCCAGGCTGGCCAGCGACATTGAGGCCTCTGCCCTGCAGGCCGTGCAGCACTTCGGCAAGTTCCACCTGGCGCTGTCGGGTGGCTCCAGCCCCATCGCCCTGTTCCAGCAGCTGGCCATGGGCCACTACAGCTTCCCCTGGGCCCACACACACCTCTGGCTGGTGGACGAGCGCTGCGTCCCGCTGTCGGACCCTGACTCCAACTTCCAGGGCCTGCAGGCTCACCTGCTGCAGCACATCCGCTTGCCCTACTACAATATCCACCCCATGCCGGTGCACCTGCACCAGCGGCTGTGCGCGGAAGAGGACCAGGGTGCCCAGACCTATGCCGGGGAGATCTCGGCCCTGGTGGCCAACAGCAGCTTCGACCTGGTGCTGCTGGGCATGGGCACCGATGGGCACACGGCCTCCCTCTTCCCGCAGTCGCCCACGGGCCTGGACGGCGAGCAGCTGGTGGTGCTGACGCAGAGCCCCTTCAGGCCGCACCAGCGCATGAGCCTCAGCCTGCCGCTCATCAACAGGGCCAAGAAGGTGGCCGTCCTGGTCATGGGCCGGACAAAGCGTGACATCACCATGCTGGTGAGCCGTGTGGGCCAGGAGCCCAGGAAGTGGCCCATCTCAGGCGTGCTTCCCAGCTCCGGCCAGCTGGTTTGGTACATGGACTACGAAGCCTTCCTGGGGTGA

XM_004863655.1 Coding sequence

H6pd hexose-6-phosphate dehydrogenase (glucose 1-dehydrogenase), transcript variant X1

Length: 2658 bp    Location: 3048501..3029187   Strand: -
>XM_004863655.1
ATGCTGCTATTGCCTAAGGAAGCCGCTTACTGCAGCGAGCCAGGCTCGGGGTTTGCCACTTCACAGTGCATTTCCTCCCAGTTTCTTCCTTTGCACACGCTGACTACTTGCTCAACACGGGGCTTATTATTTGACTCAGTTGTTTCAGAGGATTGGGTCAAGAAAACCAGCCAAGGCTGTTTGGAAATAAGCCATATGTGGACCTGCCCTGCACCTGCTGAATCACAGCTGCATTTTCTGGGTGATGTGAGTAGAGGACGGAGGACCAGGCACCCAGGCCTTTGGAAGATGCTCACGGTGGCCATGTGCGTGGCCCTCGTGGGCTGCCTGCAGGCCCAGGAGCTCCGGGGACACGTCTCCATCGTCCTGCTGGGAGCGACCGGGGACCTGGCTAAGAAGTACTTGTGGCAGGGACTGTTCCAGCTCTACCTGGACGAGGTGGGGAAGGACCATAGTTTTAGCTTCCATGGGGCTGCTCTGACGGCACCCGAGCAGGGCTGGAAGCTGATGGCCAAGGCCCTGGAATCCCTCTCCTGCCCCAGTGACATGGCACCTAGTCACTGTGCTGAACTCAAGGATCAGTTCCTGCGCCTGAGCCAGTACCGCCAGCTGAAGACAGCCGAAGACTATCGGACACTGAGCAAGGACATTGAGGCACAGGTCAAGCAAGAGGACCTCCGGGAGGCTGGCAGGATTTTCTACTTCTCCGTGCCACCCTTTGCCTATGTGGACATTGCCCGCAACATCAACAGCAGCTGCCGGCCAGGCCCGGGTGCCTGGCTGCGGGTTGTCTTTGAGAAACCCTTTGGCCATGACCACCTCTCTGCCCAGCAGCTGGCCACTGAACTTGGGAGCTTTTTCCAGGAGGAGGAGATGTACCGGGTGGACCATTACCTGGGCAAGCAGGCTGTGGCTCAGATCCTGCCCTTCCGAGACCAGAACCGCAAGGCCCTGGATGGCCTCTGGAACCGGCACCATGTGGAGCGGGTGGAGATCATCATGAAGGAGACCGTGGATGCAGAAGGTCGCATCAGCTTCTACGAGGAGTACGGCGTCATCCGAGATGTCCTGCAGAACCACCTGACCGAGATCCTCATGCTGGTGGCCATGGAGCTGCCGCTCAATGTCAGCAGCTCGGCGGCCGTGCTGCAGCACAAGCTCGAAGCCTTCCGTGGCCTGAGGGGCCTGAACAAGGGCAGCGCCGTGGTGGGCCAGTACCAGGCCTATAGCGCGCAGGCACGCAGGGAGCTGCAGAAGCCCGAGGGCTTCCACAGCCTGACTCCCACCTTCGCAGGTGTCCTCGTGCATGTGGACAGCCTGCGCTGGGAGGGTGTGCCCTTCACCCTGATGTCTGGCAAGGCCCTGGACGAGAGAGTGGGCTATGTGCGGGTCCTGTTCAAAAACCAGGCGTTCTGCATCCAGCACGAGAGGCACTGGGCCCCAGAGCAGAGCCCGTGTCTTCCCCGGCAGATCATCTTCCACATCGGACATGGTGAGCTGAGCCACCCAGCCATCCTGGTCAGCCGGAACCTGTTCAGGCCCTCCCTGCCTGCACACAGCTGGGCGGAAGTGCAGGAGAGGCCCGGGCTCCGAGTGTTGGGTCGCCCCCTGTCTGATTTCTATGCCTACAGCCCCTTGAGGGAGCGAGACGCCTACTCCATCCTCCTGTCCCACATCTTCCACGGCCGGAAAGAATCCTTCATCACCACAGAGAACTTGCTGGCTTCCTGGGATTTCTGGACCCCGTTGCTGGACAGCCTGGCCCATGAGGTCCCGCGCCTCTACCCGGGGGGAGCAGACACCGGCTGTCTGTTGGACCTGGAGTTAAATGGGGGCCACCTGTCCTTCTCCCAGCAGCAGCCCGAGCAGCTGGTCCCAGGGCCGGGGTCGGCCCCCAAGCCCAGTGACTTCCAGGTCCTCAGGGCCAGGTACCGAGAGAGCCCGCTGATCTCGGCCTGGCCTGAGGAGCTGATCTCCAGGCTGGCCAGCGACATTGAGGCCTCTGCCCTGCAGGCCGTGCAGCACTTCGGCAAGTTCCACCTGGCGCTGTCGGGTGGCTCCAGCCCCATCGCCCTGTTCCAGCAGCTGGCCATGGGCCACTACAGCTTCCCCTGGGCCCACACACACCTCTGGCTGGTGGACGAGCGCTGCGTCCCGCTGTCGGACCCTGACTCCAACTTCCAGGGCCTGCAGGCTCACCTGCTGCAGCACATCCGCTTGCCCTACTACAATATCCACCCCATGCCGGTGCACCTGCACCAGCGGCTGTGCGCGGAAGAGGACCAGGGTGCCCAGACCTATGCCGGGGAGATCTCGGCCCTGGTGGCCAACAGCAGCTTCGACCTGGTGCTGCTGGGCATGGGCACCGATGGGCACACGGCCTCCCTCTTCCCGCAGTCGCCCACGGGCCTGGACGGCGAGCAGCTGGTGGTGCTGACGCAGAGCCCCTTCAGGCCGCACCAGCGCATGAGCCTCAGCCTGCCGCTCATCAACAGGGCCAAGAAGGTGGCCGTCCTGGTCATGGGCCGGACAAAGCGTGACATCACCATGCTGGTGAGCCGTGTGGGCCAGGAGCCCAGGAAGTGGCCCATCTCAGGCGTGCTTCCCAGCTCCGGCCAGCTGGTTTGGTACATGGACTACGAAGCCTTCCTGGGGTGA

XM_004863658.1 Coding sequence

H6pd hexose-6-phosphate dehydrogenase (glucose 1-dehydrogenase), transcript variant X4

Length: 2472 bp    Location: 3048457..3029187   Strand: -
>XM_004863658.1
ATGCTGAGGTTCGAGCCTAGAACCTTTGCCCGGGCCACAACCCCGGACCCAGGATCCATGCTTAATCCCTACACTGAGCCCTTGCACCCAGGCCTTTGGAAGATGCTCACGGTGGCCATGTGCGTGGCCCTCGTGGGCTGCCTGCAGGCCCAGGAGCTCCGGGGACACGTCTCCATCGTCCTGCTGGGAGCGACCGGGGACCTGGCTAAGAAGTACTTGTGGCAGGGACTGTTCCAGCTCTACCTGGACGAGGTGGGGAAGGACCATAGTTTTAGCTTCCATGGGGCTGCTCTGACGGCACCCGAGCAGGGCTGGAAGCTGATGGCCAAGGCCCTGGAATCCCTCTCCTGCCCCAGTGACATGGCACCTAGTCACTGTGCTGAACTCAAGGATCAGTTCCTGCGCCTGAGCCAGTACCGCCAGCTGAAGACAGCCGAAGACTATCGGACACTGAGCAAGGACATTGAGGCACAGGTCAAGCAAGAGGACCTCCGGGAGGCTGGCAGGATTTTCTACTTCTCCGTGCCACCCTTTGCCTATGTGGACATTGCCCGCAACATCAACAGCAGCTGCCGGCCAGGCCCGGGTGCCTGGCTGCGGGTTGTCTTTGAGAAACCCTTTGGCCATGACCACCTCTCTGCCCAGCAGCTGGCCACTGAACTTGGGAGCTTTTTCCAGGAGGAGGAGATGTACCGGGTGGACCATTACCTGGGCAAGCAGGCTGTGGCTCAGATCCTGCCCTTCCGAGACCAGAACCGCAAGGCCCTGGATGGCCTCTGGAACCGGCACCATGTGGAGCGGGTGGAGATCATCATGAAGGAGACCGTGGATGCAGAAGGTCGCATCAGCTTCTACGAGGAGTACGGCGTCATCCGAGATGTCCTGCAGAACCACCTGACCGAGATCCTCATGCTGGTGGCCATGGAGCTGCCGCTCAATGTCAGCAGCTCGGCGGCCGTGCTGCAGCACAAGCTCGAAGCCTTCCGTGGCCTGAGGGGCCTGAACAAGGGCAGCGCCGTGGTGGGCCAGTACCAGGCCTATAGCGCGCAGGCACGCAGGGAGCTGCAGAAGCCCGAGGGCTTCCACAGCCTGACTCCCACCTTCGCAGGTGTCCTCGTGCATGTGGACAGCCTGCGCTGGGAGGGTGTGCCCTTCACCCTGATGTCTGGCAAGGCCCTGGACGAGAGAGTGGGCTATGTGCGGGTCCTGTTCAAAAACCAGGCGTTCTGCATCCAGCACGAGAGGCACTGGGCCCCAGAGCAGAGCCCGTGTCTTCCCCGGCAGATCATCTTCCACATCGGACATGGTGAGCTGAGCCACCCAGCCATCCTGGTCAGCCGGAACCTGTTCAGGCCCTCCCTGCCTGCACACAGCTGGGCGGAAGTGCAGGAGAGGCCCGGGCTCCGAGTGTTGGGTCGCCCCCTGTCTGATTTCTATGCCTACAGCCCCTTGAGGGAGCGAGACGCCTACTCCATCCTCCTGTCCCACATCTTCCACGGCCGGAAAGAATCCTTCATCACCACAGAGAACTTGCTGGCTTCCTGGGATTTCTGGACCCCGTTGCTGGACAGCCTGGCCCATGAGGTCCCGCGCCTCTACCCGGGGGGAGCAGACACCGGCTGTCTGTTGGACCTGGAGTTAAATGGGGGCCACCTGTCCTTCTCCCAGCAGCAGCCCGAGCAGCTGGTCCCAGGGCCGGGGTCGGCCCCCAAGCCCAGTGACTTCCAGGTCCTCAGGGCCAGGTACCGAGAGAGCCCGCTGATCTCGGCCTGGCCTGAGGAGCTGATCTCCAGGCTGGCCAGCGACATTGAGGCCTCTGCCCTGCAGGCCGTGCAGCACTTCGGCAAGTTCCACCTGGCGCTGTCGGGTGGCTCCAGCCCCATCGCCCTGTTCCAGCAGCTGGCCATGGGCCACTACAGCTTCCCCTGGGCCCACACACACCTCTGGCTGGTGGACGAGCGCTGCGTCCCGCTGTCGGACCCTGACTCCAACTTCCAGGGCCTGCAGGCTCACCTGCTGCAGCACATCCGCTTGCCCTACTACAATATCCACCCCATGCCGGTGCACCTGCACCAGCGGCTGTGCGCGGAAGAGGACCAGGGTGCCCAGACCTATGCCGGGGAGATCTCGGCCCTGGTGGCCAACAGCAGCTTCGACCTGGTGCTGCTGGGCATGGGCACCGATGGGCACACGGCCTCCCTCTTCCCGCAGTCGCCCACGGGCCTGGACGGCGAGCAGCTGGTGGTGCTGACGCAGAGCCCCTTCAGGCCGCACCAGCGCATGAGCCTCAGCCTGCCGCTCATCAACAGGGCCAAGAAGGTGGCCGTCCTGGTCATGGGCCGGACAAAGCGTGACATCACCATGCTGGTGAGCCGTGTGGGCCAGGAGCCCAGGAAGTGGCCCATCTCAGGCGTGCTTCCCAGCTCCGGCCAGCTGGTTTGGTACATGGACTACGAAGCCTTCCTGGGGTGA

XM_004863657.1 Coding sequence

H6pd hexose-6-phosphate dehydrogenase (glucose 1-dehydrogenase), transcript variant X3

Length: 2478 bp    Location: 3046339..3029187   Strand: -
>XM_004863657.1
ATGGCAGTGCTGAGGTTCGAGCCTAGAACCTTTGCCCGGGCCACAACCCCGGACCCAGGATCCATGCTTAATCCCTACACTGAGCCCTTGCACCCAGGCCTTTGGAAGATGCTCACGGTGGCCATGTGCGTGGCCCTCGTGGGCTGCCTGCAGGCCCAGGAGCTCCGGGGACACGTCTCCATCGTCCTGCTGGGAGCGACCGGGGACCTGGCTAAGAAGTACTTGTGGCAGGGACTGTTCCAGCTCTACCTGGACGAGGTGGGGAAGGACCATAGTTTTAGCTTCCATGGGGCTGCTCTGACGGCACCCGAGCAGGGCTGGAAGCTGATGGCCAAGGCCCTGGAATCCCTCTCCTGCCCCAGTGACATGGCACCTAGTCACTGTGCTGAACTCAAGGATCAGTTCCTGCGCCTGAGCCAGTACCGCCAGCTGAAGACAGCCGAAGACTATCGGACACTGAGCAAGGACATTGAGGCACAGGTCAAGCAAGAGGACCTCCGGGAGGCTGGCAGGATTTTCTACTTCTCCGTGCCACCCTTTGCCTATGTGGACATTGCCCGCAACATCAACAGCAGCTGCCGGCCAGGCCCGGGTGCCTGGCTGCGGGTTGTCTTTGAGAAACCCTTTGGCCATGACCACCTCTCTGCCCAGCAGCTGGCCACTGAACTTGGGAGCTTTTTCCAGGAGGAGGAGATGTACCGGGTGGACCATTACCTGGGCAAGCAGGCTGTGGCTCAGATCCTGCCCTTCCGAGACCAGAACCGCAAGGCCCTGGATGGCCTCTGGAACCGGCACCATGTGGAGCGGGTGGAGATCATCATGAAGGAGACCGTGGATGCAGAAGGTCGCATCAGCTTCTACGAGGAGTACGGCGTCATCCGAGATGTCCTGCAGAACCACCTGACCGAGATCCTCATGCTGGTGGCCATGGAGCTGCCGCTCAATGTCAGCAGCTCGGCGGCCGTGCTGCAGCACAAGCTCGAAGCCTTCCGTGGCCTGAGGGGCCTGAACAAGGGCAGCGCCGTGGTGGGCCAGTACCAGGCCTATAGCGCGCAGGCACGCAGGGAGCTGCAGAAGCCCGAGGGCTTCCACAGCCTGACTCCCACCTTCGCAGGTGTCCTCGTGCATGTGGACAGCCTGCGCTGGGAGGGTGTGCCCTTCACCCTGATGTCTGGCAAGGCCCTGGACGAGAGAGTGGGCTATGTGCGGGTCCTGTTCAAAAACCAGGCGTTCTGCATCCAGCACGAGAGGCACTGGGCCCCAGAGCAGAGCCCGTGTCTTCCCCGGCAGATCATCTTCCACATCGGACATGGTGAGCTGAGCCACCCAGCCATCCTGGTCAGCCGGAACCTGTTCAGGCCCTCCCTGCCTGCACACAGCTGGGCGGAAGTGCAGGAGAGGCCCGGGCTCCGAGTGTTGGGTCGCCCCCTGTCTGATTTCTATGCCTACAGCCCCTTGAGGGAGCGAGACGCCTACTCCATCCTCCTGTCCCACATCTTCCACGGCCGGAAAGAATCCTTCATCACCACAGAGAACTTGCTGGCTTCCTGGGATTTCTGGACCCCGTTGCTGGACAGCCTGGCCCATGAGGTCCCGCGCCTCTACCCGGGGGGAGCAGACACCGGCTGTCTGTTGGACCTGGAGTTAAATGGGGGCCACCTGTCCTTCTCCCAGCAGCAGCCCGAGCAGCTGGTCCCAGGGCCGGGGTCGGCCCCCAAGCCCAGTGACTTCCAGGTCCTCAGGGCCAGGTACCGAGAGAGCCCGCTGATCTCGGCCTGGCCTGAGGAGCTGATCTCCAGGCTGGCCAGCGACATTGAGGCCTCTGCCCTGCAGGCCGTGCAGCACTTCGGCAAGTTCCACCTGGCGCTGTCGGGTGGCTCCAGCCCCATCGCCCTGTTCCAGCAGCTGGCCATGGGCCACTACAGCTTCCCCTGGGCCCACACACACCTCTGGCTGGTGGACGAGCGCTGCGTCCCGCTGTCGGACCCTGACTCCAACTTCCAGGGCCTGCAGGCTCACCTGCTGCAGCACATCCGCTTGCCCTACTACAATATCCACCCCATGCCGGTGCACCTGCACCAGCGGCTGTGCGCGGAAGAGGACCAGGGTGCCCAGACCTATGCCGGGGAGATCTCGGCCCTGGTGGCCAACAGCAGCTTCGACCTGGTGCTGCTGGGCATGGGCACCGATGGGCACACGGCCTCCCTCTTCCCGCAGTCGCCCACGGGCCTGGACGGCGAGCAGCTGGTGGTGCTGACGCAGAGCCCCTTCAGGCCGCACCAGCGCATGAGCCTCAGCCTGCCGCTCATCAACAGGGCCAAGAAGGTGGCCGTCCTGGTCATGGGCCGGACAAAGCGTGACATCACCATGCTGGTGAGCCGTGTGGGCCAGGAGCCCAGGAAGTGGCCCATCTCAGGCGTGCTTCCCAGCTCCGGCCAGCTGGTTTGGTACATGGACTACGAAGCCTTCCTGGGGTGA

XM_004863568.1 Coding sequence

Agtrap angiotensin II receptor-associated protein, transcript variant X2

High confidence: 4 potential gene matches
Length: 471 bp    Location: 1239951..1226878   Strand: -
>XM_004863568.1
ATGGAGCTTCCGGCCGTGAACCTCAAGGTGATTCTCCTGGTTCACTGGCTGCTGACAACCTGGGGCAGCATCCTGTTTGAGGGCCCCTACTCCTGGGCCAACTTCACCATCCTGGCCTTGGGCGTGTGGTCTGTGGCTCAGCCGGACTCCGTGGACGCAATAAGCATGTTTCTGGGGGGCCTGCTGGCCACCATCTTGCTGGATATCATCCACATCAGCATCTTCTACCCACGGAACACCATCTCGGACACGAGTCGCTTCAGCGCCGGCATGGCCATCCTCAGCCTACTGCTCAAGCCATTCTCCTGCTACTTGGTGCACCACATGTACTGTGAGCGTGGGGGTGAGCTCCACTTCCACTCCGACTTCCTTAGGCCTTCTCAGGAACGCAGTGCCTACCAGACGATTGACTCCACGGAGGAGCCTGCAGACCCCTTCGCAGGCCGGGAGGCCAGGGGTCCAGATGCCTGA

XM_004863607.1 Coding sequence

LOC101702498 centromere protein S-like, transcript variant X1

Length: 651 bp    Location: 2256863..2244114   Strand: -
>XM_004863607.1
ATGGAGGAGGAGACGGAGGCCGAGGAACAGGAGCGATTCTCTTACCAGCAGAGGCTCAAGGCAGCAGTCCACTACACGGTCGGCTGTCTGTGCCAGGAAGTCGAAGCGGACAAAGAGGTGCAGTTCAGCAAGCAAACCATCGCAGCAATTTCGGAGATGACCTTCCAGCAGTGTGAAAATTTTGCCAGAGACCTTGAAATGTTTGCCAGACATGCTAAAAGAAGCACGATTAACACTGAAGATGTGAAGCTCTTGGCCAGGAGGAGTAATTCACTGAGCCGGCTCAGAGCACTGATGCCAGGGCTGCCCACGATGGATGGCGCCCAAGCCCGAGGGACGCAGCAGCTGCTGCTGCTGCTGCTGCTGCTGCTCTGGGGGGCCACAGCCACCGCCCTGGCCCTGGAAGGCGGCCCTGCCAGCCAGGACCGTGTGCATATGCAGGAGATGGCAGAAATAAAGAAAGACAGCCTCCTGACTTTGCTCACGTGGTGGGATGAGTGGACCTCCCAGGCCAGTACTGGGGACCTCGTCGGGGGGCACAGCAGAAAGGTGGCCAAGCGACAGGAAGGCGCACCCCTCCAACAGCCCCCTCGCCGAGACAAAACACGCTGTAAAAACTTCTTCTGGAAGACCTTCTCCTCCTGCAAATAG

XM_004863642.1 Coding sequence

LOC101710659 beta-catenin-interacting protein 1-like, transcript variant X6

Length: 246 bp    Location: 2621993..2666645   Strand: +
>XM_004863642.1
ATGAACCGTGAGGGCGCGCCCGGGAAGAGTCCGGAGGAGATGTACATCCAGCAGAAGGTCCGCGTGCTGCTCATGCTGAGGAAGATGGGGTCGAACCTCACGGCCAGCGAGGAGGAGTTCCTGCGTACCTACGCGGGGGTGGTCAGCAGCCAGCTCAGCCAGCTGCCCCAGCATGCCATTGACCAGGGTGCAGAGGACGTGGTGACGGCCTTCTCCAGGTCAGAGACAGAGGACCGGAGGCAGTAG

XM_004863641.1 Coding sequence

LOC101710659 beta-catenin-interacting protein 1-like, transcript variant X5

Length: 246 bp    Location: 2621993..2666645   Strand: +
>XM_004863641.1
ATGAACCGTGAGGGCGCGCCCGGGAAGAGTCCGGAGGAGATGTACATCCAGCAGAAGGTCCGCGTGCTGCTCATGCTGAGGAAGATGGGGTCGAACCTCACGGCCAGCGAGGAGGAGTTCCTGCGTACCTACGCGGGGGTGGTCAGCAGCCAGCTCAGCCAGCTGCCCCAGCATGCCATTGACCAGGGTGCAGAGGACGTGGTGACGGCCTTCTCCAGGTCAGAGACAGAGGACCGGAGGCAGTAG

XM_004863632.1 Coding sequence

Nmnat1 nicotinamide nucleotide adenylyltransferase 1, transcript variant X2

Length: 816 bp    Location: 2591379..2575815   Strand: -
>XM_004863632.1
ATGGACAAAGTGGAGAAGACAGAAGTGGTTCTCCTGGCATGTGGCTCCTTTAACCCCATCACCAACATGCACCTCAGGCTGTTCGAGCTGGCCAAGGACTACATGGACGGAACAGGAAAATACAGAGTGATCAAAGGCATCATTTCACCCGTGGGCGACGCGTATAAGAAGAAGGGACTCATCCCAGCACACCACCGGGTCATCATGGCGGAGCTGGCCACCAAGACCTCCTGCTGGGTGGAGGTGGACACGTGGGAGAGCCTGCAGAAGGAACACCATCAAGAGAAGCTGGAGGCTGGCCACTATAATCAGCAGCAGAACTCCCCTGTGCAGGAAAAGCCTGGCCGGAAGCGGAAGTGGACTGAACAAAGACAAAATTCCACTCAAAAGAAACCCCCGGAGCCAAACCCAAAAGGTGTGCCCAAGGTGAAGCTGCTGTGCGGGGCGGACATGCTGGAGTCCTTTGGGGTGCCCAGCCTCTGGAAGAGCGAGGATGTCACGCACATCGTGGCGGACTACGGGCTCATCTGTGTCACCCGGGCCGGCAGCAATGCTCAGAAGTTCATCTACGAATCGGACGTGCTGTGGCAGCATCAGGGCAACATCCACCTGGTGACCGAGTGGATCTCCAACGACATCTCCTCTACCAAGATCCGAAGGGCACTGCGCCGTGGCCAGAGCATCCGCTACCTGGTGCCGGACCTGGTGCAGGACTACATCCAGAAGCACGACCTCTACAGCACTGAGAGCGAGGATAGGAACCTGGGGGTGACCCTGGCGCCCCTGCAGCGAAACACCGGGGAGGCCGAGTCCTAG

XM_004863578.1 Coding sequence

Fbxo6 F-box protein 6, transcript variant X1

Length: 852 bp    Location: 1292562..1286820   Strand: -
>XM_004863578.1
ATGGACCCCATCGGCATCAACGAGCTGCCCGAGAACATCCTGCTGGAGCTCTTCATGCACGTGCCTGCCCGCCAGCTGCTGCTGCGCTGTCGTCTGGTCTGCAGCCTCTGGCGGGACCTCATCGACCTCATGACCCTCTGGAAGCGCAGGTGCCTCCTCGAGGGCTTCATCACCGAGGACTGGGACCAGCCTGTGGCCGACTGGAAGGTCTTCTACTTCCTGTGCAGCCTCCGAAGGAACCTCCTGCACAACCCCTGTGCTGAAGAGAACATGGAATCCTGGGAACTTGACGCCAACCAGGGGAACCAGTGGAAGGTGGAGAGGCTCCCTGGGGACCATGGCACAGACTTTCCTGACCCCAAAGTCAAGAAGTACTTTGTCACCTCCTATGGGCTGTGCCTCAAGTCCCAGATGGTGGACCTCAAGGCTGAGGGCTACTGGGAGGAGCTGCTGGACACGTTTCGGCCCGACATCGAGGTGAAGGACTGGTTCGCCGCCAGAAGAGACTGCGGCTGCACCTACCAGATACGAGTCCAGCTGGTTTCAGCCGACTACATCACCCTGGCCTCCTTCGAGCCCCCGCCTGTGACCATCCAGCAATGGAACGATGCCTCGTGGACAGAGGTCTCCCACACCTTCTCAGACTACCCTCCAGGCGTCCGCCACATCCTCTTCCAGCACGGGGGCCACGACACCCAGTTCTGGGCAGGCTGGTATGGGCCCAGGGTCACCAACAGTAGCATCATTGTTAGCAACAAGATGGCCAGGAAGCCAGCCCCATCTGCCGCGGTGTCTGACAATGTAGGGGTGGAGGAAGCTGCCCAGGTGCCTTCTCACCTGTCTGCCCGATGA

XM_004863612.1 Coding sequence

LOC101702498 centromere protein S-like, transcript variant X6

Length: 495 bp    Location: 2256434..2244114   Strand: -
>XM_004863612.1
ATGACCTTCCAGCAGTGTGAAAATTTTGCCAGAGACCTTGAAATGTTTGCCAGACATGCTAAAAGAAGCACGATTAACACTGAAGATGTGAAGCTCTTGGCCAGGAGGAGTAATTCACTGAGCCGGCTCAGAGCACTGATGCCAGGGCTGCCCACGATGGATGGCGCCCAAGCCCGAGGGACGCAGCAGCTGCTGCTGCTGCTGCTGCTGCTGCTCTGGGGGGCCACAGCCACCGCCCTGGCCCTGGAAGGCGGCCCTGCCAGCCAGGACCGTGTGCATATGCAGGAGATGGCAGAAATAAAGAAAGACAGCCTCCTGACTTTGCTCACGTGGTGGGATGAGTGGACCTCCCAGGCCAGTACTGGGGACCTCGTCGGGGGGCACAGCAGAAAGGTGGCCAAGCGACAGGAAGGCGCACCCCTCCAACAGCCCCCTCGCCGAGACAAAACACGCTGTAAAAACTTCTTCTGGAAGACCTTCTCCTCCTGCAAATAG

XM_004863611.1 Coding sequence

LOC101702498 centromere protein S-like, transcript variant X5

Length: 495 bp    Location: 2256434..2244114   Strand: -
>XM_004863611.1
ATGACCTTCCAGCAGTGTGAAAATTTTGCCAGAGACCTTGAAATGTTTGCCAGACATGCTAAAAGAAGCACGATTAACACTGAAGATGTGAAGCTCTTGGCCAGGAGGAGTAATTCACTGAGCCGGCTCAGAGCACTGATGCCAGGGCTGCCCACGATGGATGGCGCCCAAGCCCGAGGGACGCAGCAGCTGCTGCTGCTGCTGCTGCTGCTGCTCTGGGGGGCCACAGCCACCGCCCTGGCCCTGGAAGGCGGCCCTGCCAGCCAGGACCGTGTGCATATGCAGGAGATGGCAGAAATAAAGAAAGACAGCCTCCTGACTTTGCTCACGTGGTGGGATGAGTGGACCTCCCAGGCCAGTACTGGGGACCTCGTCGGGGGGCACAGCAGAAAGGTGGCCAAGCGACAGGAAGGCGCACCCCTCCAACAGCCCCCTCGCCGAGACAAAACACGCTGTAAAAACTTCTTCTGGAAGACCTTCTCCTCCTGCAAATAG

XM_004863610.1 Coding sequence

LOC101702498 centromere protein S-like, transcript variant X4

Length: 495 bp    Location: 2256434..2244114   Strand: -
>XM_004863610.1
ATGACCTTCCAGCAGTGTGAAAATTTTGCCAGAGACCTTGAAATGTTTGCCAGACATGCTAAAAGAAGCACGATTAACACTGAAGATGTGAAGCTCTTGGCCAGGAGGAGTAATTCACTGAGCCGGCTCAGAGCACTGATGCCAGGGCTGCCCACGATGGATGGCGCCCAAGCCCGAGGGACGCAGCAGCTGCTGCTGCTGCTGCTGCTGCTGCTCTGGGGGGCCACAGCCACCGCCCTGGCCCTGGAAGGCGGCCCTGCCAGCCAGGACCGTGTGCATATGCAGGAGATGGCAGAAATAAAGAAAGACAGCCTCCTGACTTTGCTCACGTGGTGGGATGAGTGGACCTCCCAGGCCAGTACTGGGGACCTCGTCGGGGGGCACAGCAGAAAGGTGGCCAAGCGACAGGAAGGCGCACCCCTCCAACAGCCCCCTCGCCGAGACAAAACACGCTGTAAAAACTTCTTCTGGAAGACCTTCTCCTCCTGCAAATAG

XM_004863613.1 Coding sequence

LOC101702498 centromere protein S-like, transcript variant X7

Length: 495 bp    Location: 2254401..2244114   Strand: -
>XM_004863613.1
ATGACCTTCCAGCAGTGTGAAAATTTTGCCAGAGACCTTGAAATGTTTGCCAGACATGCTAAAAGAAGCACGATTAACACTGAAGATGTGAAGCTCTTGGCCAGGAGGAGTAATTCACTGAGCCGGCTCAGAGCACTGATGCCAGGGCTGCCCACGATGGATGGCGCCCAAGCCCGAGGGACGCAGCAGCTGCTGCTGCTGCTGCTGCTGCTGCTCTGGGGGGCCACAGCCACCGCCCTGGCCCTGGAAGGCGGCCCTGCCAGCCAGGACCGTGTGCATATGCAGGAGATGGCAGAAATAAAGAAAGACAGCCTCCTGACTTTGCTCACGTGGTGGGATGAGTGGACCTCCCAGGCCAGTACTGGGGACCTCGTCGGGGGGCACAGCAGAAAGGTGGCCAAGCGACAGGAAGGCGCACCCCTCCAACAGCCCCCTCGCCGAGACAAAACACGCTGTAAAAACTTCTTCTGGAAGACCTTCTCCTCCTGCAAATAG

XM_004863615.1 Coding sequence

LOC101702498 centromere protein S-like, transcript variant X9

Length: 234 bp    Location: 2256847..2244293   Strand: -
>XM_004863615.1
ATGGAGGAGGAGACGGAGGCCGAGGAACAGGAGCGATTCTCTTACCAGCAGAGGCTCAAGGCAGCAGTCCACTACACGGTCGGCTGTCTGTGCCAGGAAGTCGAAGCGGACAAAGAGGTGCAGTTCAGCAAGCAAACCATCGCAGCAATTTCGGAGATGACCTTCCAGCAGTGTGAAAATTTTGCCAGAGACCTTGAAATGTTTGCCAGCATATGCAGGAGATGGCAGAAATAA

XM_004863614.1 Coding sequence

LOC101702498 centromere protein S-like, transcript variant X8

Length: 417 bp    Location: 2256844..2249369   Strand: -
>XM_004863614.1
ATGGAGGAGGAGACGGAGGCCGAGGAACAGGAGCGATTCTCTTACCAGCAGAGGCTCAAGGCAGCAGTCCACTACACGGTCGGCTGTCTGTGCCAGGAAGTCGAAGCGGACAAAGAGGTGCAGTTCAGCAAGCAAACCATCGCAGCAATTTCGGAGATGACCTTCCAGCAGTGTGAAAATTTTGCCAGAGACCTTGAAATGTTTGCCAGACATGCTAAAAGAAGCACGATTAACACTGAAGATGTGAAGCTCTTGGCCAGGAGGAGTAATTCACTGCTGAAATACATCACAGAGAAAAATGAAGAGCTTGCTCAGCTGAACCAAGAGCGAAAGGCAAAAAAGAAAAAGAAGCCAGAGGATGGAAACCAGAATTCCAGGGAGCCAGCGGAGGCTGAAGTAGGGGAAGATAAGAGTTAG

XM_004863617.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X2

Length: 5475 bp    Location: 2428563..2282999   Strand: -
>XM_004863617.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGGATAACTGCACCAGCAAGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATATTGATCCATTGATTGATGATTACTCTGGAAGTGGAGGCAAATATCTGAAAGATTTTCAGAACAATAAGCATAGATACTTGCTAGCCTCTGAGAATCAACGCCCTGGCAATTTCTCCACAGCATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACTATGAGAGTAAATTGCAGGCCTTGCAGAAGCAGGTTGAGACCCGATCCCTGGCTGCCGAAACAACTGAAGAGGAAGAAGAGGAGGAAGAAGTTCCGTGGACACAGCATGAATTTGATTTGGCTCAGTGGGCCTTCCGCAAGTGGAAGTCTCACCAATTTACTTCATTGCGGGACTTACTCTGGGGCAATGCTGTGTACCTGAAGGAGGCCAATGCCATCAGTGTGGAGCTGAAGAAGAAGGTGCAGTTCCAGTTTGTTCTTCTGACTGACACACTGTACTCCCCTTTGCCACCTGAACTGCTTCCCACTGACGTGGAAAAGATTCACGAGGATAGGCCTTTCCCTCGCACAGTGGTGGCAGTAGAAGTTCAGGATCTGAAGAATGGAGCAACGCATTATTGGTCTTTGGAGAAACTTAAACAGAGGCTGGATTTGATGCGAGAGATGTATGACAGGGCAGGTGAGATGGCCTCCAACGCCCAAGACGAAAGCGAAGCCACCATGACGGGCAGCGATCCATTCTACGATCGGTTCCACTGGTTCAAACTTGTGGGAAGCTCCCCCATTTTCCACGGCTGTGTGAATGAGCGCCTTGCCGACCGCACACCCTCCCCTACTTTTTCCACGGCCGACTCCGACATCACTGAGCTGGCTGACGAGCAGCAAGATGAGATGGAGGATTTTGATGATGAGGCATTCGTGGATGACACCGGCTCTGACGCAGGGACGGAGGAGGGATCAGATCTCTTCAGTGATGGGCGTGACCCGTTTTACGACCGGTCCCCTTGGTTCATTTTGGTGGGAAGGGCATTTGTGTACCTGAGCAATCTGCTCTACCCCGTGCCCCTGATCCACAGGGTGGCCATCGTCAGCGAGAAGGGGGAGGTGCGGGGATTTCTGCGTGTGGCCGTCCAGGCCATTGCAGCGGATGAAGAAGCTCCGGATTATGGCTCTGGAATTCGACAGTCAGGAACAGCTAAAATATCTTTTGATAACGAATACTTTTATCAGAGTGACTTTTCCTCAGTTGCAATGACTCGTTCTGGTCTGTCCTTGGAGGAGCTGAGGATTGTGGAAGGACAGGGTCAGAGTTCTGAGGTCATCACTCCTCCAGAGGAAATCAGCCGAATGAATGATCGGGATTTGAAGTCAGGCACTTTGCTGGATGGTAAGATGGTGATGGAAGGGTTTTCCGAAGAGATTGGCAACCACCTGAAACTGGGCAGTGCCTTTACCTTTCGAGTAACAGTGTTGCAGGCCAGCGGGATCCTCCCCGAGTATGCGGATATCTTCTGTCAGTTCAACTTCTTGCATCGCCATGATGAAGCGTTCTCCACTGAACCCCTCAAAAACAACGGCAGAGGAAGTCCCCTGGGCTTTTATCATGTGCAGAATATTGCGGTGGAGGTCACAGAGTCATTTGTGGACTATATCAAAACCAAGCCTATTGTATTTGAAGTCTTTGGGCATTATCAGCAGCACCCACTTCATCTGCAAGGACAGGACCTTAGCAGAAATTTATCTTTCTCTCCTTGCAGTCCGCCTCAGCCTTCTCGACGATTCTTCCCTCCACCCATGCCACTCTCCAAGCCAGTTCCAGCCACCAAGTTAAACACCATGAGCAAAACCAGCCTCGGCCAAAGCATGAGCAAGTATGACCTCCTGGTTTGGTTTGAGATCAGTGAACTGGAGCCTACAGGAGAGTACATCCCGGCTGTGGTTGACCATACTGCAGGGTTACCCTGCCAGGGGACGTTTCTGCTTCACCAGGGCATCCAGCGAAGGATCACAGTGACCATCATCCACGAGAAGGGGAGTGAGCTGCACTGGAAAGACGTCCGGGAGCTGGTGGTAGGCCGGATTAGAAATAAGCCCGAGGTGGATGAAGCTGCAGTCGATGCCATCCTCTCCCTAAATATCATCTCTGCCAAGTACCTGAAGTCTTCGCACAACTCCAGCAGAACCTTCTACCGTTTCGAGGCCGTGTGGGACAGCTCCCTCCATAACTCCCTTCTCCTGAACCGAGTGACGCCCTACGGAGAGAAGATCTACATGACCCTGTCCGCCTACCTGGAGCTGGACCACTGCATCCAGCCTGCGGTCATCACCAAGGACGTGTGCATGGTCTTCTATTCCCGAGACGCCAAGATCTCGCCGCCACGCTCTCTGCGCAGCCTCTTTGGCAGTGGCTACTCCAAGTCACCAGACTCGAATCGAGTCACTGGGATTTATGAACTCAGCTTATGCAAAATGGCAGACACAGGTAGCCCAGGCATGCAGAGGCGGCGGAGGAGAGTGCTGGACACATCAGCGGCCTATGTGCGCGGTGAGGAAAACCTGGCCGGCTGGCGGCCCCGCGGGGACAGCCTCATCTTGGAGCACCAGTGGGAGCTGGACAAGCTGGAGCTGCTGCACGAGGTGGAGAAAACGCGCCACTTCCTGCTGCTGCGTGAGAGACTTGGTGACAGCATCCCCAAATCCCTGAGTGACTCATTGTCCCCCAGCCTCAGCAGTGGGACCCTCAGCACCTCCACCAGCATCTCCTCTCAAATCTCAACCACCACCTTCGAAAGCGCCATCACCCCCAGCGAGAGCAGCGGGTATGACTCGGCAGACATCGAGAGCCTGGTGGATCGCGAGAAAGAGCTGGCCACCAAGTGCCTGCAGCTCCTCACCCACACTTTCAACCGGGAGTTCAGCCAGGTGCACAGCAGCATCAGCGACTGCAAGTTGTCTGACATCTCTCCAATGGGACGCAACCCTTCCGTGTCCAGTTTCAGCAGTGCCACCCTCACCCCGTCCTCCACATGCCCCTCTCTGGTCGACTCCAGGAGCAACTCTGTGGATCAGAAGACCCCAGAAGCCAATTCCCGGGCCTCCAGTCCCTGCACAGAATTTGAACAGTTTCAGATCATCCCAGCTGTAGAGACACCCTATTTGGCCCGAGCAGGAAAACATGAATTTCTCAATCTCGTTCCAGATATTGAAGAAATCCGACCAGGCTCAGTGGTCTCTAAGAAAGGATACCTGCATTTCAAGGAGCCGCTTTCCAGCAGCTGGGCCAAGCATTTTGTTGTGGTCCGTCGCCCTTACGTCTTCATCTACAACAGTGACAAGGACCCAGTGGAACGTGGCATCATTAACCTGTCCACGGCACAGGTGGAGTACAGTGAGGACCGGCAGGCTATGGTGAAGACACCTAACACCTTCGCTGTGTCCACAAAGCATCGAAGGGTCCTTCTGCAGGCTGTCAATGACAAGGACATGAATGACTGGTTATATGCCTTTAACCCCCTCCTTGCTGGCACAATACGGTCAAAGCTGTCCCGGAGATGCCTGAGCCAGCCCAAGTACTGA

XM_004863624.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X9

Length: 5313 bp    Location: 2428563..2282999   Strand: -
>XM_004863624.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATACATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACTATGAGAGTAAATTGCAGGCCTTGCAGAAGCAGGTTGAGACCCGATCCCTGGCTGCCGAAACAACTGAAGAGGAAGAAGAGGAGGAAGAAGTTCCGTGGACACAGCATGAATTTGATTTGGCTCAGTGGGCCTTCCGCAAGTGGAAGTCTCACCAATTTACTTCATTGCGGGACTTACTCTGGGGCAATGCTGTGTACCTGAAGGAGGCCAATGCCATCAGTGTGGAGCTGAAGAAGAAGGTGCAGTTCCAGTTTGTTCTTCTGACTGACACACTGTACTCCCCTTTGCCACCTGAACTGCTTCCCACTGACGTGGAAAAGATTCACGAGGATAGGCCTTTCCCTCGCACAGTGGTGGCAGTAGAAGTTCAGGATCTGAAGAATGGAGCAACGCATTATTGGTCTTTGGAGAAACTTAAACAGAGGCTGGATTTGATGCGAGAGATGTATGACAGGGCAGGTGAGATGGCCTCCAACGCCCAAGACGAAAGCGAAGCCACCATGACGGGCAGCGATCCATTCTACGATCGGTTCCACTGGTTCAAACTTGTGGGAAGCTCCCCCATTTTCCACGGCTGTGTGAATGAGCGCCTTGCCGACCGCACACCCTCCCCTACTTTTTCCACGGCCGACTCCGACATCACTGAGCTGGCTGACGAGCAGCAAGATGAGATGGAGGATTTTGATGATGAGGCATTCGTGGATGACACCGGCTCTGACGCAGGGACGGAGGAGGGATCAGATCTCTTCAGTGATGGGCGTGACCCGTTTTACGACCGGTCCCCTTGGTTCATTTTGGTGGGAAGGGCATTTGTGTACCTGAGCAATCTGCTCTACCCCGTGCCCCTGATCCACAGGGTGGCCATCGTCAGCGAGAAGGGGGAGGTGCGGGGATTTCTGCGTGTGGCCGTCCAGGCCATTGCAGCGGATGAAGAAGCTCCGGATTATGGCTCTGGAATTCGACAGTCAGGAACAGCTAAAATATCTTTTGATAACGAATACTTTTATCAGAGTGACTTTTCCTCAGTTGCAATGACTCGTTCTGGTCTGTCCTTGGAGGAGCTGAGGATTGTGGAAGGACAGGGTCAGAGTTCTGAGGTCATCACTCCTCCAGAGGAAATCAGCCGAATGAATGATCGGGATTTGAAGTCAGGCACTTTGCTGGATGGTAAGATGGTGATGGAAGGGTTTTCCGAAGAGATTGGCAACCACCTGAAACTGGGCAGTGCCTTTACCTTTCGAGTAACAGTGTTGCAGGCCAGCGGGATCCTCCCCGAGTATGCGGATATCTTCTGTCAGTTCAACTTCTTGCATCGCCATGATGAAGCGTTCTCCACTGAACCCCTCAAAAACAACGGCAGAGGAAGTCCCCTGGGCTTTTATCATGTGCAGAATATTGCGGTGGAGGTCACAGAGTCATTTGTGGACTATATCAAAACCAAGCCTATTGTATTTGAAGTCTTTGGGCATTATCAGCAGCACCCACTTCATCTGCAAGGACAGGACCTTAGCAGTCCGCCTCAGCCTTCTCGACGATTCTTCCCTCCACCCATGCCACTCTCCAAGCCAGTTCCAGCCACCAAGTTAAACACCATGAGCAAAACCAGCCTCGGCCAAAGCATGAGCAAGTATGACCTCCTGGTTTGGTTTGAGATCAGTGAACTGGAGCCTACAGGAGAGTACATCCCGGCTGTGGTTGACCATACTGCAGGGTTACCCTGCCAGGGGACGTTTCTGCTTCACCAGGGCATCCAGCGAAGGATCACAGTGACCATCATCCACGAGAAGGGGAGTGAGCTGCACTGGAAAGACGTCCGGGAGCTGGTGGTAGGCCGGATTAGAAATAAGCCCGAGGTGGATGAAGCTGCAGTCGATGCCATCCTCTCCCTAAATATCATCTCTGCCAAGTACCTGAAGTCTTCGCACAACTCCAGCAGAACCTTCTACCGTTTCGAGGCCGTGTGGGACAGCTCCCTCCATAACTCCCTTCTCCTGAACCGAGTGACGCCCTACGGAGAGAAGATCTACATGACCCTGTCCGCCTACCTGGAGCTGGACCACTGCATCCAGCCTGCGGTCATCACCAAGGACGTGTGCATGGTCTTCTATTCCCGAGACGCCAAGATCTCGCCGCCACGCTCTCTGCGCAGCCTCTTTGGCAGTGGCTACTCCAAGTCACCAGACTCGAATCGAGTCACTGGGATTTATGAACTCAGCTTATGCAAAATGGCAGACACAGGTAGCCCAGGCATGCAGAGGCGGCGGAGGAGAGTGCTGGACACATCAGCGGCCTATGTGCGCGGTGAGGAAAACCTGGCCGGCTGGCGGCCCCGCGGGGACAGCCTCATCTTGGAGCACCAGTGGGAGCTGGACAAGCTGGAGCTGCTGCACGAGGTGGAGAAAACGCGCCACTTCCTGCTGCTGCGTGAGAGACTTGGTGACAGCATCCCCAAATCCCTGAGTGACTCATTGTCCCCCAGCCTCAGCAGTGGGACCCTCAGCACCTCCACCAGCATCTCCTCTCAAATCTCAACCACCACCTTCGAAAGCGCCATCACCCCCAGCGAGAGCAGCGGGTATGACTCGGCAGACATCGAGAGCCTGGTGGATCGCGAGAAAGAGCTGGCCACCAAGTGCCTGCAGCTCCTCACCCACACTTTCAACCGGGAGTTCAGCCAGGTGCACAGCAGCATCAGCGACTGCAAGTTGTCTGACATCTCTCCAATGGGACGCAACCCTTCCGTGTCCAGTTTCAGCAGTGCCACCCTCACCCCGTCCTCCACATGCCCCTCTCTGGTCGACTCCAGGAGCAACTCTGTGGATCAGAAGACCCCAGAAGCCAATTCCCGGGCCTCCAGTCCCTGCACAGAATTTGAACAGTTTCAGATCATCCCAGCTGTAGAGACACCCTATTTGGCCCGAGCAGGAAAACATGAATTTCTCAATCTCGTTCCAGATATTGAAGAAATCCGACCAGGCTCAGTGGTCTCTAAGAAAGGATACCTGCATTTCAAGGAGCCGCTTTCCAGCAGCTGGGCCAAGCATTTTGTTGTGGTCCGTCGCCCTTACGTCTTCATCTACAACAGTGACAAGGACCCAGTGGAACGTGGCATCATTAACCTGTCCACGGCACAGGTGGAGTACAGTGAGGACCGGCAGGCTATGGTGAAGACACCTAACACCTTCGCTGTGTCCACAAAGCATCGAAGGGTCCTTCTGCAGGCTGTCAATGACAAGGACATGAATGACTGGTTATATGCCTTTAACCCCCTCCTTGCTGGCACAATACGGTCAAAGCTGTCCCGGAGATGCCTGAGCCAGCCCAAGTACTGA

XM_004863618.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X3

Length: 5457 bp    Location: 2428563..2282999   Strand: -
>XM_004863618.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATATTGATCCATTGATTGATGATTACTCTGGAAGTGGAGGCAAATATCTGAAAGATTTTCAGAACAATAAGCATAGATACTTGCTAGCCTCTGAGAATCAACGCCCTGGCAATTTCTCCACAGCATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACTATGAGAGTAAATTGCAGGCCTTGCAGAAGCAGGTTGAGACCCGATCCCTGGCTGCCGAAACAACTGAAGAGGAAGAAGAGGAGGAAGAAGTTCCGTGGACACAGCATGAATTTGATTTGGCTCAGTGGGCCTTCCGCAAGTGGAAGTCTCACCAATTTACTTCATTGCGGGACTTACTCTGGGGCAATGCTGTGTACCTGAAGGAGGCCAATGCCATCAGTGTGGAGCTGAAGAAGAAGGTGCAGTTCCAGTTTGTTCTTCTGACTGACACACTGTACTCCCCTTTGCCACCTGAACTGCTTCCCACTGACGTGGAAAAGATTCACGAGGATAGGCCTTTCCCTCGCACAGTGGTGGCAGTAGAAGTTCAGGATCTGAAGAATGGAGCAACGCATTATTGGTCTTTGGAGAAACTTAAACAGAGGCTGGATTTGATGCGAGAGATGTATGACAGGGCAGGTGAGATGGCCTCCAACGCCCAAGACGAAAGCGAAGCCACCATGACGGGCAGCGATCCATTCTACGATCGGTTCCACTGGTTCAAACTTGTGGGAAGCTCCCCCATTTTCCACGGCTGTGTGAATGAGCGCCTTGCCGACCGCACACCCTCCCCTACTTTTTCCACGGCCGACTCCGACATCACTGAGCTGGCTGACGAGCAGCAAGATGAGATGGAGGATTTTGATGATGAGGCATTCGTGGATGACACCGGCTCTGACGCAGGGACGGAGGAGGGATCAGATCTCTTCAGTGATGGGCGTGACCCGTTTTACGACCGGTCCCCTTGGTTCATTTTGGTGGGAAGGGCATTTGTGTACCTGAGCAATCTGCTCTACCCCGTGCCCCTGATCCACAGGGTGGCCATCGTCAGCGAGAAGGGGGAGGTGCGGGGATTTCTGCGTGTGGCCGTCCAGGCCATTGCAGCGGATGAAGAAGCTCCGGATTATGGCTCTGGAATTCGACAGTCAGGAACAGCTAAAATATCTTTTGATAACGAATACTTTTATCAGAGTGACTTTTCCTCAGTTGCAATGACTCGTTCTGGTCTGTCCTTGGAGGAGCTGAGGATTGTGGAAGGACAGGGTCAGAGTTCTGAGGTCATCACTCCTCCAGAGGAAATCAGCCGAATGAATGATCGGGATTTGAAGTCAGGCACTTTGCTGGATGGTAAGATGGTGATGGAAGGGTTTTCCGAAGAGATTGGCAACCACCTGAAACTGGGCAGTGCCTTTACCTTTCGAGTAACAGTGTTGCAGGCCAGCGGGATCCTCCCCGAGTATGCGGATATCTTCTGTCAGTTCAACTTCTTGCATCGCCATGATGAAGCGTTCTCCACTGAACCCCTCAAAAACAACGGCAGAGGAAGTCCCCTGGGCTTTTATCATGTGCAGAATATTGCGGTGGAGGTCACAGAGTCATTTGTGGACTATATCAAAACCAAGCCTATTGTATTTGAAGTCTTTGGGCATTATCAGCAGCACCCACTTCATCTGCAAGGACAGGACCTTAGCAGAAATTTATCTTTCTCTCCTTGCAGTCCGCCTCAGCCTTCTCGACGATTCTTCCCTCCACCCATGCCACTCTCCAAGCCAGTTCCAGCCACCAAGTTAAACACCATGAGCAAAACCAGCCTCGGCCAAAGCATGAGCAAGTATGACCTCCTGGTTTGGTTTGAGATCAGTGAACTGGAGCCTACAGGAGAGTACATCCCGGCTGTGGTTGACCATACTGCAGGGTTACCCTGCCAGGGGACGTTTCTGCTTCACCAGGGCATCCAGCGAAGGATCACAGTGACCATCATCCACGAGAAGGGGAGTGAGCTGCACTGGAAAGACGTCCGGGAGCTGGTGGTAGGCCGGATTAGAAATAAGCCCGAGGTGGATGAAGCTGCAGTCGATGCCATCCTCTCCCTAAATATCATCTCTGCCAAGTACCTGAAGTCTTCGCACAACTCCAGCAGAACCTTCTACCGTTTCGAGGCCGTGTGGGACAGCTCCCTCCATAACTCCCTTCTCCTGAACCGAGTGACGCCCTACGGAGAGAAGATCTACATGACCCTGTCCGCCTACCTGGAGCTGGACCACTGCATCCAGCCTGCGGTCATCACCAAGGACGTGTGCATGGTCTTCTATTCCCGAGACGCCAAGATCTCGCCGCCACGCTCTCTGCGCAGCCTCTTTGGCAGTGGCTACTCCAAGTCACCAGACTCGAATCGAGTCACTGGGATTTATGAACTCAGCTTATGCAAAATGGCAGACACAGGTAGCCCAGGCATGCAGAGGCGGCGGAGGAGAGTGCTGGACACATCAGCGGCCTATGTGCGCGGTGAGGAAAACCTGGCCGGCTGGCGGCCCCGCGGGGACAGCCTCATCTTGGAGCACCAGTGGGAGCTGGACAAGCTGGAGCTGCTGCACGAGGTGGAGAAAACGCGCCACTTCCTGCTGCTGCGTGAGAGACTTGGTGACAGCATCCCCAAATCCCTGAGTGACTCATTGTCCCCCAGCCTCAGCAGTGGGACCCTCAGCACCTCCACCAGCATCTCCTCTCAAATCTCAACCACCACCTTCGAAAGCGCCATCACCCCCAGCGAGAGCAGCGGGTATGACTCGGCAGACATCGAGAGCCTGGTGGATCGCGAGAAAGAGCTGGCCACCAAGTGCCTGCAGCTCCTCACCCACACTTTCAACCGGGAGTTCAGCCAGGTGCACAGCAGCATCAGCGACTGCAAGTTGTCTGACATCTCTCCAATGGGACGCAACCCTTCCGTGTCCAGTTTCAGCAGTGCCACCCTCACCCCGTCCTCCACATGCCCCTCTCTGGTCGACTCCAGGAGCAACTCTGTGGATCAGAAGACCCCAGAAGCCAATTCCCGGGCCTCCAGTCCCTGCACAGAATTTGAACAGTTTCAGATCATCCCAGCTGTAGAGACACCCTATTTGGCCCGAGCAGGAAAACATGAATTTCTCAATCTCGTTCCAGATATTGAAGAAATCCGACCAGGCTCAGTGGTCTCTAAGAAAGGATACCTGCATTTCAAGGAGCCGCTTTCCAGCAGCTGGGCCAAGCATTTTGTTGTGGTCCGTCGCCCTTACGTCTTCATCTACAACAGTGACAAGGACCCAGTGGAACGTGGCATCATTAACCTGTCCACGGCACAGGTGGAGTACAGTGAGGACCGGCAGGCTATGGTGAAGACACCTAACACCTTCGCTGTGTCCACAAAGCATCGAAGGGTCCTTCTGCAGGCTGTCAATGACAAGGACATGAATGACTGGTTATATGCCTTTAACCCCCTCCTTGCTGGCACAATACGGTCAAAGCTGTCCCGGAGATGCCTGAGCCAGCCCAAGTACTGA

XM_004863626.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X11

Length: 5082 bp    Location: 2428563..2282999   Strand: -
>XM_004863626.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGGATAACTGCACCAGCAAGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATACATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACTATGAGAGTAAATTGCAGGCCTTGCAGAAGCAGGTTGAGACCCGATCCCTGGCTGCCGAAACAACTGAAGAGGAAGAAGAGGAGGAAGAAGTTCCGTGGACACAGCATGAATTTGATTTGGCTCAGTGGGCCTTCCGCAAGTGGAAGTCTCACCAATTTACTTCATTGCGGGACTTACTCTGGGGCAATGCTGTGTACCTGAAGGAGGCCAATGCCATCAGTGTGGAGCTGAAGAAGAAGGTGCAGTTCCAGTTTGTTCTTCTGACTGACACACTGTACTCCCCTTTGCCACCTGAACTGCTTCCCACTGACGTGGAAAAGATTCACGAGGATAGGCCTTTCCCTCGCACAGTGGTGGCAGTAGAAGTTCAGGATCTGAAGAATGGAGCAACGCATTATTGGTCTTTGGAGAAACTTAAACAGAGGCTGGATTTGATGCGAGAGATGTATGACAGGGCAGGTGAGATGGCCTCCAACGCCCAAGACGAAAGCGAAGCCACCATGACGGGCAGCGATCCATTCTACGATCGGTTCCACTGGTTCAAACTTGTGGGAAGGGCATTTGTGTACCTGAGCAATCTGCTCTACCCCGTGCCCCTGATCCACAGGGTGGCCATCGTCAGCGAGAAGGGGGAGGTGCGGGGATTTCTGCGTGTGGCCGTCCAGGCCATTGCAGCGGATGAAGAAGCTCCGGATTATGGCTCTGGAATTCGACAGTCAGGAACAGCTAAAATATCTTTTGATAACGAATACTTTTATCAGAGTGACTTTTCCTCAGTTGCAATGACTCGTTCTGGTCTGTCCTTGGAGGAGCTGAGGATTGTGGAAGGACAGGGTCAGAGTTCTGAGGTCATCACTCCTCCAGAGGAAATCAGCCGAATGAATGATCGGGATTTGAAGTCAGGCACTTTGCTGGATGGTAAGATGGTGATGGAAGGGTTTTCCGAAGAGATTGGCAACCACCTGAAACTGGGCAGTGCCTTTACCTTTCGAGTAACAGTGTTGCAGGCCAGCGGGATCCTCCCCGAGTATGCGGATATCTTCTGTCAGTTCAACTTCTTGCATCGCCATGATGAAGCGTTCTCCACTGAACCCCTCAAAAACAACGGCAGAGGAAGTCCCCTGGGCTTTTATCATGTGCAGAATATTGCGGTGGAGGTCACAGAGTCATTTGTGGACTATATCAAAACCAAGCCTATTGTATTTGAAGTCTTTGGGCATTATCAGCAGCACCCACTTCATCTGCAAGGACAGGACCTTAGCAGTCCGCCTCAGCCTTCTCGACGATTCTTCCCTCCACCCATGCCACTCTCCAAGCCAGTTCCAGCCACCAAGTTAAACACCATGAGCAAAACCAGCCTCGGCCAAAGCATGAGCAAGTATGACCTCCTGGTTTGGTTTGAGATCAGTGAACTGGAGCCTACAGGAGAGTACATCCCGGCTGTGGTTGACCATACTGCAGGGTTACCCTGCCAGGGGACGTTTCTGCTTCACCAGGGCATCCAGCGAAGGATCACAGTGACCATCATCCACGAGAAGGGGAGTGAGCTGCACTGGAAAGACGTCCGGGAGCTGGTGGTAGGCCGGATTAGAAATAAGCCCGAGGTGGATGAAGCTGCAGTCGATGCCATCCTCTCCCTAAATATCATCTCTGCCAAGTACCTGAAGTCTTCGCACAACTCCAGCAGAACCTTCTACCGTTTCGAGGCCGTGTGGGACAGCTCCCTCCATAACTCCCTTCTCCTGAACCGAGTGACGCCCTACGGAGAGAAGATCTACATGACCCTGTCCGCCTACCTGGAGCTGGACCACTGCATCCAGCCTGCGGTCATCACCAAGGACGTGTGCATGGTCTTCTATTCCCGAGACGCCAAGATCTCGCCGCCACGCTCTCTGCGCAGCCTCTTTGGCAGTGGCTACTCCAAGTCACCAGACTCGAATCGAGTCACTGGGATTTATGAACTCAGCTTATGCAAAATGGCAGACACAGGTAGCCCAGGCATGCAGAGGCGGCGGAGGAGAGTGCTGGACACATCAGCGGCCTATGTGCGCGGTGAGGAAAACCTGGCCGGCTGGCGGCCCCGCGGGGACAGCCTCATCTTGGAGCACCAGTGGGAGCTGGACAAGCTGGAGCTGCTGCACGAGGTGGAGAAAACGCGCCACTTCCTGCTGCTGCGTGAGAGACTTGGTGACAGCATCCCCAAATCCCTGAGTGACTCATTGTCCCCCAGCCTCAGCAGTGGGACCCTCAGCACCTCCACCAGCATCTCCTCTCAAATCTCAACCACCACCTTCGAAAGCGCCATCACCCCCAGCGAGAGCAGCGGGTATGACTCGGCAGACATCGAGAGCCTGGTGGATCGCGAGAAAGAGCTGGCCACCAAGTGCCTGCAGCTCCTCACCCACACTTTCAACCGGGAGTTCAGCCAGGTGCACAGCAGCATCAGCGACTGCAAGTTGTCTGACATCTCTCCAATGGGACGCAACCCTTCCGTGTCCAGTTTCAGCAGTGCCACCCTCACCCCGTCCTCCACATGCCCCTCTCTGGTCGACTCCAGGAGCAACTCTGTGGATCAGAAGACCCCAGAAGCCAATTCCCGGGCCTCCAGTCCCTGCACAGAATTTGAACAGTTTCAGATCATCCCAGCTGTAGAGACACCCTATTTGGCCCGAGCAGGAAAACATGAATTTCTCAATCTCGTTCCAGATATTGAAGAAATCCGACCAGGCTCAGTGGTCTCTAAGAAAGGATACCTGCATTTCAAGGAGCCGCTTTCCAGCAGCTGGGCCAAGCATTTTGTTGTGGTCCGTCGCCCTTACGTCTTCATCTACAACAGTGACAAGGACCCAGTGGAACGTGGCATCATTAACCTGTCCACGGCACAGGTGGAGTACAGTGAGGACCGGCAGGCTATGGTGAAGACACCTAACACCTTCGCTGTGTCCACAAAGCATCGAAGGGTCCTTCTGCAGGCTGTCAATGACAAGGACATGAATGACTGGTTATATGCCTTTAACCCCCTCCTTGCTGGCACAATACGGTCAAAGCTGTCCCGGAGATGCCTGAGCCAGCCCAAGTACTGA

XM_004863622.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X7

Length: 5355 bp    Location: 2428563..2282999   Strand: -
>XM_004863622.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGGATAACTGCACCAGCAAGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATACATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACTATGAGAGTAAATTGCAGGCCTTGCAGAAGCAGGTTGAGACCCGATCCCTGGCTGCCGAAACAACTGAAGAGGAAGAAGAGGAGGAAGAAGTTCCGTGGACACAGCATGAATTTGATTTGGCTCAGTGGGCCTTCCGCAAGTGGAAGTCTCACCAATTTACTTCATTGCGGGACTTACTCTGGGGCAATGCTGTGTACCTGAAGGAGGCCAATGCCATCAGTGTGGAGCTGAAGAAGAAGGTGCAGTTCCAGTTTGTTCTTCTGACTGACACACTGTACTCCCCTTTGCCACCTGAACTGCTTCCCACTGACGTGGAAAAGATTCACGAGGATAGGCCTTTCCCTCGCACAGTGGTGGCAGTAGAAGTTCAGGATCTGAAGAATGGAGCAACGCATTATTGGTCTTTGGAGAAACTTAAACAGAGGCTGGATTTGATGCGAGAGATGTATGACAGGGCAGGTGAGATGGCCTCCAACGCCCAAGACGAAAGCGAAGCCACCATGACGGGCAGCGATCCATTCTACGATCGGTTCCACTGGTTCAAACTTGTGGGAAGCTCCCCCATTTTCCACGGCTGTGTGAATGAGCGCCTTGCCGACCGCACACCCTCCCCTACTTTTTCCACGGCCGACTCCGACATCACTGAGCTGGCTGACGAGCAGCAAGATGAGATGGAGGATTTTGATGATGAGGCATTCGTGGATGACACCGGCTCTGACGCAGGGACGGAGGAGGGATCAGATCTCTTCAGTGATGGGCGTGACCCGTTTTACGACCGGTCCCCTTGGTTCATTTTGGTGGGAAGGGCATTTGTGTACCTGAGCAATCTGCTCTACCCCGTGCCCCTGATCCACAGGGTGGCCATCGTCAGCGAGAAGGGGGAGGTGCGGGGATTTCTGCGTGTGGCCGTCCAGGCCATTGCAGCGGATGAAGAAGCTCCGGATTATGGCTCTGGAATTCGACAGTCAGGAACAGCTAAAATATCTTTTGATAACGAATACTTTTATCAGAGTGACTTTTCCTCAGTTGCAATGACTCGTTCTGGTCTGTCCTTGGAGGAGCTGAGGATTGTGGAAGGACAGGGTCAGAGTTCTGAGGTCATCACTCCTCCAGAGGAAATCAGCCGAATGAATGATCGGGATTTGAAGTCAGGCACTTTGCTGGATGGTAAGATGGTGATGGAAGGGTTTTCCGAAGAGATTGGCAACCACCTGAAACTGGGCAGTGCCTTTACCTTTCGAGTAACAGTGTTGCAGGCCAGCGGGATCCTCCCCGAGTATGCGGATATCTTCTGTCAGTTCAACTTCTTGCATCGCCATGATGAAGCGTTCTCCACTGAACCCCTCAAAAACAACGGCAGAGGAAGTCCCCTGGGCTTTTATCATGTGCAGAATATTGCGGTGGAGGTCACAGAGTCATTTGTGGACTATATCAAAACCAAGCCTATTGTATTTGAAGTCTTTGGGCATTATCAGCAGCACCCACTTCATCTGCAAGGACAGGACCTTAGCAGAAATTTATCTTTCTCTCCTTGCAGTCCGCCTCAGCCTTCTCGACGATTCTTCCCTCCACCCATGCCACTCTCCAAGCCAGTTCCAGCCACCAAGTTAAACACCATGAGCAAAACCAGCCTCGGCCAAAGCATGAGCAAGTATGACCTCCTGGTTTGGTTTGAGATCAGTGAACTGGAGCCTACAGGAGAGTACATCCCGGCTGTGGTTGACCATACTGCAGGGTTACCCTGCCAGGGGACGTTTCTGCTTCACCAGGGCATCCAGCGAAGGATCACAGTGACCATCATCCACGAGAAGGGGAGTGAGCTGCACTGGAAAGACGTCCGGGAGCTGGTGGTAGGCCGGATTAGAAATAAGCCCGAGGTGGATGAAGCTGCAGTCGATGCCATCCTCTCCCTAAATATCATCTCTGCCAAGTACCTGAAGTCTTCGCACAACTCCAGCAGAACCTTCTACCGTTTCGAGGCCGTGTGGGACAGCTCCCTCCATAACTCCCTTCTCCTGAACCGAGTGACGCCCTACGGAGAGAAGATCTACATGACCCTGTCCGCCTACCTGGAGCTGGACCACTGCATCCAGCCTGCGGTCATCACCAAGGACGTGTGCATGGTCTTCTATTCCCGAGACGCCAAGATCTCGCCGCCACGCTCTCTGCGCAGCCTCTTTGGCAGTGGCTACTCCAAGTCACCAGACTCGAATCGAGTCACTGGGATTTATGAACTCAGCTTATGCAAAATGGCAGACACAGGTAGCCCAGGCATGCAGAGGCGGCGGAGGAGAGTGCTGGACACATCAGCGGCCTATGTGCGCGGTGAGGAAAACCTGGCCGGCTGGCGGCCCCGCGGGGACAGCCTCATCTTGGAGCACCAGTGGGAGCTGGACAAGCTGGAGCTGCTGCACGAGGTGGAGAAAACGCGCCACTTCCTGCTGCTGCGTGAGAGACTTGGTGACAGCATCCCCAAATCCCTGAGTGACTCATTGTCCCCCAGCCTCAGCAGTGGGACCCTCAGCACCTCCACCAGCATCTCCTCTCAAATCTCAACCACCACCTTCGAAAGCGCCATCACCCCCAGCGAGAGCAGCGGGTATGACTCGGCAGACATCGAGAGCCTGGTGGATCGCGAGAAAGAGCTGGCCACCAAGTGCCTGCAGCTCCTCACCCACACTTTCAACCGGGAGTTCAGCCAGGTGCACAGCAGCATCAGCGACTGCAAGTTGTCTGACATCTCTCCAATGGGACGCAACCCTTCCGTGTCCAGTTTCAGCAGTGCCACCCTCACCCCGTCCTCCACATGCCCCTCTCTGGTCGACTCCAGGAGCAACTCTGTGGATCAGAAGACCCCAGAAGCCAATTCCCGGGCCTCCAGTCCCTGCACAGAATTTGAACAGTTTCAGATCATCCCAGCTGTAGAGACACCCTATTTGGCCCGAGCAGGAAAACATGAATTTCTCAATCTCGTTCCAGATATTGAAGAAATCCGACCAGGCTCAGTGGTCTCTAAGAAAGGATACCTGCATTTCAAGGAGCCGCTTTCCAGCAGCTGGGCCAAGCATTTTGTTGTGGTCCGTCGCCCTTACGTCTTCATCTACAACAGTGACAAGGACCCAGTGGAACGTGGCATCATTAACCTGTCCACGGCACAGGTGGAGTACAGTGAGGACCGGCAGGCTATGGTGAAGACACCTAACACCTTCGCTGTGTCCACAAAGCATCGAAGGGTCCTTCTGCAGGCTGTCAATGACAAGGACATGAATGACTGGTTATATGCCTTTAACCCCCTCCTTGCTGGCACAATACGGTCAAAGCTGTCCCGGAGATGCCTGAGCCAGCCCAAGTACTGA

XM_004863621.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X6

Length: 5373 bp    Location: 2428563..2282999   Strand: -
>XM_004863621.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGGATAACTGCACCAGCAAGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATATTGATCCATTGATTGATGATTACTCTGGAAGTGGAGGCAAATCATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACTATGAGAGTAAATTGCAGGCCTTGCAGAAGCAGGTTGAGACCCGATCCCTGGCTGCCGAAACAACTGAAGAGGAAGAAGAGGAGGAAGAAGTTCCGTGGACACAGCATGAATTTGATTTGGCTCAGTGGGCCTTCCGCAAGTGGAAGTCTCACCAATTTACTTCATTGCGGGACTTACTCTGGGGCAATGCTGTGTACCTGAAGGAGGCCAATGCCATCAGTGTGGAGCTGAAGAAGAAGGTGCAGTTCCAGTTTGTTCTTCTGACTGACACACTGTACTCCCCTTTGCCACCTGAACTGCTTCCCACTGACGTGGAAAAGATTCACGAGGATAGGCCTTTCCCTCGCACAGTGGTGGCAGTAGAAGTTCAGGATCTGAAGAATGGAGCAACGCATTATTGGTCTTTGGAGAAACTTAAACAGAGGCTGGATTTGATGCGAGAGATGTATGACAGGGCAGGTGAGATGGCCTCCAACGCCCAAGACGAAAGCGAAGCCACCATGACGGGCAGCGATCCATTCTACGATCGGTTCCACTGGTTCAAACTTGTGGGAAGCTCCCCCATTTTCCACGGCTGTGTGAATGAGCGCCTTGCCGACCGCACACCCTCCCCTACTTTTTCCACGGCCGACTCCGACATCACTGAGCTGGCTGACGAGCAGCAAGATGAGATGGAGGATTTTGATGATGAGGCATTCGTGGATGACACCGGCTCTGACGCAGGGACGGAGGAGGGATCAGATCTCTTCAGTGATGGGCGTGACCCGTTTTACGACCGGTCCCCTTGGTTCATTTTGGTGGGAAGGGCATTTGTGTACCTGAGCAATCTGCTCTACCCCGTGCCCCTGATCCACAGGGTGGCCATCGTCAGCGAGAAGGGGGAGGTGCGGGGATTTCTGCGTGTGGCCGTCCAGGCCATTGCAGCGGATGAAGAAGCTCCGGATTATGGCTCTGGAATTCGACAGTCAGGAACAGCTAAAATATCTTTTGATAACGAATACTTTTATCAGAGTGACTTTTCCTCAGTTGCAATGACTCGTTCTGGTCTGTCCTTGGAGGAGCTGAGGATTGTGGAAGGACAGGGTCAGAGTTCTGAGGTCATCACTCCTCCAGAGGAAATCAGCCGAATGAATGATCGGGATTTGAAGTCAGGCACTTTGCTGGATGGTAAGATGGTGATGGAAGGGTTTTCCGAAGAGATTGGCAACCACCTGAAACTGGGCAGTGCCTTTACCTTTCGAGTAACAGTGTTGCAGGCCAGCGGGATCCTCCCCGAGTATGCGGATATCTTCTGTCAGTTCAACTTCTTGCATCGCCATGATGAAGCGTTCTCCACTGAACCCCTCAAAAACAACGGCAGAGGAAGTCCCCTGGGCTTTTATCATGTGCAGAATATTGCGGTGGAGGTCACAGAGTCATTTGTGGACTATATCAAAACCAAGCCTATTGTATTTGAAGTCTTTGGGCATTATCAGCAGCACCCACTTCATCTGCAAGGACAGGACCTTAGCAGTCCGCCTCAGCCTTCTCGACGATTCTTCCCTCCACCCATGCCACTCTCCAAGCCAGTTCCAGCCACCAAGTTAAACACCATGAGCAAAACCAGCCTCGGCCAAAGCATGAGCAAGTATGACCTCCTGGTTTGGTTTGAGATCAGTGAACTGGAGCCTACAGGAGAGTACATCCCGGCTGTGGTTGACCATACTGCAGGGTTACCCTGCCAGGGGACGTTTCTGCTTCACCAGGGCATCCAGCGAAGGATCACAGTGACCATCATCCACGAGAAGGGGAGTGAGCTGCACTGGAAAGACGTCCGGGAGCTGGTGGTAGGCCGGATTAGAAATAAGCCCGAGGTGGATGAAGCTGCAGTCGATGCCATCCTCTCCCTAAATATCATCTCTGCCAAGTACCTGAAGTCTTCGCACAACTCCAGCAGAACCTTCTACCGTTTCGAGGCCGTGTGGGACAGCTCCCTCCATAACTCCCTTCTCCTGAACCGAGTGACGCCCTACGGAGAGAAGATCTACATGACCCTGTCCGCCTACCTGGAGCTGGACCACTGCATCCAGCCTGCGGTCATCACCAAGGACGTGTGCATGGTCTTCTATTCCCGAGACGCCAAGATCTCGCCGCCACGCTCTCTGCGCAGCCTCTTTGGCAGTGGCTACTCCAAGTCACCAGACTCGAATCGAGTCACTGGGATTTATGAACTCAGCTTATGCAAAATGGCAGACACAGGTAGCCCAGGCATGCAGAGGCGGCGGAGGAGAGTGCTGGACACATCAGCGGCCTATGTGCGCGGTGAGGAAAACCTGGCCGGCTGGCGGCCCCGCGGGGACAGCCTCATCTTGGAGCACCAGTGGGAGCTGGACAAGCTGGAGCTGCTGCACGAGGTGGAGAAAACGCGCCACTTCCTGCTGCTGCGTGAGAGACTTGGTGACAGCATCCCCAAATCCCTGAGTGACTCATTGTCCCCCAGCCTCAGCAGTGGGACCCTCAGCACCTCCACCAGCATCTCCTCTCAAATCTCAACCACCACCTTCGAAAGCGCCATCACCCCCAGCGAGAGCAGCGGGTATGACTCGGCAGACATCGAGAGCCTGGTGGATCGCGAGAAAGAGCTGGCCACCAAGTGCCTGCAGCTCCTCACCCACACTTTCAACCGGGAGTTCAGCCAGGTGCACAGCAGCATCAGCGACTGCAAGTTGTCTGACATCTCTCCAATGGGACGCAACCCTTCCGTGTCCAGTTTCAGCAGTGCCACCCTCACCCCGTCCTCCACATGCCCCTCTCTGGTCGACTCCAGGAGCAACTCTGTGGATCAGAAGACCCCAGAAGCCAATTCCCGGGCCTCCAGTCCCTGCACAGAATTTGAACAGTTTCAGATCATCCCAGCTGTAGAGACACCCTATTTGGCCCGAGCAGGAAAACATGAATTTCTCAATCTCGTTCCAGATATTGAAGAAATCCGACCAGGCTCAGTGGTCTCTAAGAAAGGATACCTGCATTTCAAGGAGCCGCTTTCCAGCAGCTGGGCCAAGCATTTTGTTGTGGTCCGTCGCCCTTACGTCTTCATCTACAACAGTGACAAGGACCCAGTGGAACGTGGCATCATTAACCTGTCCACGGCACAGGTGGAGTACAGTGAGGACCGGCAGGCTATGGTGAAGACACCTAACACCTTCGCTGTGTCCACAAAGCATCGAAGGGTCCTTCTGCAGGCTGTCAATGACAAGGACATGAATGACTGGTTATATGCCTTTAACCCCCTCCTTGCTGGCACAATACGGTCAAAGCTGTCCCGGAGATGCCTGAGCCAGCCCAAGTACTGA

XM_004863620.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X5

Length: 5397 bp    Location: 2428563..2282999   Strand: -
>XM_004863620.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGGATAACTGCACCAGCAAGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATATTGATCCATTGATTGATGATTACTCTGGAAGTGGAGGCAAATCATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACTATGAGAGTAAATTGCAGGCCTTGCAGAAGCAGGTTGAGACCCGATCCCTGGCTGCCGAAACAACTGAAGAGGAAGAAGAGGAGGAAGAAGTTCCGTGGACACAGCATGAATTTGATTTGGCTCAGTGGGCCTTCCGCAAGTGGAAGTCTCACCAATTTACTTCATTGCGGGACTTACTCTGGGGCAATGCTGTGTACCTGAAGGAGGCCAATGCCATCAGTGTGGAGCTGAAGAAGAAGGTGCAGTTCCAGTTTGTTCTTCTGACTGACACACTGTACTCCCCTTTGCCACCTGAACTGCTTCCCACTGACGTGGAAAAGATTCACGAGGATAGGCCTTTCCCTCGCACAGTGGTGGCAGTAGAAGTTCAGGATCTGAAGAATGGAGCAACGCATTATTGGTCTTTGGAGAAACTTAAACAGAGGCTGGATTTGATGCGAGAGATGTATGACAGGGCAGGTGAGATGGCCTCCAACGCCCAAGACGAAAGCGAAGCCACCATGACGGGCAGCGATCCATTCTACGATCGGTTCCACTGGTTCAAACTTGTGGGAAGCTCCCCCATTTTCCACGGCTGTGTGAATGAGCGCCTTGCCGACCGCACACCCTCCCCTACTTTTTCCACGGCCGACTCCGACATCACTGAGCTGGCTGACGAGCAGCAAGATGAGATGGAGGATTTTGATGATGAGGCATTCGTGGATGACACCGGCTCTGACGCAGGGACGGAGGAGGGATCAGATCTCTTCAGTGATGGGCGTGACCCGTTTTACGACCGGTCCCCTTGGTTCATTTTGGTGGGAAGGGCATTTGTGTACCTGAGCAATCTGCTCTACCCCGTGCCCCTGATCCACAGGGTGGCCATCGTCAGCGAGAAGGGGGAGGTGCGGGGATTTCTGCGTGTGGCCGTCCAGGCCATTGCAGCGGATGAAGAAGCTCCGGATTATGGCTCTGGAATTCGACAGTCAGGAACAGCTAAAATATCTTTTGATAACGAATACTTTTATCAGAGTGACTTTTCCTCAGTTGCAATGACTCGTTCTGGTCTGTCCTTGGAGGAGCTGAGGATTGTGGAAGGACAGGGTCAGAGTTCTGAGGTCATCACTCCTCCAGAGGAAATCAGCCGAATGAATGATCGGGATTTGAAGTCAGGCACTTTGCTGGATGGTAAGATGGTGATGGAAGGGTTTTCCGAAGAGATTGGCAACCACCTGAAACTGGGCAGTGCCTTTACCTTTCGAGTAACAGTGTTGCAGGCCAGCGGGATCCTCCCCGAGTATGCGGATATCTTCTGTCAGTTCAACTTCTTGCATCGCCATGATGAAGCGTTCTCCACTGAACCCCTCAAAAACAACGGCAGAGGAAGTCCCCTGGGCTTTTATCATGTGCAGAATATTGCGGTGGAGGTCACAGAGTCATTTGTGGACTATATCAAAACCAAGCCTATTGTATTTGAAGTCTTTGGGCATTATCAGCAGCACCCACTTCATCTGCAAGGACAGGACCTTAGCAGAAATTTATCTTTCTCTCCTTGCAGTCCGCCTCAGCCTTCTCGACGATTCTTCCCTCCACCCATGCCACTCTCCAAGCCAGTTCCAGCCACCAAGTTAAACACCATGAGCAAAACCAGCCTCGGCCAAAGCATGAGCAAGTATGACCTCCTGGTTTGGTTTGAGATCAGTGAACTGGAGCCTACAGGAGAGTACATCCCGGCTGTGGTTGACCATACTGCAGGGTTACCCTGCCAGGGGACGTTTCTGCTTCACCAGGGCATCCAGCGAAGGATCACAGTGACCATCATCCACGAGAAGGGGAGTGAGCTGCACTGGAAAGACGTCCGGGAGCTGGTGGTAGGCCGGATTAGAAATAAGCCCGAGGTGGATGAAGCTGCAGTCGATGCCATCCTCTCCCTAAATATCATCTCTGCCAAGTACCTGAAGTCTTCGCACAACTCCAGCAGAACCTTCTACCGTTTCGAGGCCGTGTGGGACAGCTCCCTCCATAACTCCCTTCTCCTGAACCGAGTGACGCCCTACGGAGAGAAGATCTACATGACCCTGTCCGCCTACCTGGAGCTGGACCACTGCATCCAGCCTGCGGTCATCACCAAGGACGTGTGCATGGTCTTCTATTCCCGAGACGCCAAGATCTCGCCGCCACGCTCTCTGCGCAGCCTCTTTGGCAGTGGCTACTCCAAGTCACCAGACTCGAATCGAGTCACTGGGATTTATGAACTCAGCTTATGCAAAATGGCAGACACAGGTAGCCCAGGCATGCAGAGGCGGCGGAGGAGAGTGCTGGACACATCAGCGGCCTATGTGCGCGGTGAGGAAAACCTGGCCGGCTGGCGGCCCCGCGGGGACAGCCTCATCTTGGAGCACCAGTGGGAGCTGGACAAGCTGGAGCTGCTGCACGAGGTGGAGAAAACGCGCCACTTCCTGCTGCTGCGTGAGAGACTTGGTGACAGCATCCCCAAATCCCTGAGTGACTCATTGTCCCCCAGCCTCAGCAGTGGGACCCTCAGCACCTCCACCAGCATCTCCTCTCAAATCTCAACCACCACCTTCGAAAGCGCCATCACCCCCAGCGAGAGCAGCGGGTATGACTCGGCAGACATCGAGAGCCTGGTGGATCGCGAGAAAGAGCTGGCCACCAAGTGCCTGCAGCTCCTCACCCACACTTTCAACCGGGAGTTCAGCCAGGTGCACAGCAGCATCAGCGACTGCAAGTTGTCTGACATCTCTCCAATGGGACGCAACCCTTCCGTGTCCAGTTTCAGCAGTGCCACCCTCACCCCGTCCTCCACATGCCCCTCTCTGGTCGACTCCAGGAGCAACTCTGTGGATCAGAAGACCCCAGAAGCCAATTCCCGGGCCTCCAGTCCCTGCACAGAATTTGAACAGTTTCAGATCATCCCAGCTGTAGAGACACCCTATTTGGCCCGAGCAGGAAAACATGAATTTCTCAATCTCGTTCCAGATATTGAAGAAATCCGACCAGGCTCAGTGGTCTCTAAGAAAGGATACCTGCATTTCAAGGAGCCGCTTTCCAGCAGCTGGGCCAAGCATTTTGTTGTGGTCCGTCGCCCTTACGTCTTCATCTACAACAGTGACAAGGACCCAGTGGAACGTGGCATCATTAACCTGTCCACGGCACAGGTGGAGTACAGTGAGGACCGGCAGGCTATGGTGAAGACACCTAACACCTTCGCTGTGTCCACAAAGCATCGAAGGGTCCTTCTGCAGGCTGTCAATGACAAGGACATGAATGACTGGTTATATGCCTTTAACCCCCTCCTTGCTGGCACAATACGGTCAAAGCTGTCCCGGAGATGCCTGAGCCAGCCCAAGTACTGA

XM_004863625.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X10

Length: 5226 bp    Location: 2428563..2282999   Strand: -
>XM_004863625.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGGATAACTGCACCAGCAAGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATATTGATCCATTGATTGATGATTACTCTGGAAGTGGAGGCAAATATCTGAAAGATTTTCAGAACAATAAGCATAGATACTTGCTAGCCTCTGAGAATCAACGCCCTGGCAATTTCTCCACAGCATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACTATGAGAGTAAATTGCAGGCCTTGCAGAAGCAGGTTGAGACCCGATCCCTGGCTGCCGAAACAACTGAAGAGGAAGAAGAGGAGGAAGAAGTTCCGTGGACACAGCATGAATTTGATTTGGCTCAGTGGGCCTTCCGCAAGTGGAAGTCTCACCAATTTACTTCATTGCGGGACTTACTCTGGGGCAATGCTGTGTACCTGAAGGAGGCCAATGCCATCAGTGTGGAGCTGAAGAAGAAGGTGCAGTTCCAGTTTGTTCTTCTGACTGACACACTGTACTCCCCTTTGCCACCTGAACTGCTTCCCACTGACGTGGAAAAGATTCACGAGGATAGGCCTTTCCCTCGCACAGTGGTGGCAGTAGAAGTTCAGGATCTGAAGAATGGAGCAACGCATTATTGGTCTTTGGAGAAACTTAAACAGAGGCTGGATTTGATGCGAGAGATGTATGACAGGGCAGGTGAGATGGCCTCCAACGCCCAAGACGAAAGCGAAGCCACCATGACGGGCAGCGATCCATTCTACGATCGGTTCCACTGGTTCAAACTTGTGGGAAGGGCATTTGTGTACCTGAGCAATCTGCTCTACCCCGTGCCCCTGATCCACAGGGTGGCCATCGTCAGCGAGAAGGGGGAGGTGCGGGGATTTCTGCGTGTGGCCGTCCAGGCCATTGCAGCGGATGAAGAAGCTCCGGATTATGGCTCTGGAATTCGACAGTCAGGAACAGCTAAAATATCTTTTGATAACGAATACTTTTATCAGAGTGACTTTTCCTCAGTTGCAATGACTCGTTCTGGTCTGTCCTTGGAGGAGCTGAGGATTGTGGAAGGACAGGGTCAGAGTTCTGAGGTCATCACTCCTCCAGAGGAAATCAGCCGAATGAATGATCGGGATTTGAAGTCAGGCACTTTGCTGGATGGTAAGATGGTGATGGAAGGGTTTTCCGAAGAGATTGGCAACCACCTGAAACTGGGCAGTGCCTTTACCTTTCGAGTAACAGTGTTGCAGGCCAGCGGGATCCTCCCCGAGTATGCGGATATCTTCTGTCAGTTCAACTTCTTGCATCGCCATGATGAAGCGTTCTCCACTGAACCCCTCAAAAACAACGGCAGAGGAAGTCCCCTGGGCTTTTATCATGTGCAGAATATTGCGGTGGAGGTCACAGAGTCATTTGTGGACTATATCAAAACCAAGCCTATTGTATTTGAAGTCTTTGGGCATTATCAGCAGCACCCACTTCATCTGCAAGGACAGGACCTTAGCAGAAATTTATCTTTCTCTCCTTGCAGTCCGCCTCAGCCTTCTCGACGATTCTTCCCTCCACCCATGCCACTCTCCAAGCCAGTTCCAGCCACCAAGTTAAACACCATGAGCAAAACCAGCCTCGGCCAAAGCATGAGCAAGTATGACCTCCTGGTTTGGTTTGAGATCAGTGAACTGGAGCCTACAGGAGAGTACATCCCGGCTGTGGTTGACCATACTGCAGGGTTACCCTGCCAGGGGACGTTTCTGCTTCACCAGGGCATCCAGCGAAGGATCACAGTGACCATCATCCACGAGAAGGGGAGTGAGCTGCACTGGAAAGACGTCCGGGAGCTGGTGGTAGGCCGGATTAGAAATAAGCCCGAGGTGGATGAAGCTGCAGTCGATGCCATCCTCTCCCTAAATATCATCTCTGCCAAGTACCTGAAGTCTTCGCACAACTCCAGCAGAACCTTCTACCGTTTCGAGGCCGTGTGGGACAGCTCCCTCCATAACTCCCTTCTCCTGAACCGAGTGACGCCCTACGGAGAGAAGATCTACATGACCCTGTCCGCCTACCTGGAGCTGGACCACTGCATCCAGCCTGCGGTCATCACCAAGGACGTGTGCATGGTCTTCTATTCCCGAGACGCCAAGATCTCGCCGCCACGCTCTCTGCGCAGCCTCTTTGGCAGTGGCTACTCCAAGTCACCAGACTCGAATCGAGTCACTGGGATTTATGAACTCAGCTTATGCAAAATGGCAGACACAGGTAGCCCAGGCATGCAGAGGCGGCGGAGGAGAGTGCTGGACACATCAGCGGCCTATGTGCGCGGTGAGGAAAACCTGGCCGGCTGGCGGCCCCGCGGGGACAGCCTCATCTTGGAGCACCAGTGGGAGCTGGACAAGCTGGAGCTGCTGCACGAGGTGGAGAAAACGCGCCACTTCCTGCTGCTGCGTGAGAGACTTGGTGACAGCATCCCCAAATCCCTGAGTGACTCATTGTCCCCCAGCCTCAGCAGTGGGACCCTCAGCACCTCCACCAGCATCTCCTCTCAAATCTCAACCACCACCTTCGAAAGCGCCATCACCCCCAGCGAGAGCAGCGGGTATGACTCGGCAGACATCGAGAGCCTGGTGGATCGCGAGAAAGAGCTGGCCACCAAGTGCCTGCAGCTCCTCACCCACACTTTCAACCGGGAGTTCAGCCAGGTGCACAGCAGCATCAGCGACTGCAAGTTGTCTGACATCTCTCCAATGGGACGCAACCCTTCCGTGTCCAGTTTCAGCAGTGCCACCCTCACCCCGTCCTCCACATGCCCCTCTCTGGTCGACTCCAGGAGCAACTCTGTGGATCAGAAGACCCCAGAAGCCAATTCCCGGGCCTCCAGTCCCTGCACAGAATTTGAACAGTTTCAGATCATCCCAGCTGTAGAGACACCCTATTTGGCCCGAGCAGGAAAACATGAATTTCTCAATCTCGTTCCAGATATTGAAGAAATCCGACCAGGCTCAGTGGTCTCTAAGAAAGGATACCTGCATTTCAAGGAGCCGCTTTCCAGCAGCTGGGCCAAGCATTTTGTTGTGGTCCGTCGCCCTTACGTCTTCATCTACAACAGTGACAAGGACCCAGTGGAACGTGGCATCATTAACCTGTCCACGGCACAGGTGGAGTACAGTGAGGACCGGCAGGCTATGGTGAAGACACCTAACACCTTCGCTGTGTCCACAAAGCATCGAAGGGTCCTTCTGCAGGCTGTCAATGACAAGGACATGAATGACTGGTTATATGCCTTTAACCCCCTCCTTGCTGGCACAATACGGTCAAAGCTGTCCCGGAGATGCCTGAGCCAGCCCAAGTACTGA

XM_004863619.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X4

Length: 5451 bp    Location: 2428563..2282999   Strand: -
>XM_004863619.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGGATAACTGCACCAGCAAGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATATTGATCCATTGATTGATGATTACTCTGGAAGTGGAGGCAAATATCTGAAAGATTTTCAGAACAATAAGCATAGATACTTGCTAGCCTCTGAGAATCAACGCCCTGGCAATTTCTCCACAGCATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACTATGAGAGTAAATTGCAGGCCTTGCAGAAGCAGGTTGAGACCCGATCCCTGGCTGCCGAAACAACTGAAGAGGAAGAAGAGGAGGAAGAAGTTCCGTGGACACAGCATGAATTTGATTTGGCTCAGTGGGCCTTCCGCAAGTGGAAGTCTCACCAATTTACTTCATTGCGGGACTTACTCTGGGGCAATGCTGTGTACCTGAAGGAGGCCAATGCCATCAGTGTGGAGCTGAAGAAGAAGGTGCAGTTCCAGTTTGTTCTTCTGACTGACACACTGTACTCCCCTTTGCCACCTGAACTGCTTCCCACTGACGTGGAAAAGATTCACGAGGATAGGCCTTTCCCTCGCACAGTGGTGGCAGTAGAAGTTCAGGATCTGAAGAATGGAGCAACGCATTATTGGTCTTTGGAGAAACTTAAACAGAGGCTGGATTTGATGCGAGAGATGTATGACAGGGCAGGTGAGATGGCCTCCAACGCCCAAGACGAAAGCGAAGCCACCATGACGGGCAGCGATCCATTCTACGATCGGTTCCACTGGTTCAAACTTGTGGGAAGCTCCCCCATTTTCCACGGCTGTGTGAATGAGCGCCTTGCCGACCGCACACCCTCCCCTACTTTTTCCACGGCCGACTCCGACATCACTGAGCTGGCTGACGAGCAGCAAGATGAGATGGAGGATTTTGATGATGAGGCATTCGTGGATGACACCGGCTCTGACGCAGGGACGGAGGAGGGATCAGATCTCTTCAGTGATGGGCGTGACCCGTTTTACGACCGGTCCCCTTGGTTCATTTTGGTGGGAAGGGCATTTGTGTACCTGAGCAATCTGCTCTACCCCGTGCCCCTGATCCACAGGGTGGCCATCGTCAGCGAGAAGGGGGAGGTGCGGGGATTTCTGCGTGTGGCCGTCCAGGCCATTGCAGCGGATGAAGAAGCTCCGGATTATGGCTCTGGAATTCGACAGTCAGGAACAGCTAAAATATCTTTTGATAACGAATACTTTTATCAGAGTGACTTTTCCTCAGTTGCAATGACTCGTTCTGGTCTGTCCTTGGAGGAGCTGAGGATTGTGGAAGGACAGGGTCAGAGTTCTGAGGTCATCACTCCTCCAGAGGAAATCAGCCGAATGAATGATCGGGATTTGAAGTCAGGCACTTTGCTGGATGGTAAGATGGTGATGGAAGGGTTTTCCGAAGAGATTGGCAACCACCTGAAACTGGGCAGTGCCTTTACCTTTCGAGTAACAGTGTTGCAGGCCAGCGGGATCCTCCCCGAGTATGCGGATATCTTCTGTCAGTTCAACTTCTTGCATCGCCATGATGAAGCGTTCTCCACTGAACCCCTCAAAAACAACGGCAGAGGAAGTCCCCTGGGCTTTTATCATGTGCAGAATATTGCGGTGGAGGTCACAGAGTCATTTGTGGACTATATCAAAACCAAGCCTATTGTATTTGAAGTCTTTGGGCATTATCAGCAGCACCCACTTCATCTGCAAGGACAGGACCTTAGCAGTCCGCCTCAGCCTTCTCGACGATTCTTCCCTCCACCCATGCCACTCTCCAAGCCAGTTCCAGCCACCAAGTTAAACACCATGAGCAAAACCAGCCTCGGCCAAAGCATGAGCAAGTATGACCTCCTGGTTTGGTTTGAGATCAGTGAACTGGAGCCTACAGGAGAGTACATCCCGGCTGTGGTTGACCATACTGCAGGGTTACCCTGCCAGGGGACGTTTCTGCTTCACCAGGGCATCCAGCGAAGGATCACAGTGACCATCATCCACGAGAAGGGGAGTGAGCTGCACTGGAAAGACGTCCGGGAGCTGGTGGTAGGCCGGATTAGAAATAAGCCCGAGGTGGATGAAGCTGCAGTCGATGCCATCCTCTCCCTAAATATCATCTCTGCCAAGTACCTGAAGTCTTCGCACAACTCCAGCAGAACCTTCTACCGTTTCGAGGCCGTGTGGGACAGCTCCCTCCATAACTCCCTTCTCCTGAACCGAGTGACGCCCTACGGAGAGAAGATCTACATGACCCTGTCCGCCTACCTGGAGCTGGACCACTGCATCCAGCCTGCGGTCATCACCAAGGACGTGTGCATGGTCTTCTATTCCCGAGACGCCAAGATCTCGCCGCCACGCTCTCTGCGCAGCCTCTTTGGCAGTGGCTACTCCAAGTCACCAGACTCGAATCGAGTCACTGGGATTTATGAACTCAGCTTATGCAAAATGGCAGACACAGGTAGCCCAGGCATGCAGAGGCGGCGGAGGAGAGTGCTGGACACATCAGCGGCCTATGTGCGCGGTGAGGAAAACCTGGCCGGCTGGCGGCCCCGCGGGGACAGCCTCATCTTGGAGCACCAGTGGGAGCTGGACAAGCTGGAGCTGCTGCACGAGGTGGAGAAAACGCGCCACTTCCTGCTGCTGCGTGAGAGACTTGGTGACAGCATCCCCAAATCCCTGAGTGACTCATTGTCCCCCAGCCTCAGCAGTGGGACCCTCAGCACCTCCACCAGCATCTCCTCTCAAATCTCAACCACCACCTTCGAAAGCGCCATCACCCCCAGCGAGAGCAGCGGGTATGACTCGGCAGACATCGAGAGCCTGGTGGATCGCGAGAAAGAGCTGGCCACCAAGTGCCTGCAGCTCCTCACCCACACTTTCAACCGGGAGTTCAGCCAGGTGCACAGCAGCATCAGCGACTGCAAGTTGTCTGACATCTCTCCAATGGGACGCAACCCTTCCGTGTCCAGTTTCAGCAGTGCCACCCTCACCCCGTCCTCCACATGCCCCTCTCTGGTCGACTCCAGGAGCAACTCTGTGGATCAGAAGACCCCAGAAGCCAATTCCCGGGCCTCCAGTCCCTGCACAGAATTTGAACAGTTTCAGATCATCCCAGCTGTAGAGACACCCTATTTGGCCCGAGCAGGAAAACATGAATTTCTCAATCTCGTTCCAGATATTGAAGAAATCCGACCAGGCTCAGTGGTCTCTAAGAAAGGATACCTGCATTTCAAGGAGCCGCTTTCCAGCAGCTGGGCCAAGCATTTTGTTGTGGTCCGTCGCCCTTACGTCTTCATCTACAACAGTGACAAGGACCCAGTGGAACGTGGCATCATTAACCTGTCCACGGCACAGGTGGAGTACAGTGAGGACCGGCAGGCTATGGTGAAGACACCTAACACCTTCGCTGTGTCCACAAAGCATCGAAGGGTCCTTCTGCAGGCTGTCAATGACAAGGACATGAATGACTGGTTATATGCCTTTAACCCCCTCCTTGCTGGCACAATACGGTCAAAGCTGTCCCGGAGATGCCTGAGCCAGCCCAAGTACTGA

XM_004863616.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X1

Length: 5475 bp    Location: 2428563..2282999   Strand: -
>XM_004863616.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGGATAACTGCACCAGCAAGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATATTGATCCATTGATTGATGATTACTCTGGAAGTGGAGGCAAATATCTGAAAGATTTTCAGAACAATAAGCATAGATACTTGCTAGCCTCTGAGAATCAACGCCCTGGCAATTTCTCCACAGCATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACTATGAGAGTAAATTGCAGGCCTTGCAGAAGCAGGTTGAGACCCGATCCCTGGCTGCCGAAACAACTGAAGAGGAAGAAGAGGAGGAAGAAGTTCCGTGGACACAGCATGAATTTGATTTGGCTCAGTGGGCCTTCCGCAAGTGGAAGTCTCACCAATTTACTTCATTGCGGGACTTACTCTGGGGCAATGCTGTGTACCTGAAGGAGGCCAATGCCATCAGTGTGGAGCTGAAGAAGAAGGTGCAGTTCCAGTTTGTTCTTCTGACTGACACACTGTACTCCCCTTTGCCACCTGAACTGCTTCCCACTGACGTGGAAAAGATTCACGAGGATAGGCCTTTCCCTCGCACAGTGGTGGCAGTAGAAGTTCAGGATCTGAAGAATGGAGCAACGCATTATTGGTCTTTGGAGAAACTTAAACAGAGGCTGGATTTGATGCGAGAGATGTATGACAGGGCAGGTGAGATGGCCTCCAACGCCCAAGACGAAAGCGAAGCCACCATGACGGGCAGCGATCCATTCTACGATCGGTTCCACTGGTTCAAACTTGTGGGAAGCTCCCCCATTTTCCACGGCTGTGTGAATGAGCGCCTTGCCGACCGCACACCCTCCCCTACTTTTTCCACGGCCGACTCCGACATCACTGAGCTGGCTGACGAGCAGCAAGATGAGATGGAGGATTTTGATGATGAGGCATTCGTGGATGACACCGGCTCTGACGCAGGGACGGAGGAGGGATCAGATCTCTTCAGTGATGGGCGTGACCCGTTTTACGACCGGTCCCCTTGGTTCATTTTGGTGGGAAGGGCATTTGTGTACCTGAGCAATCTGCTCTACCCCGTGCCCCTGATCCACAGGGTGGCCATCGTCAGCGAGAAGGGGGAGGTGCGGGGATTTCTGCGTGTGGCCGTCCAGGCCATTGCAGCGGATGAAGAAGCTCCGGATTATGGCTCTGGAATTCGACAGTCAGGAACAGCTAAAATATCTTTTGATAACGAATACTTTTATCAGAGTGACTTTTCCTCAGTTGCAATGACTCGTTCTGGTCTGTCCTTGGAGGAGCTGAGGATTGTGGAAGGACAGGGTCAGAGTTCTGAGGTCATCACTCCTCCAGAGGAAATCAGCCGAATGAATGATCGGGATTTGAAGTCAGGCACTTTGCTGGATGGTAAGATGGTGATGGAAGGGTTTTCCGAAGAGATTGGCAACCACCTGAAACTGGGCAGTGCCTTTACCTTTCGAGTAACAGTGTTGCAGGCCAGCGGGATCCTCCCCGAGTATGCGGATATCTTCTGTCAGTTCAACTTCTTGCATCGCCATGATGAAGCGTTCTCCACTGAACCCCTCAAAAACAACGGCAGAGGAAGTCCCCTGGGCTTTTATCATGTGCAGAATATTGCGGTGGAGGTCACAGAGTCATTTGTGGACTATATCAAAACCAAGCCTATTGTATTTGAAGTCTTTGGGCATTATCAGCAGCACCCACTTCATCTGCAAGGACAGGACCTTAGCAGAAATTTATCTTTCTCTCCTTGCAGTCCGCCTCAGCCTTCTCGACGATTCTTCCCTCCACCCATGCCACTCTCCAAGCCAGTTCCAGCCACCAAGTTAAACACCATGAGCAAAACCAGCCTCGGCCAAAGCATGAGCAAGTATGACCTCCTGGTTTGGTTTGAGATCAGTGAACTGGAGCCTACAGGAGAGTACATCCCGGCTGTGGTTGACCATACTGCAGGGTTACCCTGCCAGGGGACGTTTCTGCTTCACCAGGGCATCCAGCGAAGGATCACAGTGACCATCATCCACGAGAAGGGGAGTGAGCTGCACTGGAAAGACGTCCGGGAGCTGGTGGTAGGCCGGATTAGAAATAAGCCCGAGGTGGATGAAGCTGCAGTCGATGCCATCCTCTCCCTAAATATCATCTCTGCCAAGTACCTGAAGTCTTCGCACAACTCCAGCAGAACCTTCTACCGTTTCGAGGCCGTGTGGGACAGCTCCCTCCATAACTCCCTTCTCCTGAACCGAGTGACGCCCTACGGAGAGAAGATCTACATGACCCTGTCCGCCTACCTGGAGCTGGACCACTGCATCCAGCCTGCGGTCATCACCAAGGACGTGTGCATGGTCTTCTATTCCCGAGACGCCAAGATCTCGCCGCCACGCTCTCTGCGCAGCCTCTTTGGCAGTGGCTACTCCAAGTCACCAGACTCGAATCGAGTCACTGGGATTTATGAACTCAGCTTATGCAAAATGGCAGACACAGGTAGCCCAGGCATGCAGAGGCGGCGGAGGAGAGTGCTGGACACATCAGCGGCCTATGTGCGCGGTGAGGAAAACCTGGCCGGCTGGCGGCCCCGCGGGGACAGCCTCATCTTGGAGCACCAGTGGGAGCTGGACAAGCTGGAGCTGCTGCACGAGGTGGAGAAAACGCGCCACTTCCTGCTGCTGCGTGAGAGACTTGGTGACAGCATCCCCAAATCCCTGAGTGACTCATTGTCCCCCAGCCTCAGCAGTGGGACCCTCAGCACCTCCACCAGCATCTCCTCTCAAATCTCAACCACCACCTTCGAAAGCGCCATCACCCCCAGCGAGAGCAGCGGGTATGACTCGGCAGACATCGAGAGCCTGGTGGATCGCGAGAAAGAGCTGGCCACCAAGTGCCTGCAGCTCCTCACCCACACTTTCAACCGGGAGTTCAGCCAGGTGCACAGCAGCATCAGCGACTGCAAGTTGTCTGACATCTCTCCAATGGGACGCAACCCTTCCGTGTCCAGTTTCAGCAGTGCCACCCTCACCCCGTCCTCCACATGCCCCTCTCTGGTCGACTCCAGGAGCAACTCTGTGGATCAGAAGACCCCAGAAGCCAATTCCCGGGCCTCCAGTCCCTGCACAGAATTTGAACAGTTTCAGATCATCCCAGCTGTAGAGACACCCTATTTGGCCCGAGCAGGAAAACATGAATTTCTCAATCTCGTTCCAGATATTGAAGAAATCCGACCAGGCTCAGTGGTCTCTAAGAAAGGATACCTGCATTTCAAGGAGCCGCTTTCCAGCAGCTGGGCCAAGCATTTTGTTGTGGTCCGTCGCCCTTACGTCTTCATCTACAACAGTGACAAGGACCCAGTGGAACGTGGCATCATTAACCTGTCCACGGCACAGGTGGAGTACAGTGAGGACCGGCAGGCTATGGTGAAGACACCTAACACCTTCGCTGTGTCCACAAAGCATCGAAGGGTCCTTCTGCAGGCTGTCAATGACAAGGACATGAATGACTGGTTATATGCCTTTAACCCCCTCCTTGCTGGCACAATACGGTCAAAGCTGTCCCGGAGATGCCTGAGCCAGCCCAAGTACTGA

XM_004863605.1 Coding sequence

Pgd phosphogluconate dehydrogenase, transcript variant X1

Length: 1452 bp    Location: 2274834..2261847   Strand: -
>XM_004863605.1
ATGGCCCAAGCTGACGTTGCGCTTATCGGACTCGCTGTCATGGGCCAGAACTTGATTTTGAACATGAATGACCACGGCTTTGTGGTCTGTGCCTTTAACAGGACAGTCTCCAAGGTAGATGATTTCTTGGCCAACGAGGCGAAGGGAACCAAGGTGGTGGGGGCACACTCCCTGAAGGAGATGGTGTCCAAGCTGAAGAAGCCGCGTCGGGTCATCCTGCTGGTGAAGGCCGGCCAGGCCGTGGACGACTTCATTGAGAAACTGGTCCCATTGATGGACACTGGTGACATCATCATCGACGGGGGGAATTCCGAGTATCATGATACCACAAGACGATGTCGAGACCTCAAGGCCAAGGGCATCTTGTTTGTGGGGAGTGGCGTTAGTGGTGGCGAGGAGGGTGCCCGGTACGGCCCATCACTCATGCCAGGAGGGAACAGAGAGGCTTGGCCGCACATCAAGACAATCTTCCAGAGCATCGCTGCCAAAGTGGGGACTGGAGAGCCCTGCTGTGACTGGGTGGGAGATGAGGGGGCCGGGCACTTCGTGAAGATGGTGCACAATGGCATCGAGTACGGCGACATGCAGCTCATCTGTGAGGCGTACCAGCTGATGAAGGACGTGCTGGGCCTGGGCCACACCGACATGGCCCAGGCATTCGAGGACTGGAATAAGACAGAGCTGGACTCGTTCCTGATTGAAATCACCGCCAATATCCTCAAGTTCAAAGACAGCGATGGCCAACATCTGCTGCCCAAGATCAGGGACAGCGCGGGGCAGAAGGGCACTGGGAAATGGACGGCCATCTCCGCCCTGGAGTACGGCGTTCCTGTCACCCTCATCGGAGAAGCTGTCTTCGCTCGGTGCTTATCGTCGCTGAAGGATGAGAGGGTCCAAGCCAGCAAGAGGCTGAAGGGCCCCCAGAAGACCCAGTTTGGGGGCGACAAGAAGTCCTTCCTGGAGGACATCCGGAAGGCCCTCTACGCGTCCAAGATCATCTCGTACGCGCAGGGCTTCATGCTGCTGAGGCAGGCGGCGTCCGAATTCGGCTGGACCCTCAACTACGGCGGCATCGCCCTCATGTGGCGAGGGGGCTGTATCATCCGCAGTGTCTTCCTGGGGAAGATAAAGGACGCCTTCGACCGAAACCCGGAACTCCAGAACCTGCTGCTGGATGACTTCTTCCGGTCAGCTGTGGAAAGCTGCCAGGACTCGTGGCGGCGCACGGTGAGCACCGGGGTCCAGGCGGGCATCCCCATGCCCTGCTTCACCACCGCCCTGTCCTTCTACGACGGCTACAGACACGAGATGCTGCCGGCCAACCTCATCCAGGCGCAGCGGGATTATTTCGGGGCCCACACCTACGAACTCTTGGCCAAGCCGGGACAGTTCGTCCACACCAACTGGACGGGCCACGGCGGGAGCGTGTCGTCGTCCTCCTACAACGCCTGA

XM_004863604.1 Coding sequence

LOC101701335 60S acidic ribosomal protein P1-like

Length: 285 bp    Location: 2225880..2225419   Strand: -
>XM_004863604.1
ATGGCCTCCGTCTCCGAGCTCACCTGCATCTACTCTGCCCTTATCCTGCACGATGACGAGGTGACAATCACGGAGGATAAGATCAATGCCCTGGCTAATGTCAACATTGGGAGCCTCATCTGCAATGTAGGGGCTGGTGGCCCTGCTCCTGTAGCTGGTGCTGCACCTTCGGGAGGCCCTGCCCCCTCCACTGCTGCTGCCCCAGCTGAGGAGAAGAAGGAAGAAGCAAAGAAAGAAGAATCTGAGGAGTCTGATGACGACATGGGCTTTGGTCTTTTTGACTAA

XM_004863601.1 Coding sequence

Pex14 peroxisomal biogenesis factor 14, transcript variant X5

Length: 1005 bp    Location: 2219080..2086302   Strand: -
>XM_004863601.1
ATGAACTCCTACGTAGTTCCTGGGAAAGAAAGATGCCAAACCACTTATGGGCTGATAAAAACCCTGTGCATTACAGTCTCAAGCGGAGCGCTCACTTTCTGTTTCCAGCAGCTTCCAATTGCCACAGCAGTGAAGTTTCTACAGAATTCTCGGGTCCGCCAGAGCCCGCTTGCAACCAGGAGAGCATTCCTGAAGAAGAAAGGGCTGACCGATGAAGAGATCGACCTGGCTTTTCAGCAGTCGGGCACTGCTGCCGAGGAGCCCGCGTCCTTGGGCCCAGCCACGCAGGTGGTTCCTCTGCAGCACCCCCACCTCATTTCGCAGCCATACAACCCTGCAGGTTCCCGGTGGCGAGACTATGGTGCCTTGGCTGTCATCATGGCCGGAATCGCGTTCGGCTTTCACCAGCTCTACAAGAAGTACCTGCTGCCCCTCATCCTGGGTGGCCACGAGGACAGGAAGCAGCTGGAGAGGATGGCAGCGAGTCTCTCCGAGCTGAGTGGCAGCGTGGCCCAGACAGTGACCCAGGTGCAGACGACGCTGGCCTCCGTCCAGGAGCTGCTGAGGCAGCAGCAGCAGAAAGTCCAGGAGCTGGCCCAGGAGCTGGCTGCGGCCAAGGCGAGGCCCAGGAAGCAGTGGTCCCGGGGCTCTGTGACATCCTCTGAGGGTTTCACTCAAGCTGCTGTCCCAGCGAAAGCCACCCCTGTTGCACAGGTGCTGCCCGCTTCCTCCTCCAGCTGCTGGGGCTCGGGCTTCCGCAGGCGGGCAGGCAGGCCTGAAGCAGCTTCTCTCCATTATCTTTTGGATTCGAGGCCTGCCAGTGGCCAGCAGCCATTCCGGAAATTGGAAAACTGTTTCCCGGCCTCGCACGTTAAGATTAAGACCACATGTTGCATTGTGAGGAGGGCGGTCGGCCTCACCAACCCCTTCCCTGCTCCCTGTGCTGAAGCCGGGTCCCCAGCTTGGCATCCAACCCATCTGTGTGAGGACTTCAGTTACCCATAA

XM_004863603.1 Coding sequence

Dffa DNA fragmentation factor, 45kDa, alpha polypeptide, transcript variant X2

Length: 819 bp    Location: 2225836..2235860   Strand: +
>XM_004863603.1
ATGGAGGTGACCGGGGGTGCCGGTGTTGCGGACCCCGGCGAGATCCGGCCTCTGAAGCCTTGTTTAGTGCGTCGCAACCACAGCCGCGAACAGCACGGCGTGGCGGCCTCTTCCGTCGAAGAGCTGAGGAACAAGGCCTGTGACATTCTGACCATTGACAAGTCCCTAACACCAGTCACCCTGGTCCTAGCAGAGGATGGCACCATAGTTGATGATGATGACTACTTCCTGTGTCTCCCTTCCAACACTAAGTTTGTGGCCTTGGCTAGTAACGAGAAGTGGACATACAGCAATTCAGATGGAGGCACAGCTTGGATTTCCCAAGAGTCCTTTGACGTAGATGAAACAGACAGCGGGGCAGGGGTGAAGTGGAAGAATGTGGCCAGGCAGCTGAAAGAAGATCTGTCCAGCATCATCCTGCTGTCAGAGGAGGAGCTCCAGGTGCTCACTGGCGTGCCATCTTCAGACCTGGCGCAGGAGCTGTGCCAGACCCATGCCGCCGCTCAGGGGCTCCAGAACACGCTGCAGCGGGTGCTCGACCAGCGAGAGGAGGCCCGGCAGTCCAGACAGCTCCTGGAGCTTTACCTGCGGGCTCTGGACAAGAAGGACGGCGTCTTGTCAAGGCCGGAAGTTGGTCACCAAGGAGGACCCCCAAGCCCTGGCCTCTGCTCTGAACTGGGACATAAAGAAGACAGAAGCGGCTCAGCAGGCCTGCGCCCAGGAGCTCGCCCGGCGCCTGCAGCAGACCCAGAGCTTGCGTTCGCTCAGGACTCTGTCAGCCAGGAGGAACTCCCTGCCCAGAGGATCGCAGGGAGCTAA

XM_004863595.1 Coding sequence

Casz1 castor zinc finger 1, transcript variant X1

Length: 5448 bp    Location: 2024597..2077767   Strand: +
>XM_004863595.1
ATGAAAGTTGATTATTTAAGTGAATTCGGCTTTCGACTCTCCGACTATGAGTTTGGGACCAAGGAGCGCAGAATGGATCTCGGAACAGAGCCAAGCTTCTGCTCTATTCCAGGCACCAGAGTGGCAGAAATAAAGGAGCCCTGTGCCTGCCTTCAAGGGCCTGTGCCTGCTGAAGGCACCCGGTGCACCGACCCGCCTGCAGGCAAGCCCTCAATGGCGGCCAAGCGCAAAGGTGGCCTGAAGCTCAACGCCATCTGCGCCAAGCTGAGCCGCCAGGTGGTGGTGGACAAGGGAGCAGAGGCCGGCTCCCAGGCCGTGGGCAGCCCACTGCGGCCCCGGGACAAGGAGTGCAGTGGCCCTGAGTCTGGGGTGCCCCAGGCTCCCCGAAGCGAAGAAGACAAGAGGCGGGCGGTGATCGAGAAGTGGGTCAACGGGGAGTACAGCGAGGAGCCAGCACCCACGCCAGTGTTGGGGCGAATTCCCCGAGAGGGCCTGGAGCTGCCGCCCGAGGGAGTCTACATGGTCCAGCCCCAGGGCTGCAGCGATGAGGAAGACCATGCAGAAGAGCCTTCCAAAGATGGCGGCGGCAGCCTGGAGGAGAAGGACTCGGATGGGACAGCCTCAAAGGACAGCAGTGGCCCTGGTGCCAAGCAGGCTTCAGGAGAGGCCTCCTCTCTGCGGGACTATGCGGCCTCCACCATGACCGAGTTCCTTGGCATGTTCGGCTACGACGACCAGAACACGAGGGACGAGCTGGCCAGGAAGATCAGCTTCGAGAAGTTGCACGCGGGCTCCACCCCTGAGGCGGCCACCTCCTCCGTGCTGCCCGCCTCAGAGGACGCCCTCAGCAAGCGGGTGCGGTTCTCCAAGTACGAGGAGTACATCCGAAAGCTCAAGGCCGGGGAGCAGCTCTCCTGGCCAGCCCACGGCACCAAGGTGGAGGAGCGGGCAGGCAAGGAGGTGGTGGGTCCCCTGCCGGGCCTGCGGCTGCCCAGCAACACCACCCACCTAGAGACCAAGGCCACCATCTTGCCCCTGCCGTCACACAGCAGTGTCCAGATGCAGAACCTGGTGGCCCGTGCCTCCAAGTATGACTTCTTCATCCAAAAACTGAAGACGGGTGAGAACCTGCGGCCCCAGAATGGGAGCACCTACAAGAAGCCATCCAAGTACGACCTGGAGAACGTCAAGTATCTGCACCTCTTCAAACCAGGGGAGGGCAGCCCTGACATGGGCGGGGCCATCGCCTTCAAGACGGGCAAAGTGGGGCGGCCCTCCAAGTACGACGTCCGGGGCATCCAGAAGCCCAGCCCCGCCAAGGTTCCACCCACCCCCAGCCTGGCTCCTGCAGCCCTCGCCGTTGTGCCCAGTGCTCCCAGCGCCCCCGGGCCAGGGCCCGAGCCACCTGCCTCCCTGTCCTTCAACACTCCTGAGTACCTGAAGTCCACCTTCTCCAAAACAGACTCCATCACCACAGGCACCGTCTCCACTGTCAAGAACGGATTGCCCACAGATAAGCCAGCTGTCACTGAAGATGTAAACATTTACCAGAAATATATTGCCAGGTTCTCAGGCAGTCAGCACTGTGGCCATATCCATTGCGCCTACCAGTACCGTGAGCACTACCACTGCCTGGACCCAGAGTGCAACTACCAGAGGTTCACGAGTAAGCAGGACGTGATCCGGCACTACAACATGCACAAGAAGCGCGACAACTCCCTGCAGCACGGCTTCATGCGCTTCAGCCCGCTGGATGACTGCAGTGTATACTACCACGGCTGCCACCTCAACGGGAAGAGCACCCACTACCACTGCATGCAGGTGGGCTGTAACAAGGTGTACACAAGCACGTCCGACGTGATGACCCACGAGAACTTCCACAAGAAGAATACACAGCTCATCAACGACGGCTTCCAGCGCTTCCGAGCCACTGAGGACTGCGGCACGGCCGACTGCCAGTTTTATGGACAGAAGACCACGCACTTCCACTGCAGGCGCCCTGGCTGCACATTCACCTTCAAGAACAAGTGTGACATTGAGAAGCACAAGAGCTACCACATCAAGGATGACGCCTATGCTAAGGATGGCTTCAAGAAGTTCTATAAGTACGAGGAGTGCAAGTATGAGGGCTGTGTGTACAGCAAGGCCACCAACCACTTCCACTGCATCCGCGCCGGCTGCGGCTTCACCTTCACCTCCACCAGCCAGATGACCTCGCACAAGCGCAAGCACGAGCGCCGCCACATCCGCTCCTCGGGCGTGCTGGGGCTGCCACCCTCGCTGCTGGGCGCCAAGGACACGGAGCACGAGGAGTCAAGCAACGACGACCTGGTCGACTTCTCTGCCCTGAGCAGCAAGAACTCCAGCCTGAGCGCCTCTCCCACTAGCCAGCAGTCCTCCGCATCCCTGGCCGCCGCTGCCAGCGCCACCACCGAGGCTGTGCCCAGTGCCACCAAGCCTCCCAACAGCAAGGTCTCGGGGCTTCTGCCCCAGGGCCTGCCTGGCTCCATCCCGCTGGCACTGGCCCTCTCCAACTCTGGCCTGCCCACCACTGCGCCCTATCTCCCCCTCCTCCCTGGCCGGGGGAGCGCGTCCCTGCCTGTGGGTGCCCCCGGCCTTCTGAGTGCCGTGTCATCTGGGGCAGCACCCTCAGCAGCCCCTGACACACCTGCTCTGGTGGCCTCAGGAGCTGGAGACTCGGCCCCAGCAGCTGCCACCTCTGTCCTGGTGCCCCCTGCCTCCATCATGGAGAGGATCTCTGCGAGCAAAGGGCTCATCTCACCCATGATGGCCAGACTGGCTGCGGCTGCCCTCAAGCCCTCTGCCACCTTTGACCCAGGAAGCGGGCAGCAGGCCACCCCTACCAGGTTCCCCCTGGCCCAGGTGAAGCAGGAGCCCTGCAGCGAGAGCGCTGGTGCCCCAGGCCCACACGAGGCTGCCCACGACCGCAGTCTCAACCTGACTGTGAAGGAGCCCAGTAATGAATCAAATGGCCACGCAGTCCCAGCAAATTCATCTCTTTTATCCTCGCTTATGAATAAGATGTCTCAGGGCGACCCTGGCCTCGGCAGCCTGCTGAACATCAAGGCAGAAGTGGAGGGGAGCCCTGCTACGGAGCCCTCACCCTTCCTGGGCAAGGCTGTGAAGGCACTTGTCCAGGAGAAGCTGTCGGAGCCCTGGAAGGTGTACCTGCGCAGGTTTGGTACCAAGGACTTCTGTGACGCCCAGTGTGACTTCCTCCACAAGGCCCATTTCCACTGCGTGGTGGAGGAGTGTGGTGCGCTCTTCAGCACCCTGGACGGGGCCATCAAGCACGCAAACTTCCACTTCCGGACAGAGGGAGGAACAGCGAAAGGAAACACAGAGGCTTCCTTCCCAGCCTCTGCTGCTGAGACCAAACCTCCCCTAGCACCCTCATCCCCCCCAGCACCCCCTGGCGCCACAGTCCCGGGGTCTTCCCTGGAGGGGCCCACTCCTAACCCAGCCTTGGTGCCCTCCACCCCCACCCTGCTCGCCTGGAAGCAGCTGGCTTCCACCATACCCCAGATGCCTCAGATGCCCGCGTCAGTGCCTCACCTTCCCGCTTCACCCTTGGCAACGACTTCTCTAGAGAACGCCAAGCCCCAGGTCAAACCCGGATTCCTCCAGTTCCAGGAGAATGATCCTTGCCTCACGACAGACTGCAAGTACGCCAACAAGTTCCACTTCCACTGTCTCTTTGGGAACTGCAAGTACGTCTGCAAGACCTCTGGCAAGGCTGAATCCCACTGCCTGGATCACATCAACCCCAACAACAGCCTGGTGAATGTGCGAGACCAGTTTGCTTACTATTCCCTCCAGTGTCTCTGTCCCAACCAGCACTGTGAATTCCGGATGCGAGGGCACTACCACTGCCTCCGGACTGGCTGCTACTTTGTGACCAACATCACCACCAAGCTGCCCTGGCACATAAAGAAGCATGAGAAGGCTGAGCGGCGGGCGGCCAATGGATTCAAATACTTCACCAAGCGGGAGGAGTGCGGCAGGCTAGGCTGCAAGTACAACCAGGTGAACAGCCACTTCCACTGCATCCGGGAGGGCTGCCAGTTCTCCTTCCTCCTCAAGCACCAGATGACCTCTCACGCCCGGAAGCACATGCGGAGGATGCTAGGGAAGAACTTCGACCGAGTGCCCCCCTCCCAGGGCCCCCCAAGCCTGATGGATGCCGAGACAGATGAGGGCATGGATTACACCGGCTGCAGCCCAGGCGCTGCCTCCTCCGAGTCGTCCACCATGGATCGGAGCTGCTCAAGCACCCCGGTGGGCAACGAGAGCACTGCGGCAGGGAACACCATCTCCATGCCCACCGCCTCGGGGGCCAAAAAGCGCTTCTGGATCATCGAGGACATGTCGCCCTTCGGCAAGCGGCGGAAGACGGCCTCCTCGCGCAAGATGCTGGACGAGGGCATGATGCTGGAGGGCTTCCGGCGCTTCGACCTCTACGAGGACTGCAAGGACGCGGCCTGCCAGTTCTCACTCAAGGTCACGCACTACCACTGCACTCGGGAGAACTGCGGCTACAAGTTCTGCGGGCGCACGCACATGTACAAGCACGCGCAGCATCACGACCGCGTGGACAACCTGGTGCTGGACGACTTCAAGCGCTTCAAGGCCTCGCTCAGCTGCCACTTCACCGACTGCCCATTCTCGGGCACCAGCACGCACTTCCACTGCCTGCGCTGCCGCTTCCGCTGCACCGACAGCACCAAGGTCACGGCGCACCGCAAGCACCACGGCAAGCAGGACGTGATCAGCGCCGCGGGCTTCTGCCAGTTCAGCTCGAGCGCAGACTGCGCCGTGCCCGACTGCAAGTACAAGCTCAAGTGCTCGCACTTCCACTGCACCTACCCGGGCTGCCGCCACACGGTGGTGGGCATGTCGCAGATGGACTCGCACAAGCGCAAGCACGAGAAGCAGGAGCGCGGGGAGCCGCCCGCCGCGTCGCCCTCGCCCTCGCCCTCGCCCGGCGGCCTGGATGGGGCGCTCGCGCTCGGCGCTGAGCCCGGGGCGTCGCTGCTCTTCCTGCAGTCGGCGGCCACGGGCCTGGGCCTGGCCCTGGCGCTGGGCGATGCGGGTGACCCCGGGCCGCCCGACGCCGCCGCAGCTGCCTCCCGCCCGCAGGAGGGGCCCACTGTGCCCGGCCCGGCCAGCGCTGCTGTCCAGGCCGCGGGGGAGTCCTCGCAGGAGGATGACGAGGAGGAGCTGGAGATGCAGGAGGAGGCCGAGGACGACGACGACGACGAGGACGACGACGAGGACGACGACGAGGACGACGACGACGACGAGGACGACGACGACGAGGACCTGCGCACCGACTCGGAGGAGTCGCTGCCCGAGGCGGCAGCCGAGGCCCCGGCGCTGGTGGCCCTGGGCACCCCGGGGCCAGCGCCCGCCGCGGCATCGCCCTAG

XM_004863597.1 Coding sequence

Pex14 peroxisomal biogenesis factor 14, transcript variant X1

Length: 1251 bp    Location: 2208648..2082709   Strand: -
>XM_004863597.1
ATGAACTCCTACGTAGTTCCTGGGAAAGAAAGATGCCAAACCACTTATGGGCTGATAAAAACCCTGTGCATTACAGTCTCAAGCGGAGCGCTCACTTTCTGTTTCCAGCAGCTTCCAATTGCCACAGCAGTGAAGTTTCTACAGAATTCTCGGGTCCGCCAGAGCCCGCTTGCAACCAGGAGAGCATTCCTGAAGAAGAAAGGGCTGACCGATGAAGAGATCGACCTGGCTTTTCAGCAGTCGGGCACTGCTGCCGAGGAGCCCGCGTCCTTGGGCCCAGCCACGCAGGTGGTTCCTCTGCAGCACCCCCACCTCATTTCGCAGCCATACAACCCTGCAGGTTCCCGGTGGCGAGACTATGGTGCCTTGGCTGTCATCATGGCCGGAATCGCGTTCGGCTTTCACCAGCTCTACAAGAAGTACCTGCTGCCCCTCATCCTGGGTGGCCACGAGGACAGGAAGCAGCTGGAGAGGATGGCAGCGAGTCTCTCCGAGCTGAGTGGCAGCGTGGCCCAGACAGTGACCCAGGTGCAGACGACGCTGGCCTCCGTCCAGGAGCTGCTGAGGCAGCAGCAGCAGAAAGTCCAGGAGCTGGCCCAGGAGCTGGCTGCGGCCAAGGCGAGGCCCAGGAAGCAGTGGTCCCGGGGCTCTGTGACATCCTCTGAGGGTTTCACTCAAGCTGCTGTCCCAGCGAAAGCCACCCCTGTTGCACAGGCCACCACGTCTACCAACTGGATCCTGGAGTCCCAGAATATCAGTGAACTCAAGGCAGAGATTAACTCCTTGAAAGGGTTGCTTTTGAATCGGAGGCAGTTCCCGCCGTCCCCTTCGCCGTCGGCCCCGAAGATCCCCTCCTGGCAGATCCCGGTCAAATCGCCGTCACCCTCCAGCCCCGCGGCCGCCAACCATCACAGCAGCAGTGACATCTCCCCAGTGAGCAACGAGTCCACGTCGCCATCACCTGGGAAGGAGAGCCATAGCCCCGAGGGCGCCACGGCCGCCTACCACCTGCTGGGCCCGCAGGAGCAGGCCGAGGGCGAGGTGGACGTGAAGGGCCAGGTGCGCATGGAGGTGCAGGGCGAGGAGGAGAAGAGGGAGGACGAGGAGGACGAGGACGCGGGCCAGGCGGACGAGGAGGACGTGCTGGGGGTGCAGAGGGAGGACCGCCGGGGTGGGGACGGGCAGATCAACGAGCAGGTGGAGAAGCTTCGGCGGCCTGAGGGTGCCAGCAATGAGAGCGGGCGGGCCTAG

XM_004863599.1 Coding sequence

Pex14 peroxisomal biogenesis factor 14, transcript variant X3

Length: 1155 bp    Location: 2183442..2082709   Strand: -
>XM_004863599.1
ATGAACTCCTACGTAGTTCCTGGGAAAGAAAGATGCCAAACCACTTATGGGCTGATAAAAACCCTGTGCATTACAGTCTCAAGCGGAGCGCTCACTTTCTGTTTCCAGCAGCTTCCAATTGCCACAGCAGTGAAGTTTCTACAGAATTCTCGGGTCCGCCAGAGCCCGCTTGCAACCAGGAGAGCATTCCTGAAGAAGAAAGGGCTGACCGATGAAGAGATCGACCTGGCTTTTCAGCAGTCGGGCACTGCTGCCGAGGAGCCCGCGTCCTTGGGCCCAGCCACGCAGGTGGTTCCTCTGCAGCACCCCCACCTCATTTCGCAGCCATACAACCCTGCAGGTTCCCGGTGGCGAGACTATGGTGCCTTGGCTGTCATCATGGCCGGAATCGCGTTCGGCTTTCACCAGCTCTACAAGAAGTACCTGCTGCCCCTCATCCTGGGTGGCCACGAGGACAGGAAGCAGCTGGAGAGGATGGCAGCGAGTCTCTCCGAGCTGAGTGGCAGCGTGGCCCAGACAGTGACCCAGGTGCAGACGACGCTGGCCTCCGTCCAGGAGCTGCTGAGGCAGCAGCAGCAGAAAGTCCAGGAGCTGGCCCAGGAGCTGGCTGCGGCCAAGGCCACCACGTCTACCAACTGGATCCTGGAGTCCCAGAATATCAGTGAACTCAAGGCAGAGATTAACTCCTTGAAAGGGTTGCTTTTGAATCGGAGGCAGTTCCCGCCGTCCCCTTCGCCGTCGGCCCCGAAGATCCCCTCCTGGCAGATCCCGGTCAAATCGCCGTCACCCTCCAGCCCCGCGGCCGCCAACCATCACAGCAGCAGTGACATCTCCCCAGTGAGCAACGAGTCCACGTCGCCATCACCTGGGAAGGAGAGCCATAGCCCCGAGGGCGCCACGGCCGCCTACCACCTGCTGGGCCCGCAGGAGCAGGCCGAGGGCGAGGTGGACGTGAAGGGCCAGGTGCGCATGGAGGTGCAGGGCGAGGAGGAGAAGAGGGAGGACGAGGAGGACGAGGACGCGGGCCAGGCGGACGAGGAGGACGTGCTGGGGGTGCAGAGGGAGGACCGCCGGGGTGGGGACGGGCAGATCAACGAGCAGGTGGAGAAGCTTCGGCGGCCTGAGGGTGCCAGCAATGAGAGCGGGCGGGCCTAG

XM_004863592.1 Coding sequence

Tardbp TAR DNA binding protein, transcript variant X2

Length: 1245 bp    Location: 1789820..1759497   Strand: -
>XM_004863592.1
ATGTCTGAATATATTCGGGTAACAGAAGATGAGAACGATGAACCCATTGAAATACCAGCAGAAGATGATGGGACAGTACTACTGTCCACAGTTACAGCCCAGTTTCCAGGGGCATGTGGGCTGCGCTACAGGAATCCAGTGTCCCAATGTATGAGAGGCGTCCGTCTGGTTGAAGGAATTCTGCATGCCCCAGATGCTGGCTGGGGAAATCTGGTATATGTTGTCAACTATCCCAAAGATAACAAAAGGAAAATGGATGAGACAGATGCTTCTTCAGCAGTTAAAGTGAAAAGAGCAGTCCAGAAAACATCGGACTTAATAGTGTTGGGTCTTCCGTGGAAAACAACTGAGCAGGATCTAAAAGAATATTTTAGTACCTTTGGAGAAGTTCTTATGGTGCAGGTCAAGAAAGATATTAAAACTGGTCATTCAAAAGGCTTTGGCTTTGTTCGTTTTACGGAATATGAAACCCAGGTGAAAGTAATGTCACAGCGACATATGATAGATGGACGATGGTGTGACTGTAAACTTCCTAATTCTAAGCAAAGTCCGGATGAGCCTTTGAGGAGCAGAAAGGTGTTTGTTGGGCGTTGTACAGAGGACATGACTGCTGATGAGCTTCGGCAGTTCTTCTCTCAGTACGGAGAAGTGGAAGATGTCTTCATTCCCATACCGTTCAGGGCTTTTGCCTTTGTTACCTTTGCAGATGATCAGGTTGCCCAATCTCTTTGTGGAGAGGACTTGATCATTAAAGGAATCAGCGTGCATATATCCAATGCTGAACCTAAGCACAATAGCAATAGACAGTTAGAGAGAAGTGGAAGATTTGGTGGTAATCCGGGTGGCTTTGGGAATCAGGGTGGGTTTGGAAACAGTAGAGGGGGTGGAGCTGGCTTGGGAAACAATCAGGGCAGTAACATGGGTGGGGGGATGAATTTTGGTGCTTTTAGCATTAATCCAGCAATGATGGCTGCAGCCCAGGCCGCGCTGCAGAGCAGCTGGGGTATGATGGGCATGCTTGCCAGTCAGCAGAACCAGTCTGGCCCATCAGGTAATAACCAAAGCCAGGGCAACATGCAGAGGGAGCCAAATCAGGCTTTTGGCTCTGGAAATAACTCTTACAGTGGTTCTAATTCTGGTGCTGCAATTGGTTGGGGATCAGCATCGAATGCAGGGTCAGGCAGTGGTTTTAATGGAGGCTTTGGCTCAAGCATGGATTCTAAGTCTTCTGGCTGGGGAATGTAG

XM_004863590.1 Coding sequence

Masp2 mannan-binding lectin serine peptidase 2, transcript variant X2

Length: 591 bp    Location: 1745483..1747345   Strand: +
>XM_004863590.1
ATGAGGTGGACAGCAGTGCCCATGGCGTCTCCCCGAGGGCTGCTTATCCTCCTGGGACTGCTGTGGGGCTCGGTGGCTGCCACCTCGGGCCTCAGGTGGCCTGAGCCTGTGTTCGGGCGTCTGGCGTCCCCCGGCTTCCCGGGAGAGTACCCCAACCTTCAGGAGCAGCGCTGGGCCCTGGCCGCGCCCCCAGGCTACCGCCTGCGACTCTACTTCACCCACTTCGACCTGGAGCTGTCCTACCTGTGCGAATACGACTTTGTCAAGCTGAGCTCGGGGACCAAGGTGCTGGCCACGCTGTGTGGCTGGGAGAGCACAGACACCGAGCGGGTGCCCAGCAACGACACCTTCTACTCGCCAGGCCCCAGCCTGGACGTCACCTTCCGCTCCGACTACTCCAACGAGAAGCCGTTCACGGGCTTTGAGGCCTTCTACGCCGCCGAGGACATCAACGAGTGCGAAGTGTCCCCGGGGGAGACACCACCCTGCGATCACCACTGTCACAACTACCTGGGTAGCTTCTACTGCTCCTGCCGGGTGGGCTACGTCCTGCACGAGAACAAGCGCACCTGCTCAGAGCAGAGCCTCTGA

XM_004863584.1 Coding sequence

Mtor mechanistic target of rapamycin (serine/threonine kinase)

High confidence: 4 potential gene matches
Length: 7656 bp    Location: 1570294..1698242   Strand: +
>XM_004863584.1
ATGCTGGGAACGGGCCCTGCCGCTGCCACCACAGCTGCCTCCACCTCTAGCAACGTGAGTGTCCTGCAGCAGTTCGCCAGCGGTCTGAAGAGCCGGAGTGAGGAGACCAGGGCCAAAGCGGCCAAGGAGCTCCAGCACTATGTCACCATGGAGCTTCGAGAGATGAGTCAAGAGGAGTCTACTCGATTCTATGATCAGCTGAACCATCACATTTTTGAATTGGTTTCTAGCTCGGATGCCAACGAGAGGAAAGGTGGCATCTTGGCCATTGCCAGCCTCATAGGAGTGGAAGGTGGAAATGCCACACGGATCGGCAGGTTTGCCAACTACCTTCGGAACCTCCTGCCCTCCAGTGACCCAGTTGTCATGGAAATGGCCTCCAAGGCCATCGGCCGTCTTGCCATGGCAGGGGACACTTTCACTGCCGAGTACGTGGAGTTTGAGGTGAAGCGAGCCCTGGAGTGGCTGGGTGCTGACCGCAACGAAGGCCGGAGACATGCAGCTGTCCTGGTCCTCCGTGAGCTGGCCATCAGTGTCCCCACCTTCTTCTTCCAGCAAGTGCAACCCTTCTTTGACAACATTTTTGTGGCCGTATGGGACCCCAAGCAGGCCATCCGTGAGGGAGCCGTGGCCGCCCTCCGTGCCTGTCTGATTCTCACCACCCAGCGAGAGCCGAAGGAGATGCAGAAGCCCCAGTGGTATCGGCACACATTTGAAGAAGCAGAGAAAGGGTTTGATGAGACCTTGGCCAAAGAGAAGGGCATGAATCGGGACGATCGGATCCACGGTGCCTTGCTGATCCTCAATGAGCTGGTCCGGATCAGCAGCATGGAGGGGGAGCGTCTGAGAGAAGAAATGGAAGAAATCACACAGCAGCAGCTAGTGCACGATAAGTACTGCAAAGATCTCATGGGCTTTGGGACGAAACCCCGCCACATTACCCCCTTCACCAGTTTCCAGGCCGTGCAGCCCCAGCAGTCCAACGCCTTGGTGGGGCTGCTGGGGTATAGTTCTCACCAGGGCCTCATGGGGTTCGGGGCTTCCCCCAGCCCAGCCAAGCCCACCCTGGTGGAGAGCCGGTGTTGCAGAGACCTGATGGAGGAGAAGTTTGACCAGGTGTGCCAGTGGGTGCTGAAATGCAGGAATAGCAAGAACTCGCTGATCCAAATGACAATCCTTAATCTGTTGCCCCGCTTGGCTGCATTCCGACCTTCTGCCTTTACAGATACCCAGTACCTTCAAGATACCATGAACCATGTCCTGAGCTGTGTCAAGAAGGAAAAGGAACGTACAGCAGCCTTCCAAGCCCTGGGATTACTGTCTGTGGCTGTGAGGTCAGAGTTTAAGGTCTACCTGCCTCGTGTGCTGGACATCATCCGAGCAGCCCTGCCCCCTAAGGACTTCGCACACAAGAGGCAGAAAGCAATGCAGGTGGATGCCACAGTGTTCACATGCATCAGCATGCTGGCCCGAGCAATGGGGCCGGGCATCCAGCAGGACATCAAGGAGCTGCTGGAGCCCATGCTGGCAGTGGGACTGAGCCCCGCCCTCACTGCCGTGCTCTATGACCTGAGCCGCCAGATTCCGCAGCTGAAAAAGGACATCCAGGATGGGCTCCTGAAGATGCTATCCCTGGTCCTTATGCACAAACCCCTCCGGCACCCAGGCATGCCCAAGGGCCTGGCCCACCAGCTGGCCTCCCCTGGCCTCGCCACCCTCCCTGAGGCCAGCGATGTGGGCAGTATCACTCTTGCCCTCCGAACCCTTGGCAGCTTTGAATTTGAAGGCCACTCCCTGACCCAGTTTGTCCGCCACTGTGCGGATCATTTCCTGAACAGCGAGCACAAGGAGATCCGCATGGAAGCTGCTCGGACGTGCTCTCGCCTGCTCACTCCTTCCATCCACCTCATCAGCGGCCATGCTCACGTGGTTAGCCAGACCGCAGTGCAAGTGGTGGCCGATGTGCTCAGCAAACTGCTCGTGGTTGGGATCACCGATCCTGACCCCGACATCCGCTACTGTGTCTTGGCATCCCTGGATGAGCGCTTTGATGCACACCTGGCCCAGGCAGAGAATTTGCAGGCCCTGTTTGTGGCCCTGAACGACCAGGTGTTTGAGATCCGGGAGCTGGCCATCTGCACCGTGGGCCGCCTCAGCAGCATGAACCCGGCATTCGTCATGCCGTTCTTGCGCAAGATGCTCATCCAGATTTTGACAGAGCTGGAGCACAGTGGCATTGGGAGAATCAAGGAGCAGAGTGCCCGCATGCTGGGGCACCTGGTCTCCAATGCCCCCCGGCTCATCCGCCCCTACATGGAGCCTATTCTGAAGGCTTTAATTTTGAAACTGAAAGACCCAGACCCTGATCCAAACCCAGGCGTGATCAATAATGTCTTGGCCACAATAGGAGAATTGGCTCAGGTTAGTGGCCTTGAAATGAGGAAGTGGGTGGATGAACTTTTCATTATCATCATGGACATGCTCCAGGATTCCTCTCTGTTGGCCAAAAGGCAGGTGGCTCTGTGGACGTTGGGGCAACTGGTGGCCAGCACTGGCTATGTGGTAGAGCCCTACAGGAAGTACCCAACCTTGCTTGAGGTGCTGCTGAATTTTCTGAAGACTGAGCAGAACCAGGGCACACGGAGAGAGGCTATCCGTGTGTTAGGGCTCTTGGGGGCTTTGGATCCCTACAAGCACAAAGTGAACATTGGCATGATTGACCAGTCCCGGGACGCTTCTGCTGTCAGCCTGTCTGAATCCAAGTCAAGTCAGGATTCCTCTGACTACAGCACCAGTGAAATGCTGGTCAACATGGGAAACCTGCCCCTGGATGAATTCTACCCGGCTGTGTCCATGGTGGCCCTGATGCGGATCTTCCGAGACCAGTCCCTCTCTCACCATCACACCATGGTTGTCCAGGCCATCACCTTCATCTTCAAGTCCCTGGGGCTCAAGTGTGTGCAGTTCCTGCCCCAGGTCATGCCTACATTCCTTAATGTCATCCGGGTCTGTGACGGGGCCATCCGGGAATTTCTGTTCCAGCAGCTGGGAATGTTGGTATCCTTTGTGAAGAGCCACATTAGGCCTTACATGGATGAAATCGTCACCCTCATGCGTGAATTCTGGGTCATGAACACCTCGATCCAGAGCACAATCATTCTTCTCATTGAGCAAATTGTGGTAGCTCTTGGGGGTGAGTTTAAGCTGTACCTGCCCCAGCTGATCCCACACATGCTGCGGGTCTTCATGCACGACAACAGCCCGGGCCGCAGTGTCTCTATCAAGCTGTTGGCGGCAATCCAGCTGTTTGGTGCCAACCTGGACGACTACCTGCATTTGTTGTTGCCTCCAATCGTGAAGCTGTTCGACGCCCCTGAAGTCCCACTCCCATCTCGAAAGGCAGCGTTGGAGACAGTGGACCGCTTGACTGAGTCCCTGGATTTCACAGACTACGCCTCCCGGATCATTCACCCAATTGTTCGAACCCTGGACCAGAGCCCAGAGCTGCGTTCCACAGCCATGGACACCTTGTCTTCACTTGTCTTTCAGCTGGGGAAGAAGTACCAAATTTTCATTCCAATGGTGAACAAAGTTCTAGTGCGACACCGAATCAACCATCAGCGCTATGATGTGCTCATCTGCAGAATTGTCAAGGGATACACCCTTGCAGATGAAGAGGAGGACCCCTTGATTTACCAGCACCGGATGCAGAGGAGTGGCCAAGGAGATGCACTGGCCAGTGGGCCAGTAGAAACAGGACCCATGAAGAAACTGCATGTCAGCACCATCAACCTCCAAAAGGCCTGGGGAGCCGCCAGAAGGGTCTCCAAAGATGATTGGCTGGAATGGCTGAGACGGCTGAGCCTGGAGCTGCTGAAGGACTCCTCGTCCCCCTCCCTGCGCTCGTGCTGGGCCCTTGCACAGGCCTACAACCCAATGGCCAGGGATCTCTTCAATGCTGCATTTGTGTCCTGCTGGTCGGAACTGAATGAAGACCAGCAGGATGAGCTCATCAGAAGCATCGAATTGGCCCTCACCTCTCAAGATATTGCTGAAGTCACGCAAACCCTGTTAAACTTGGCTGAATTCATGGAACACAGTGACAAGGGGCCCTTGCCATTGAGAGATGACAATGGCATTGTCCTGCTGGGTGAGAGAGCTGCCAAGTGCCGAGCATATGCCAAAGCACTGCACTACAAAGAACTGGAGTTCCAGAAAGGTCCCACCCCCGCCATCCTCGAGTCCCTCATCAGCATTAATAATAAGCTACAGCAGCCCGAGGCTGCCGCCGGGGTGTTAGAATATGCCATGAAACACTTTGGAGAGCTGGAGATCCAGGCCACGTGGTATGAGAAACTGCACGAGTGGGAGGATGCTCTTGTAGCCTATGACAAGAAGATGGACACCAACAAGGATGACCCGGAGCTGGTGCTGGGCCGCATGCGCTGCCTGGAAGCCTTGGGGGAATGGGGGCAGCTCCACCAGCAGTGCTGTGAAAAGTGGACGCTGGTGAATGATGAGACCCAAGCCAAGATGGCCAGGATGGCTGCCGCAGCTGCGTGGGGCTTGGGTCAGTGGGACAGCATGGAAGAGTACACCTGTATGATACCTCGGGACACCCACGATGGGGCGTTTTACAGAGCCGTGCTGGCGCTGCATCAGGACCTCTTCTCCTTGGCACAGCAGTGCATCGACAAGGCCAGGGACCTGCTGGATGCTGAGCTAACTGCCATGGCAGGAGAGAGCTACAGTCGGGCATATGGGGCCATGGTTTCTTGCCATATGCTCTCCGAACTGGAGGAGGTTATCCAGTACAAACTTGTCCCTGAGCGACGAGAGATCATTCGCCAGATCTGGTGGGAGAGACTGCAGGGCTGCCAGCGGATCGTGGAGGACTGGCAGAAAATCCTGATGGTGCGGTCCCTTGTGGTCAATCCTCATGAGGACATGAGGACCTGGCTCAAGTACGCAAGCCTGTGTGGCAAGAGCGGCAGGCTGGCTCTTGCTCACAAAACCTTAGTGTTGCTCCTGGGTGTTGATCCATCTCGGCAACTTGACCATCCTCTGCCCACAGTTCACCCTCAGGTGACCTATGCCTACATGAAAAACATGTGGAAGAGCGCGCGCAAGATCGACGCTTTCCAGCACATGCAGCACTTTGTCCAGACGGTGCAGCAGCAGGCCCAGCACGCCGTTGCCACTGAGGACCAGCAGCACAAGCAAGAGCTGCACAAGCTCATGGCCCGGTGTTTCCTGAAACTTGGGGAGTGGCAGCTAAACCTCCAGGGCATCAATGAGAGCACCATCCCCAAAGTGCTGCAGTACTACAGTGCCGCCACAGAGCATGACCGCAGCTGGTACAAGGCCTGGCATGCGTGGGCAGTGATGAATTTTGAAGCTGTGCTACACTACAAACACCAAAATCAAGCCCGCGATGAGAAGAAGAAGCTGCGTCATGCTAGCGGGGCCAACATCACCAATGCCACCACTGCTGCCACCACTGCTGCCACTGCCACCACCACCGCCACCGCCAGCACAGAGGGCAGCAACAGTGAGAGTGAAGCTGAGAGCACGGAGCACAGCCCCACTCCGTCACCTGTGCAGAAGAAGGTCACTGAGGACTTGTCCAAAACCCTCCTGATGTACACTGTCCCTGCCGTCCAGGGCTTCTTCCGTTCTATCTCCTTGTCTCGTGGCAACAACCTCCAGGATACACTCAGAGTCCTTACCTTATGGTTTGATTATGGTCACTGGCCGGATGTCAACGAAGCCTTAGTGGAAGGGGTGAAAGCAATCCAGATCGATACGTGGTTACAGGTTATACCTCAGCTCATTGCAAGAATAGATACACCCAGGCCCTTGGTGGGGCGGCTCATTCACCAGCTTCTCACAGACATTGGTCGGTACCACCCCCAGGCCCTCATCTACCCCCTGACGGTGGCTTCCAAGTCTACCACAACGGCCCGCCACAACGCAGCCAACAAGATTCTGAAGAACATGTGTGAGCATAGTAACACCCTGGTCCAGCAGGCCATGATGGTGAGCGAGGAGCTGATCCGCGTGGCCATCCTCTGGCATGAGATGTGGCACGAAGGCCTGGAAGAGGCGTCTCGTTTGTACTTCGGGGAGAGGAATGTGAAAGGCATGTTTGAGGTGCTGGAGCCTCTGCATGCGATGATGGAACGGGGCCCCCAGACCCTGAAGGAGACGTCCTTTAACCAGGCATATGGCCGAGATTTGATGGAGGCCCAGGAGTGGTGCCGGAAGTACATGAAATCAGGGAATGTCAAGGACCTCACCCAAGCCTGGGACCTCTACTACCATGTGTTCAGACGGATCTCAAAGCAGCTGCCCCAGCTCACATCCTTAGAGCTGCAGTATGTTTCCCCTAAACTTCTGATGTGCCGGGACCTTGAATTGGCTGTGCCGGGAACGTATGACCCCAACCAGCCAATCATTCGCATTCAGTCCATCGCCCCATCTTTGCAAGTCATCACATCCAAGCAGAGGCCCCGGAAGTTGACCCTCATGGGCAGCAATGGGCATGAGTTTGTCTTCCTCCTGAAAGGCCATGAAGACCTGCGGCAGGATGAGCGAGTGATGCAGCTCTTCGGCCTGGTCAACACCCTCCTGGCCAACGACCCAACATCCCTCCGCAAAAACCTCAGCATCCAGAGATATGCCGTCATCCCTCTGTCGACCAACTCGGGCCTCATTGGCTGGGTGCCCCACTGTGACACGCTGCATGCACTCATCCGGGACTACAGGGAGAAGAAGAAGATCCTCCTCAACATTGAGCACCGCATCATGCTGCGAATGGCTCCAGACTATGACCACCTGACTCTGATGCAGAAGGTGGAGGTGTTTGAGCATGCTGTCAACAACACAGCGGGGGACGACCTGGCCAAGCTGCTGTGGCTGAAGAGCCCCAGCTCGGAGGTGTGGTTTGACCGAAGAACCAATTATACCCGCTCGTTAGCAGTCATGTCGATGGTTGGCTATATTTTGGGCCTGGGGGATAGGCACCCATCCAACCTGATGCTGGACCGGCTCAGTGGGAAGATCCTGCACATCGACTTCGGGGACTGCTTTGAGGTTGCTATGACCCGAGAGAAGTTTCCAGAGAAGATTCCATTTAGACTAACAAGAATGTTGACCAATGCTATGGAGGTAACAGGTCTGGATGGAAACTACAGAATCACCTGCCACACAGTGATGGAAGTGCTTCGGGAACACAAGGACAGCGTCATGGCCGTGCTGGAAGCCTTCGTCTATGACCCCTTGCTGAACTGGAGACTGATGGACACAAATACCAAAGGCAACAAGAGGTCCCGGACGAGGACAGATTCCTACTCTGCAGGCCAGTCAGTAGAAATTTTGGATGGTGTGGAACTTGGGGAACCAGCCCATAAAAAAGCAGGGACCACGGTGCCAGAATCTATTCACTCGTTCATTGGAGACGGTTTGGTGAAACCAGAAGCCCTAAACAAGAAGGCTATTCAGATCATTAACAGGGTGCGAGATAAGCTCACCGGGCGGGACTTCTCCCACGACGATACCCTGGATGTTCCAACGCAAGTTGAGCTGCTCATCAAACAAGCAACATCCCATGAGAACCTCTGCCAGTGCTACATTGGCTGGTGTCCCTTCTGGTAA

XM_004863527.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X1

Length: 13275 bp    Location: 885445..632668   Strand: -
>XM_004863527.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGTCCTTGTAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAGCCTCCCCCTCATCTACCTTAGAACTAGGAGCACAGCCAGTCTGACTAACCTAGAGCACCAGATCTATGCAAGAGCAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTCTTCATCGCGGCGGAGAACATCGACAGCTACTGCGTGCTCATCTCCTCCAAGGCCGTGTACTTCCTCAAGAGTGGAGACTACGTGGACCGGGAGGCCGTTTTCCTCGAGGTCAAGTATGACGACCTCTACCACTGCCTCGTCTCCAAAGACCATGGGAAGGTGTATGTGCAGGTGACCAAGAAAGCCGCAAACCCCAGCAGTGGCGTGTCCATCCCGGGCCCGTCGCGCCAGAAGCCGATGGTGAGCCCCCGCCAGCCCCGGCACCGGGTGGGCGAGCCCAGGGCCCAGGGCCCAGAGGTTGTAGTCCCGCAGCCTTGCCTTGCCCCCACTTGCCCACAGGGACTCTGCTGGGAGGGTCCGGCCACGCTGGCTGCTGCCCACCTGCTCCATGGCGTCCCCAGGCACGTCCTTCAATGTTTGCACCTCAGTTTCCCACCAACACGAGTGGGTAGCGATGCTTACTCTCGTTAG

XM_004863536.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X10

High confidence: 4 potential gene matches
Length: 13092 bp    Location: 885445..632441   Strand: -
>XM_004863536.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAACAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTCTTCATCGCGGCGGAGAACATCGACAGCTACTGCGTGCTCATCTCCTCCAAGGCCGTGTACTTCCTCAAGAGTGGAGACTACGTGGACCGGGAGGCCGTTTTCCTCGAGGTCAAGTATGACGACCTCTACCACTGCCTCGTCTCCAAAGACCATGGGAAGGTGTATGTGCAGGTGACCAAGAAAGCCGCAAACCCCAGCAGTGGCGTGTCCATCCCGGGCCCGTCGCGCCAGAAGCCGATGGTCCACGTGAAGTCTGAGGTCCTGGCTATCAAGTTATCACAAGAAATAAACTACGCCAAGAGCCTCTACTATGAGCAGCAACTTAGGCTAAGACTCAGCGAAAATCAGGAGCATTTGGAGCTGGACTCCTGA

XM_004863916.1 Coding sequence

LOC101702152 PRAME family member 12-like

Length: 1608 bp    Location: 201685..165746   Strand: -
>XM_004863916.1
ATGAGCAAAGAGGCCCCAAACACACTCTTGCACCTGGCAATACAAAGGCTTCTAAGAAATAAGGACTTGGTCATCCAGGCTTTGGAGGACTTGCCAGGGGACCTCTTCCAACCACTGTTCCTGGAGGCCTTCACCAGGGGACACACTGAGGTTCTGAAGGCCATGGTTCCAGCCTGGCCCTTCTACTGCCTCCCACTGGGGACCCTAATGCACATGAGGAAACAAGAGGCCTCAGAAACACACCTGCATATTTCCCAGCTGCGGGTACAGTACCTACAAAACTTACAAGCTATGCTGGATGGGCTTGACGTGCTGCTGGCCCAGAAGGTTCGCCCCAGGAGGTGGAAACTGCAAGTTCTAGATTTGCGGAACACACAGCAGGACTTCTGGAAAGCCTCTACTGAAAACCCGACTCAAGCCTGTTCCCCTGTGGCCGCAAGCACTAGGAAAATGGAAAAGAATGGGTCAAATGTGGAGGAAAAGCAGCCTCTGAAGGTGATCATAGACCTACACATCAGGATGGAATATCTACTCGAATTCCTATTCCAGTTCTACCTATTAGATTGGGTGGAGAAGAGAAAAGGTTCACTGCAGCTGGACTGCAGGAAGCTGCACATTGGCTCAGTCCCCATCCGAATCATGAGGAAGGCCATAGAAATGGTGGACCTGAGCTGTGTTCTGGAGGCAGATTTGTGTCCCTTCTGGTCATTTTCTACTCTGGCGAGTTTTGCCCCTTACCTGGGCCAGATGCAAAATCTTCACAAACTAATTCTCTCCCACATCTCTGCAGCAGAGTTCATTCCTACAGAGAAGGGAGAACAGCTGGCCAATCAATTCACCTCTCAGATTCTCAAGCTGCACTGTCTTCAGGAAATTTATATAAATTCTGCCTCTTTCCTTAAAGGCCACCTGAACCAGATACTCGGGTCTCTGCAGTCTCCCTTGGAGAATCTTTCAATAACTGACTGCTGGCTTTCACACTCAGACTGGAACCATCTGTCCCGGTTCCCGAGCACTTGGCAGCTCAAACACTTATATCTGAGTGAGGTCCGGCTGTTTGATTTTCCTCCTGAGCCTCTACAAGTTCTGCTGGAGATAGCTGCTGGCACTCTGACCACGCTGCACTTGGAGGCCTGTGGGTTCAGTGATTCCCAGCTCTGTGCCATCATTCCTGCCCTGGGCCAATGCTCCAAGCTCGCCACTTTCAGGTACATAAGGAATTGCATCTCTGTGGCAACCTTGGAGAGCCTGCTGTGCCGCACTGCCAGGATGAGCAACTTAAGAATGGAGCAGTATCCTGTTCCTTGGGAGATTTGTGGTGGCCAGAACGCTGCCCATCAGATTAGACTGGGCAAGATTCGTGATGCACTGAAGAGGATTATGAAGCCATTAAACTATCCCAGGATGATCTGCTTCAATACTAGTCAGTGTGATTTCTGTGGTGCCAACAGAGGCTCCGTCCCAGGCTCCGGTCACGTGGGGGCGCTGGCTGCACCTGCGGAGAAGTGGAGGCCACCGAGCGGGATCTGTGTGGAGAGCCAGAAGTGGTTGTGGACTACATCTGTGTTGGTTTTCTGGGGCTCAGCCATGCAGACTGAAGGAGACTGA

XM_004863919.1 Coding sequence

Pramef12 PRAME family member 12

High confidence: 1 potential gene match
Length: 1476 bp    Location: 265642..262869   Strand: -
>XM_004863919.1
ATGAGCACCTGGTTTCCACCCACACTTTTGGACCTGGCAGTCCAGAGTCTGCTGAGGGACAAGAACTTGGTGATCCGGGCTCTGGAGGAACTTCCCAGGGAGCTCTTCCCACCGCTTTTCATGGAGGCTTTCACCAGGGGACACACTGAGGTCCTGAAGGCCTTGGTGCCAGCTTGGCCTTTCCCCTGCCTCCCTCTGGGGGTCCTGATGAAAATGAGAAACACAGAGATCGCCCAAACTCAGCTGAACATTTTCCGGCTGCCAGCATGGGACCTGCAGTTCTTTCAAGCTGTGCTGGATGGGCTTGATGTGCTGCTGGCTCAGAAGGTTCGCCCCAGGAGGTGGAAACTGCAAGTGTTGGATATGCGGAACATGCACCTAAACTTCTGGAGGGTCTGGGCTGGAAACTTGGCTGATCCTGGTTTCCCAGAGGTCACAATGGGTAGGGAAATGAAGAAGGATGGGCCAAAGTTGGCAGAAAAGCAGCCCCTAAGGGTGCTCATAGACCTGAACCTCCATCTGGATTGTCTGGATTCACCTTTACATTTTCTTTTTAAGTGGGCCCAGGAGAGGAGGGGTTTGCTTCAAGTGGAGTGTAGAAAGCTGTGTATAGATGCAGTTTCTCCTGAAACAATTTTGAACATGCTGGAAATTGCTGACTTCGGATTCATGGAGGATGTGGAAGTCCATGGTTTCTGGGCTCTCTTTGTTCTGTGTAATTTTGACTCTTACCTGGGCCAGATGAAAAATCTTCAGAAGCTACTTCTCTCTCACATCCATGTGCCTGATTGCCTTCCTCCAGATGAGACGGAGAAGTTGGTGACCCAATTAACCTCTCATTTCCTAAACCAGCACCACCTACAGGAGCTTCATATGAACAATGTCTCCTTTTTGGAAGGCCACCTCACTGAGGTGCTCAGGTGCCTGAAGATTCACTTGGAGACCCTCTCAATAACACATTTGCAGCTTTCACACATAGACTGGAACCATTTGTCCCAGTGCCCAAGCATCAGTCAGCTAAAACGCCTGTGTCTGAGTGGTGTCAGGTTGACTGAATTTAGACCTGAGCCCCTCCAAGTTCTTCTGGAGAAAGTTGCAGGTACCCTGACCACGCTGTACTTGGAATCCTGTGGGATCACTGACTTCCACCTCAGAGCCATCATTCCTGCCCTGAGCCTCTGCTCTCAGCTCAGCACCTTAAGCTGCATACAGAACTCCATCTCTGTGGCCACCTTGGAGAACCTGCTGTACCACACTGCCAGGATGAGAAATTTAAGACTGGAGCTGTACCCTATTCCTCGGGAGGTTCATAGTTCTAGACTGGGGCAGCTTAGGGATGCGATGAGGAGGATTGTAAAGCCGTTAAACTACCCCAGGACTGCCTGGCTCAGTATTAATGAGTATTATTGTCCCAGTGGTGTCTGGGAAACCTGTTACCTGGAGTTTAGTGAGTGCTCTAACAGTATCCCTATGTAG

XM_004863520.1 Coding sequence

Aadacl3 arylacetamide deacetylase-like 3

High confidence: 4 potential gene matches
Length: 1224 bp    Location: 377838..370609   Strand: -
>XM_004863520.1
ATGATGACTGTGGCTCTGACCCTCCTCACAGCAGCCGGTGTGTTCTCACTGGGAGTTGGGCTGTGGGTTATCTGCAGCCAACTTGCAACTGTGGATATCCCTGCAGGGATTGACCAACCCTTTAAACTGAGGATCTTTAGCTACATTTTCCAACTGCTGATAACATGGGGGATGATTTTTGAGAAATTGGGAATCTGTCATGCAACAGAGTTTGTCAGTTTCATGCATGATCTGCCCCCATTAAAGAAGCATCCAGGTGTTGTGGTCACAGATCTCCACTTTGGGACAATCCCTGTAAAGCTGTACAAGCCTGAGGTACCTTCAAGCAGTCCCAGACCTGGTGTTGTCTTCTATCACGGCGGTGGAACTGTCCTGGGGAGCTTAAAAACTCATCATGACTTCTGCTCACATTTGTGCAAGAACAGTGACTCAGTGGTTCTGGCAGTTAAATACCGCAAGTCTCCCAAGTATAAGTTTCCAGTGATGACAAACGACTGCATAGCAGCCACCATCCACTTCCTGAAGTCCTTAGATGCACATGGAGTGGATCCAGCTCGGGTTGTTCTCTGTGGTGACAGTGTGGGAGGGGGTGTGGCAACGTTAATTTGTCAAATATTTGTCAACCGTCCAGATCTCCCCAAGATTCGTGCTCATATTCTGATCTACGCTATGCTGCAAGCCCTACACTTCCAGTCCCCTTCCTACCAGCAGAACAGGAACATCCCACTGCTCACATGGAATTTTGTTTTCTACTGTTGGTGTCATCACATGGATATCAGCCCTTCCTGGAAAAGTGCAGTAGAGAGAGGTGCCCATTTGCCTCCAGAAATCTGGGAGAAGTACAGAAAATGGTTGGGTGCAGAGAACGTTCCAGAGAGGTTTAAGAAGAGAGGGTATCAATCCAGGCCCCTTGAGCCCCTGAATGAGAACACTTACCTGGAGGCAAAGATGGTTTTGCACTGGACATGCTCACCCCTGATCACAGGAGATGACATAGTGTCTCAGATCCCAGAAGCTTGCATTGTAAGCTGTGAATATGATCTTCTCCTCGACGATTCACTCCTGTACAAGAAGAGACTGGAAGACCTGAAGGTGCCAGTGACTTGGCACCACATAGAGAATGGTTTTCATGGAGTGCTTACCACCATTGAAAAAGGTTTCTTTCACTTCCCCTGCTCCGTGAGAATTCTGGATTTGGTTGTCAATTTTATCAAGGGATTATGA

XM_004863522.1 Coding sequence

LOC101706954 serine/threonine-protein phosphatase 4 regulatory subunit 3B-like, transcript variant X1

Length: 2439 bp    Location: 452201..449672   Strand: -
>XM_004863522.1
ATGTCGGCTACACGGCAACGAGTGAAGGTCTATGCCCTGAACGAAGACCGGCAATGGGACGATCGAGGCACCGGGCGTGTCTCCTCCGCTTATGTGGAGGAGCTCAAAGGGATGTCGCTGCTGGTTCGGGCAGAGTCCGACGGATCACTACTCTTGGAATCAAAGATAAATCCACACACGGCGTATCAGAAGCAACAGGATACGTTAATTGTTTGGTCAGAAGCTGAGAACTATGATCTGGCGCTAAGTTTTCAAGAAAAAGCTGGCTGTGATGAGATCTGGGAAAAAATCTGTCAGGTTCAAGGTAAGGACCCATCAGTAGAAGTCACGCAGGACCTCACTGATGAATCAGAAGAAGAACGATCGGAAGAAAGGCCTGACACCAGTCATTTGATTGACCTACCCACATGTGAACTCAATAAACTTGAAGAGATTGCTGATTTAGTTAGCTCAGTTCTCTCCTCACCTATTCGTAGGGAAAAGCTGGCTCTGGCCTTGGAAAATGAAGGCTATATTAAAAAACTACTGCAGCTGTTCCAGGCGTGTGAGAACTTAGAAAACACTGAAGGCTTACACCATTTGTATGAAATTATTAGAGGAATCTTATTTCTAAATAACTCAACTCTTTTTGAGGTAATGTTTTCTGATGAGTGTATCATGGATGTCGTGGGATGCCTTGAATATGACCCTGCTTTGGCCCAGCCAAAAAGACACAGAGAATTTTTGACCAAAACTGCAAAATTTAAGGAAGTTACACCAATAACAGACTCTGAACTAAGGCAAAAAATACATCAGACTTACAGGGTGCAGTATATTCAGGATATCATTTTGCCTACACCATCTGTTTTTGAAGAGAATTTTCTTTCTACTCTGACATCTTTTATTTTCTTCAACAAAGTTGAGATAGTCAACATGTTGCAAGAAGACGAAAAGTTTTTGTCTGAAGTTTTTGCACAATTAACAGATGAGGCTACAGATGATGATAAACGACATGAATTGGTCAATTTTTTCAAGGAATTTTGTGCATTTTCTCAGACATTACAGCCTCAAAACAGGGATGCATTTTTCAAAACTTTAGCAAAATTGGGAATTCTTCCTGCACTTGAAATCGTAATGGGCATGGATGATTTACAAGTCAGATCAGCTGCTACAGATATATTTTCTTATTTAGTAGAATGTAGCCCCTCTATGGTCCGAGAATTTGTAATGCAAGAAGCCCAGCAAAGTGATAACAATATCCTTCTTGTTAATGTAGTAATTAAACAAATGGTCTGTGACAGTGATCCTGAGCTAGGAGGCGCAGTTCAGTTAATGGGACTTCTTCGTACTCTAATTGATCCAGAGAACATGCTGACTACAACTAATAAAACTGAAAAAAGTGAGTTTCTGAATTTCTTCTACAACCATTGTATGCATGTCCTCACAGCACCACTTTTGACCAATACTTCAGAAGACAAATGTGAAAAGGATAAATTTGTTGGATCTAACAAAAACAACACAATTTGTCCTGATAATTATCAAACAGCACAGCTCCTGTCCTTAATTTTAGAGTTACTCACATTTTGTGTGGAACATCACACTTACCACATAAAAAACTACATTATGAACAAGGACTTACTAAGAAGAGTCTTGGTCTTGATGAATTCCAAGCACACTTTCCTGACTTTGTGTGCTCTTCGTTTTATGAGACGGATAATTGGCCTTAAAGATGAATTTTACAATCATTATATCACCAAGGGAAATCTTTTTGAGCCAGTTATTAATGCTCTCCTGGATAATGGAACTCGGTACAATCTGTTGAATTCAGCAGTCATTGAGTTGTTTGAGTTTATAAGAGTGGAAGATATCAAGTCTCTTACTGCACATATAGTTGAAAATTTTTATAGAGCACTTGAATCAATTGAATATGTTCAGACATTCAAAGGACTAAAGACTAAATATGAGCAAGAAAGGGACAGACAAAGTCAGAAACTAAACAGTAACAGATTTCACAGAGATGCAAAAGCCTTGGAAGAGGACGAAGAAATGTGGTTTAATGAAGATGAAGAGGAAGAAGGAAAAGCAGTTGTGACACCAATTGAAAAATCTAAGACAGAAGATGATTTTCCAGATAGTTATGAAAAATTTATGAAGACTAAGAAAGCAAAAGAAATTGAAGACAAGGAAAACCTTCCCAAAAGGACATCTTCTGGTGGCTTCAAATTTATTTTCTCCCACTCTGCCAGTGCTACTAATGGAACAAACATTACAAACAGTAAATCTGTAGTGGCTCAGACACCACCCACAGGTTCTAATGGTTCTTCTTCCAAAACTACAAACTTGGCTACATCAGAAACAGCCACCAAGGGAAGTTTGGTTGGCTTAGTGGATTATCCAGATGATGAAGAGGAAGATGAAGAAGAAACATCCCCCAGGAAAAGACCTCCTCTGGGCTCATAA

XM_004863540.1 Coding sequence

Tnfrsf1b tumor necrosis factor receptor superfamily, member 1B

High confidence: 4 potential gene matches
Length: 1344 bp    Location: 922785..895324   Strand: -
>XM_004863540.1
ATGGCGCCCGCAGCGCTGTGGGCCGCGCTTGCCGTCGGACTGCAGCTCTGGGCGGCGGGGTTCGCCGTGCCCGCCCAGGATATGTTCATGCCCTACGCACCGGAATCTGGGACCAAGTGCCAGGTGAAAGAATATTATGAGAATACCGCTGGGATGTGCTGCAGCTTGTGTCAACCTGGCCAGCATGTGAAAGCCTTGTGCACCAAGACCTCGGACACCGTGTGTACCCCTTGCGAGGAGAGCACGTACACCCAGCTCTGGAACTGGCTCTACACGTGCTTAAGCTGCCGCTCCCCCTGCAGCTCTGACCAGGTGGAGATTCAAGCATGCACCCCACAGCAGAACCGCGTTTGCACCTGCAGGCCAGGTCAGTTCTGCATTCTGGGGAGTCCGGACAGCTGCCGGCAGTGCATACCTCTGCGCAAGTGTCCTCCTGGCTTTGGCGTGGTCAAACCAGGAACTGCGAGTTCAGATGTGCATTGCGCCCCCTGTGCCCCAGGCACTTTCTCCAACACCTTGTCTTCCACTGAAGTCTGCAGGCCCCACCGAAAATGCAGCTCCGTGGCCATCCCTGGGAATGCAACTATGGACGCAGCCTGTGCGTTTGTGTCCTCCACCCTGGAAGCAGCCCCGGGCCCAGCCCGCACGCCCTGGTCAGTGTCCCAGAGTGCAGAGCCGGCGGAGCCAACTCCAGGGCCCAGCACAGCTCCAAGCACGGCCTTGCTGCTCCCAGAGGGCCCCAAGCCCCCGACTGGAAAGAGCAAGAACGGCATCTCCCTGCCAATCGGACTGATTGTGGGTCTGACGGCCCTGGGGCTGCTGGTCATCGGACTGGTGAACTGTGTCATCGTGACCCAGAGAAAAAAGAAGCTCTCCTGCCCACATCGAGAAGGCAAGCGGCACCTGCCTGTGGATAAGATCCGGGGTGTGACAGGCCTGGAGCAGCAGCAGCTGCTCACTACTGCGCCCAGCTCCAGCAGTAACTCCCTGGAGAGCTCGGCCAGCACTGCCACCCTGGGCGCGGAGAAGCCCGAGGGGTCCGGGGAGACCCGGGGCACCTTCAGGAGCTCAGAGTCTCCCCCTGGTGGCCATGGGACCCAGGTCAATGTCACCTGCATCGTGAACGTCTGCAGCAGCTCCGACCATGGCTCGCAGTGCTCCTCCCAAGCCACGACGGAGGACCCCAATGCCAGCCTTTCAGGAACCCCAGAGGACGAGCAGGTCCCCTTCTCCCAGGAGGAGCGCCCCTTTCAGTCCTGGCAGGAGACCCCGGAGACTCTGCTGCAAAGCCTGGAGAAACCTCTGCCTTTCTGCGTGCCGGACTCGGGCATGAGGCTCAGTTAA

XM_004863905.1 Coding sequence

Noc2l nucleolar complex associated 2 homolog (S. cerevisiae), transcript variant X1

High confidence: 4 potential gene matches
Length: 2253 bp    Location: 8551411..8563760   Strand: +
>XM_004863905.1
ATGGCGGCGCGTGGCCGAAAGAGGCGCCTGGCGGAGTTGACGGTGGACGAGTTTCTTGCTTCGGGTTTTGATTCCGAGTCGGAGTCGGAGCCTGAAGGAGCTCCGGAGGCGGCGATACCCGGAACCCACGAACGCGGAACTGCCTGGAACTCGTGTGGGCCGGACCGGGGCGCCACGGCTAGCAGGCATAAAGGCCGTGCCTCTGAGCACAAAGACCAGCTCTCTCGGCTGAAGGACAAAGACCCTGAGTTCTACAAGTTCCTGCAGGAGAATGACCAGAGCCTACTGAATTTCAGTGACTCAGATAGCTCTGAGGAGGGAGACGAGCAGTTCCACTCTCTGCCGGATGCACTGGAGGAAGCAAGTGAAGAGGATGATGGAGGGGAGGATGGAGACAGAGTGCCCAGAGGACTGCAGGGGAAGAAGAATGAATCTACTCCTGTGACCCTTGGCATGGTTGAGCAGTGGAAGCAGGCAGCAAAGCAGCATCTCACTGCCAAGCTGTTTCATGAAGTTGTGCAGGCGTTCCGAGCTGCTGTGGCCACCACCCAGGGAGACCAGGAAGGGGCTGAGGACTGCAGATTCCAGGTCTCAGACAGTGCTGTGTTCAATGCACTGGTTACCTTCTGTGTCAGAGACCTCTTTGGCTACCTCCAGAAGCAGCTGTTTGGAAAGGCACCAATAGACAGCAACAGGGTGCTGCAGCCGTCCAGCAGTGCGCTCTGGGGGAAGTTCCGTGTGGATGTCAAGGCATACCTGAGTGCGCTCATGCAGCTGGTGACCTGTCTGGCAGAAGCCGTGGTGTTGGCAGCAGTCCTGCGGCATGTCAACAGCCTGGTACCCTACTACCTGACCTTCCCCAAGCAGTGCCGTGTGCTGCTCAAGAGGATGGTGATTCTGTGGAGCACTGGTGAGGAGTCCCTGCGGGTGTTGGCCTTCCTGGTCCTTGTTAGAGTTTGTCGACAGAAGAAGGACATTTTCCTGAGTCCTGTCCTGAAGCAAATGTACATCATGTATGTGAAGAATTGCAAGTTCACCTCTGCCAGCACCCTGCCCCTCATCAGCTTCATGCAGCGAACGCTGACCGAGCTGCTTGCCCTGGATCCCAGCATCTCCTACCAGCATGCCTTCCTCTACATCCGCCAGCTCGCCATCCACCTGCGCAACGCCATGACCACTGGCAAGAAGGAGACACACCAGTCGGTATACAACTGGCAGTACATCCACTGCCTCTACCTGTGGTGCCGCGTCCTGAGTGTCCTCGGCTCCAGTGAGGCCCTGCAGCCCCTGCTTTATCCTCTTGCGCAGGTTGCCATTGGCTGTATCAAGCTGGTCCCCACTGCTCGCTTCTACCCACTGCGCATGCACTGTGTACGTGCCCTGACGCTGCTGTCACAGAGCACTGGCATCTTCATTCCCGTGCTGCCCTTCATTCTTGAGATTTTCCAGCAGGTGGACTTCAACAAGCGACCAGGCCGGATAAGCTCCAGGCCCATCAACTTCTCTGTGATCCTGAAGCTGTCCAGTGCCAACCTACAAGAGAAGGCCTACCGGGATGGCTTGGTAGAGCAGCTGTACGACCTCATCCTGGAATACCTGAATGGCCAGGCCCACAGCATTGCCTTCCCAGAGCTGGTGCTGCCCACTGTTCTGCAGCTGAAGTCCTTCCTCCGGGAGTGCAAGGTGGCTAACTATTGCCGGCAGGTGCGCCAGCTACTGGAAAAAGTGCAGGAGAACGCAGAGTACATCCGAAGCCGCCGCCAGAAAGTGTCTTTTGGAGTGTCTGACCGGCATGCAGTGGATGCTTGGGAGAAACAGGCCCGGCAAGAGGGCACCACACTTAGCAGGTACTACAGCCACTGGCGGAAGCTGAGGGACCGAGAGATCCAGCTGGAGATCAGTGGCAAAGAGCGGCTAGAAGAGCTGAATTTCCCGGAGATCCAGCGGCGGCGGAAGGTGGAGGACAGGAAGGAGGAGGACAGAAAGGAGTTCAGAGACCTATTTGACCTGGATAGTTCTGAGGATGAGGCAGCCACAGACTTCTCAGAAAGAGGGACAGCTGGGTCCCTGAGAGGTCAGCAGGAGGCAGAAGAAGAGGGAGATGACCAGAAAGACGAGGAGGAAGAGGACAGTGGCGCCTCTGAGGATGGAGGCCCAGATGCAGAGGCGGGGCTGGTCCCTGGCGAGCTGTGGCGGCTGGCTGAGGGGCCGCAGGATGAGCTGGAGGATCTGCAGCTCTCAGAGGAGGACTAG

XM_004863784.1 Coding sequence

Fam213b family with sequence similarity 213, member B, transcript variant X2

High confidence: 4 potential gene matches
Length: 606 bp    Location: 7485431..7483001   Strand: -
>XM_004863784.1
ATGAGCGCCGTGGACCTTGCCCGGGTGGGCGCGTGTGTCGTGAAGCACGCGGTGACCGGGGAGCCGGTGGAGCTGCGCAGCCTGTGGCAGGAGCAGGCGTGCGTGGTGGCCGGGCTGCGGCGCTTCGGCTGTATGGTGTGTCGCTGGATCGCACGCGACCTCAGCGGCCTCCTCGGGCTCCTGGACCAACACGGCGTGCGCCTGGTGGGCGTGGGCCCCGAGGCCCTGGGCCTGCAGGAGTTCCTGGACGGCGGCTACTTCTCTGGCGAGCTCTACCTGGACGAGAGCAAGCAACTCTACAAGGAGCTGGGCTTCAAGCGGTACAACAGCTTGAGCATCCTGCCAGCTGCCCTGGGGAAGCCTGTGCGAGATGTGGCTGCCAAGGCCAAGGCTGTTGGTATCCAGGGGAACCTGTCTGGGGACTTGCTGCAGAGTGGAGGGCTGCTGGTGGTCAGCAAAGGTGGTGATAAAGTGCTGCTGCACTTCGTCCAGAAGTCCCCGGGTGACTATGTCCCCCGGGAGAGCATCCTGCAGGCCCTGGGCATCTCCTCAGAGGTTGGCACTAGCGAGCCGCCCCAGTGTGACGAGGAGCTGTGTGGGAGGTGA

XM_004863785.1 Coding sequence

Fam213b family with sequence similarity 213, member B, transcript variant X3

Length: 552 bp    Location: 7485431..7483001   Strand: -
>XM_004863785.1
ATGAGCGCCGTGGACCTTGCCCGGGTGGGCGCGTGTGTCGTGAAGCACGCGGTGACCGGGGAGCCGGTGGAGCTGCGCAGCCTGTGGCAGGAGCAGGCGTGCGTGGTGGCCGGGCTGCGGCGCTTCGGCTGTATGGTGTGTCGCTGGATCGCACGCGACCTCAGCGGCCTCCTCGGGCTCCTGGACCAACACGGCGTGCGCCTGGTGGGCGTGGGCCCCGAGGCCCTGGGCCTGCAGGAGTTCCTGGACGGCGGCTACTTCTCTGGCGAGCTCTACCTGGACGAGAGCAAGCAACTCTACAAGGAGCTGGGCTTCAAGCGGTACAACAGCTTGAGCATCCTGCCAGCTGCCCTGGGGAAGCCTGTGCGAGATGTGGCTGCCAAGGTTTGTGGCAGCCAAGGTCCTGTGGGACCAGGGGTGGTGGAAGTCCCTGGGCTTCCCTCTAGGACTGGCTCTGTTCTTCTCCTCCAGGCCAAGGCTGTTGGTATCCAGGGGAACCTGTCTGGGGACTTGCTGCAGAGTGGAGGGCTGCTGGTGGTCAGCAAAGTGTGA

XM_004863560.1 Coding sequence

Nppb natriuretic peptide B

Length: 381 bp    Location: 1139630..1140988   Strand: +
>XM_004863560.1
ATGGGTCCCCAGACAGGCCTGCCCTGGACAATTCTGCTCCTGTTCTTCCTGCACTTGTTACTGGCAGGAGGTCTAGCTCACCCACTGGTCGGGCTCGACCAGGACCAGGCTTCGGATCAATTGGGAACACAGGAGCTGTTGCATCATCCTGGAGACGGGGTCTGGGAGACACAGACAGAGCAGATGATCCCAGGCCCGCTCTTACCAGACAGAGAACCTGCAGAATGCTGTCAGGGAAAAGCAGCCCCCAAAAGCAGCCTCCAGGGCTTTAGGGGACTCCAAACGCCCAAGGTGATGCAAGGCTCCAGTTGCTTCGGGAGGAGGATAGATCGGATTGGTTCTGTCAGTGGCCTGGGCTGCAAAGTGCAGAGGCGTCCTTAG

XM_004863561.1 Coding sequence

Nppa natriuretic peptide A

High confidence: 4 potential gene matches
Length: 459 bp    Location: 1147971..1149742   Strand: +
>XM_004863561.1
ATGGGCTCCTTCTCCATCACTGTGGGCCTCCTCCTCTTCCTTGCATTTCAGCTTCCAGGCCAAGCCCAAGCCAACCCCGTGTACAATGGCATGTCGAACACAGACCTGGTGGATTTCAAGAATTTGCTGGACCACCTGGAGGAGAAGATGCCTTTAGAAGATGAAGTGATAATGCCCCAAGTCGCAAGCGAGCAGAACGAAGAAGCGGGGGCCATTCTGAGCGTCCTCCCTGAGGCACCTTCCTGGACTGGGGAGGCCAACCCCGTGCAAAGGGATGGGGGTGCCCTTGGGCGAGGCCCCTGGGACTCCTCCGATAGATCTGCCCTCCTGAAAAGCAAGCTGAGGGCACTGCTCACTGCCCCTCGGAGCCTGCGGAGGTCCAGCTGCTTCGGGGGCAGGATCGACAGGATTGGAACCCAGAGTGGCCTGGGCTGCAACAGCTTCCGGTACCGAAGATAA

XM_004863911.1 Coding sequence

LOC101700013 PRAME family member 8-like

Length: 1332 bp    Location: 17157..13780   Strand: -
>XM_004863911.1
ATGACTACACAGAGCCCACTGACTCTGTATGAGCTGACCAAGCAGAGGCTGCTGAACAGTGAGACCACAGCCAGCACTACTCTGCATGGCCTGCCCTCCATGATCTTCCATGAAATTTTCATGGAGGCCTTCATGAGGGAACACAATGAGGTCCTAAAAGTGATGGTACAGGCCTGGCCTTTCCTCTGCCTCCCTTTGAGGACCCTGATGACTCTGAGGAAACCAAAGACCCCACACCCTCAGTTTGGAGAAATCACACTGCAACAGAGAAACCTATGGACCTTCAGGTGGAGACTGCAGGTGCTGGATTGGAGGGATGTACACCGGGACTTCTGGACTGTAGGGCCCAGAGCCATGAGTTCTGCCCATTCAGAAGATGCCAGCAATAAGGAGACAGGCAAGCCTGGGTTGAGGAAGAAGAAGCCGACCTTGAGAATATTCACACACCTTTGTTTTCAAGCCTGGAGTTCGTCTTGGGCCACCCATAATGAATTAGAATTTTGCCTCTTGACTTGGGCCAGGAAGAGAAAAGCTTCAGTACACCTGTGCTGTGAGAAGGTGATGATCAAGTCAAATGATGTCTCTACAATTCTGAAGCTCCTTCGTGCTGTGCAACTGGACTCTATCCAGGAGCTGGACGTGTTCAGTGTATGGGGTTGGAAATGCATGAAAGCATTTCTTCCTCAGCTCAAGAAGATGACGAACCTTCGCACATTTCACTTCAGCAGCCTGAGCCCAGAAGTGTTTACTTTGCCCTTGGAAAATAAGTGGCTTTCCTGCATCTATGCTTTTCACTTAGGAGAGCTGCAAAATCTCCGGGAGCTTCATATACATGATGTCCTTTTCCTACATGGAACTCTGCATAAGATTTTCAGGAACCAGACCTCCTTGGAGGCCCTCTCCTTCAGTTCAAGTCCACTGAAGGAATCTGACCTAAAGCATCTGGCCCACTGTCCAAGCATGAGCCAGCTGAAGTCCCTGAGTCTGAGGAAGTTCTCAATGAAATCATTCAACCCAGAGACCCTCCAGGCTCTGCTAGACAAACTGGCCAGCACCCTGGAGACCCTGGTCCTAGAGCACTGTGACATCACAGACGCCCAGCTGCTTGCTATCTTGCCTCCCCTGAGCTGCTGCTCCCAGCTCAAGACCTTCAGTTGCTATGGGAACCACATATCCCTGGGCATCCTTCAGGTCCTGTTGTATGTGTGTGGGGGACTGAGCCAGTTAACCCATGGGCTGTATCCTGCCCCCTTGGAGAGCTATAAGTCCAAGATTCCAGCAGAGTTTGTGCACCCTGAGAAATTTCTCCGAGTCTGTGCTAAATTGGCACGG

XM_004863912.1 Coding sequence

LOC101700375 PRAME family member 20/21-like

Length: 687 bp    Location: 48413..45936   Strand: -
>XM_004863912.1
ATGAGCACCCAGCCCTCACTCACACTACTGAGACTGGCAACTCAGAGCTCGCTGAAGGACAAGGACTTGGCCATGGGGGCTGTGGAAGATTTGCCAGGGGAGCTCTTCCCACCAGTGTTCATGGAGGCCTTCACCAGGGGACACACTGAGGCCCTGAAGGCCATGGTGCTGTCCTGGCCCTTTCCCTACCTGCCACTAGGAGCACTGATGAATAAGAGGAATCTACAGACTTCAGACACAGAGGTGGAAGTTGGGCAGGTGCAGAAAAGAATTTTACAAGCTGTGCTGGATGGGCTGGATGTGCTGCTAAGCCAGAAAGTTTGCTCCAGGAGACTGAAACTGCAGGTGCTAGATATGCAGGACAAGCACCAAAAATTCTGGAGATCCTGGGCTGCAAACAAATTGGAAGCCAGCTCCTCAGAGGCCATGAAGAGGAGAAACAGAGAAGAGGCAGCAGAGAGAAAGGAGTTGGCCACCCAAATCACCTCTCAATTTCTTAAGCTTCACTGCCTGCAGGAGATTTATATGGAATCTGTCTCCTTCCTGGAAGGCCCCCTGGACCAGGTGCTCAGGTGCCTGCCATCCACCTTGGAGACCCTTTCTTTAATATACTACCAGCTTTCACACTCTGACTGGAGCCAGCTGCCACAGTGTCTGAGCACCAGACACCTGAAACACTTAGATTAG

XM_004863914.1 Coding sequence

LOC101701458 melanoma antigen preferentially expressed in tumors-like

Length: 1668 bp    Location: 134463..131150   Strand: -
>XM_004863914.1
ATGGATCAGAAGGGGGCTCATGAGCTTGGCCTGACTGGATGCCCCTCCTTGGATGTGACTCCACATTCTTCTCCTTGCAGGTTTTTCAGGATGACTACACAGAGCCCACTGACTTTGTATGAGCTGACCAAGCAGAGCCTGTTGAACAGTGAGACTATAGCCAGCACTGCTCTGCATGACCTGCCCTCCATGATCTTCCACGAAATTTTCATGGAGGCCTTCATGGGGGAACACAATGAGGTCCTAAAAGTGATGGTACAGGCCTGGCCTTTCCCCTGCCTCCCTTTGAGGACCCTGATGACTCTGAGGAAACCAAAGACCCCGCACCCTCAGTTTGGAGAAATCACACTGCAACAGAGAAACCTACGGACCTTGCAAGCCCTACTGGATGGAATTGACATTCAGCTGTCCCAGAAGGTTCACCACAGGTGGAGACTGCAGGTGTTGGATTGGAGGGATGTACACCGGGACTTCTGGACTGTAGGGCCCAGAGCCATGAGGGCTGCCTACTCAGAACATTCCAGCAGTAAGGAAGCAGGCAAGCCTGGGTTGAGGAAGAAGAAGCCGACCTTGACAATATTTGCACACCTTTGCTTTGAAGCCTGGAGTAGGTCTTGTGCCCTCCATGATGAATTACAACTTTGTCTCTTGAAGTGGGCAAGGAAGAGAAAAGCTTCAGTACACCTGAGCTCTGAGAAGGTGATGATCAAGTCTGATGCTGTCTTTAAAATCCTGAAGCTTCTTCATGCTGTGCAACTGGACTCTATCCAGGAGCTGGACTTGTCCATTGATTGGGGTCAGGAAAACATGAAAGCATTTGTTCCCCTGCTCAGGAAGATGACAAAACTTCACACATTTCACTTCAGTAGCCTGAGCCCAGAAGTGTATACTTCCTCCGGGAAAAACAAGTGGCATTCCCGCATCTATGCTTTTCACTTAGGACAGATGCAAAGTCTCCGGGAGCTTCATATAGATCACGTCTTCTTTCTGGAAGGAACTCTGCACAAAATCTTCAGGAGCCAGACCCCCTTGAAGGCCCTCTCCTTGAGTTCAAGTCCACTGAAGGAGTCTGACCTAAAGCATCTGGCCCACTGTTCAAGCACATGCCAGCTGAAGTCTCTGAGTCTTAGGAAGTTCTCAATGAAATCATTCAACCCGGAGATCCTCCAGGCTCTGCTGGACAAACTGGCCTGCACCCTGGAGACCTTGGTCCTAGAGCACTGTGACATCACAGACGCCCAATTTCTTGCCATCTTGCCTCCCCTGAGCTGCTGCTCCCAGCTCAAGACCTTCAGTTGCTATGGGAACCCCATTTCACTGGGCGTCCTTCAGGTCCTGCTGCATGAGTGTACCGCACTGAGCCAATTAACCCAGGGGCTGTATCCTGCCCCACTGGAGAGCTATGAGTCCAAGATTCCAACAAAGTTTGTGCATCCTGAGAAATTTCACCAGGTCTGTGCTAAACTGGCACAGGTACTGATGCACATAAGGCCATCCCTTCTGATCCAGATCTGTACCTACTCCTGTGATTGGTGCATGTTGTGCCAACTGTATACGCTGGAGCCCAATGGGAACTGGGAAATCACAGAGGAGTATCTCTATCGAAGTTGGTTTAGATGTGACAGTTGTGTGAATCCCCTGTTTGGTGACCGTATCTTTCTTCTGTAG

XM_004863915.1 Coding sequence

LOC101701804 melanoma antigen preferentially expressed in tumors-like

Length: 876 bp    Location: 159849..157031   Strand: -
>XM_004863915.1
ATGACTACACAGAGCCCACTGACTCTGTATGAGCTGACCAAGAAGAGCCTGCTGAACAGTGAGACTATAGCCAGCACTGCTCTGCATGACCTGCCCTCCATGATCTTCCATGTAATTTTCATGGAGGCCTTTATGGGGGAACACAATGAGGTCCTAAAGGTAATGGTGCAGACCTGGCCTTTCCCCTGCCTCCCTTTGAGGACCCTGATGACTCTGAGGAAACCAAAGACCCCACACCCTCAGTTTGGAGAAATCACACTGCAACAGAGAAACCTACGGACCTTGCAAGCCCTACTGGATGGAATTGACATTCAGCTGTCCCAGAAGTGGGCCAGGAAGAGAAAAGCTTCAGTACACCTGAGCTCTGAGAAGGTGATGATCAAGTCCGATGCTGTCTTTAAAATCCTGAAGCTTCTTCGTGCTGTGCAACTGGACTCTATCCAGGAGCTGGACGTGTTCAGCGACTGGACTCGGGAAAGCATGAAAGCATTTGTTCCTCACCTCAAGAAGATGACGAACCTTCACACATTTCACTTCAGTAGCCTGAGCCCAGAAGTGTTTACTTCAGCCTCAAAAAACAAGTGGCACTCCCGCATCTACGCTTTTCACTTAGGACAGATGCAAGGTCTCCGGGAGCTGCATATAGATGACGTCTTCTTTCTGGAAGGAACTCTGCACAAAATCTTCAGGAGCCAGACCCCCTTGGAGGCCCTCTCCTTGAGTTCAAGTCCACTGAAGGAGTCTGACCTAAAGCATCTGGCTCTGCTGGACAAACTGGCCTGCACCCTGGAGACCTTGGTCCTAGAGAACTGTGACATCAGAGACGCCCAGTTCCTTGCCATCTTGCCTCCCCTGAGCATCAAGACATTCAGTTGA

XM_004863917.1 Coding sequence

LOC101702500 PRAME family member 9/15-like

Length: 1461 bp    Location: 231543..228812   Strand: -
>XM_004863917.1
ATGAGCGCCCAGGCCCCACCCACCCTCTTTCAGCTAGCGATGCACAGACTGGTGAGGGAAAAGAACTTGGCCATCAAGGCTAGGGAGGACCTGCCAAGAGAGATCATTGAGACACTCTTCATGGAAGCCTTATCCAGGGGACACAATGATTTCCTGAAAGCCATTGTACCAGCCTGGCCCTTCTACTACCTCCCACTGGGGATGCTGATGAGTATGAGGAGGCCAGAGGCCTCAGAAACACACCTGAGTGTCATCCAAAAACAGTCACAGAACCTACAGATCTTACAAGCTGTGCTAGATGGGCTTGATGTGCTGCTGGCCCAGAAAGTTCGCCCCAGGAGGTGGAAACTGCAAGTTCTAGATTTGCGGAACACACAGCAGGACTTCTGGAAAGCCTCTACTGAAAACCTGACTCAAGCCTGTTCCCCTGTTGCTGTGATTAGGAAAATGGAGAGGACTGGCCCATATGTGGCAGAAAAGCAGCCCCTGAAGGTGACTGTAGACCTGTACCTCAGGGTGGATTATCCAGGTGGATTCTTGTCCTACCTCTTCGAGTGGGTCTACCAGAGGAAAGCTTCACTGCAGCTGGACTGTGGGAAGCTGCCAATCGAAAGCATCATAAAGATCATGAAAACGGTGGACCTGGATTGTGTGCAGGAAGTGGATTTGGGTCCCTTCTGGACACTCTCCAACCTAGCTTATTTTGCCCCTTACCTGGGCCAAATGCAAAATCTTCACAAACTATTCCTCTCCCACATCTCTGGGTCTGACTTCATTTTCCCAGAGAGGAGTGAAATGCTGGCCAACCAATTCATTTCTCAGTTTCCCAAGCTGCACTGCCTCCAGGAGATTTATATAGAGTCTGTGTCTTTCCTCAAAGGCCACCTGGACCAAGTGCTCAGGTACCTGAAGTCTCCCTTGAAAACCCTCTCTATAACTCACTCCCAGCTTTCACACTCAGACTGGAAACATCTGTCTCAGTGCCTGAGCCTTAGTCACCTAAAACACCTGTATCTGAGGGGTGTCCGACTGATTGACTTTAGTCCTGAGCCCCTCCGAGTTCTACTGGATAAAGTTGCAGGCACCTTGACCATCCTGCACTTGGAGGCCTGTGGAATCAGAGACTCTCAGCTTAAGGCCATCATTCCTTCCCTGAGCCACTGCTCCAAGCTCACCACCTTCAACTACATTAGGAACTGCATCTCTGTGGCCACCTTGGAAAACCTGCTGCGCTGCACTGCCAGGTTGAGCAACTTAAGACTAGAGCAGTATGCTGTTCCTTGGGAGATATATTGTCCCCATTGTCCTCTCCAGTGGCTGAGGGTGGAGCAGATCCGTGATGCCCTGGTGAGGATTGTGAAGCCATTAAACCATCCAAGGAGAGTTTGGTTCCGTACTACTCACTGTCATCTCTCTGATAATGAGACAACCTATCATTGCCCTGATTACATCCCTATCTAG

XM_004863521.1 Coding sequence

Aadacl4 arylacetamide deacetylase-like 4

Length: 1227 bp    Location: 418798..406470   Strand: -
>XM_004863521.1
ATGGCTGTCCTGTTGCTGGTGCTGCCATTGGGCCTGGCCATCTTTTTCCTGGGACTCCTCGTCTGGACCATCTTTAAGCATTTCCTCACCACAGAAGTCCCCTCTGCCTTGCAACATCCCGTCAAGTTCAGAATTCTGGACTGCATGTTTATATATGTGATCACTTTGGGGAACATACTAGAGAAGCTGAGAATTTGCTCCATGGCCAGCGTTGCCCGTTTTGTACATGACAGATTGTTCACAAAGAAAAAGGACCCTAAAGTGGTGGTGACTAACCTGCGCTTTGGAACCATCCCTGTGAGGCTGTTTCAGCCCAAGGCAATAGCCTGCAGATCCCGGGGAGGCATCATTTTCTACCATGGAGGAGCCGCAGTGATGGGTAGCCTGGATTCTTACCACAACATGTGCCTTTTCCTTGCCCTGGAGACGGATTCTGTGCTACTGTCAGTGGGGTACCGCAAGCTTCCTGACCACCATTACCCTGTCATTACTAACGACTGTCTGAATGCCTCCATCCACTTCCTGAAGATCCTGAAAACCTATGGTGTGAACCCTTCCCAGGTTGTGATCTGTGGGGAAAGTGCTGGAGGAGGAGTTGTGGCCCAGGTGACTCAGGCATTGGTGAGCCAGAAAGATCTTCCCCAGATCCGGGCTCAAATCCTGATTTATCCAACCACTCAGGCCATCAATTTACAGTTACCATCCTTTCAGCAGAACCAAAATGTTCCGTTCCTCACCCGGGACTTCATGTTGATGTGCCTTTGTAAATATATGGCCATCGACCTCTCCTGGCGAGATGCCATGGTGAAAGGTGCTTGTATACCCCCAGACACCTGGAAGAAGTACAGGAAATGGCTCAGCTCTGACAACATCCGACAGAGTGTCAAGAACAGGTTCCAGGAATCCCAGCTCCGTGGTCCTTTTAATGAGGCTGCCTATTTGGAAACAAAACATCTGTTAGACGTAGCAAATGCACCCCTCTTAGCAGATGATGAAATCATTGCTCAGCTTCCTGAGGCCTTCCTGGTGAGCTGTGAGTATGATGTCTTCCGTGATGATGTCTTGCTCTACAAGAAGCGCTTGGAAGACCAGGGGGTCCCAGTGAGCTGGTACCATGTGGAGGATGGATTTCATGGATGCCTAATTTTATTTGATAGGAAGCCTTTCTCTTTCCCTTGCTCTGTGAAAATTTTAAATGCTATAGTCAGTTACATAAAAGGCATATGA

XM_004863523.1 Coding sequence

LOC101706954 serine/threonine-protein phosphatase 4 regulatory subunit 3B-like, transcript variant X2

Length: 2280 bp    Location: 452201..449672   Strand: -
>XM_004863523.1
ATGTCGGCTACACGGCAACGAGTGAAGGTCTATGCCCTGAACGAAGACCGGCAATGGGACGATCGAGGCACCGGGCGTGTCTCCTCCGCTTATGTGGAGGAGCTCAAAGGGATGTCGCTGCTGGTTCGGGCAGAGTCCGACGGATCACTACTCTTGGAATCAAAGATAAATCCACACACGGCGTATCAGAAGCAACAGGATACGTTAATTGTTTGGTCAGAAGCTGAGAACTATGATCTGGCGCTAAGTTTTCAAGAAAAAGCTGGCTGTGATGAGATCTGGGAAAAAATCTGTCAGGTTCAAGGTAAGGACCCATCAGTAGAAGTCACGCAGGACCTCACTGATGAATCAGAAGAAGAACGATCGGAAGAAAGGCCTGACACCAGTCATTTGATTGACCTACCCACATGTGAACTCAATAAACTTGAAGAGATTGCTGATTTAGTTAGCTCAGTTCTCTCCTCACCTATTCGTAGGGAAAAGCTGGCTCTGGCCTTGGAAAATGAAGGCTATATTAAAAAACTACTGCAGCTGTTCCAGGCGTGTGAGAACTTAGAAAACACTGAAGGCTTACACCATTTGTATGAAATTATTAGAGGAATCTTATTTCTAAATAACTCAACTCTTTTTGAGGTAATGTTTTCTGATGAGTGTATCATGGATGTCGTGGGATGCCTTGAATATGACCCTGCTTTGGCCCAGCCAAAAAGACACAGAGAATTTTTGACCAAAACTGCAAAATTTAAGGAAGTTACACCAATAACAGACTCTGAACTAAGGCAAAAAATACATCAGACTTACAGGGTGCAGTATATTCAGGATATCATTTTGCCTACACCATCTGTTTTTGAAGAGAATTTTCTTTCTACTCTGACATCTTTTATTTTCTTCAACAAAGTTGAGATAGTCAACATGTTGCAAGAAGACGAAAAGTTTTTGTCTGAAGTTTTTGCACAATTAACAGATGAGGCTACAGATGATGATAAACGACATGAATTGGTCAATTTTTTCAAGGAATTTTGTGCATTTTCTCAGACATTACAGCCTCAAAACAGGGATGCATTTTTCAAAACTTTAGCAAAATTGGGAATTCTTCCTGCACTTGAAATCGTAATGGGCATGGATGATTTACAAGTCAGATCAGCTGCTACAGATATATTTTCTTATTTAGTAGAATGTAGCCCCTCTATGGTCCGAGAATTTGTAATGCAAGAAGCCCAGCAAAGTGATAACAATATCCTTCTTGTTAATGTAGTAATTAAACAAATGGTCTGTGACAGTGATCCTGAGCTAGGAGGCGCAGTTCAGTTAATGGGACTTCTTCGTACTCTAATTGATCCAGAGAACATGCTGACTACAACTAATAAAACTGAAAAAAGTGAGTTTCTGAATTTCTTCTACAACCATTGTATGCATGTCCTCACAGCACCACTTTTGACCAATACTTCAGAAGACAAATGTGAAAAGGATAAATTTGTTGGATCTAACAAAAACAACACAATTTGTCCTGGTGCTCTTCGTTTTATGAGACGGATAATTGGCCTTAAAGATGAATTTTACAATCATTATATCACCAAGGGAAATCTTTTTGAGCCAGTTATTAATGCTCTCCTGGATAATGGAACTCGGTACAATCTGTTGAATTCAGCAGTCATTGAGTTGTTTGAGTTTATAAGAGTGGAAGATATCAAGTCTCTTACTGCACATATAGTTGAAAATTTTTATAGAGCACTTGAATCAATTGAATATGTTCAGACATTCAAAGGACTAAAGACTAAATATGAGCAAGAAAGGGACAGACAAAGTCAGAAACTAAACAGTAACAGATTTCACAGAGATGCAAAAGCCTTGGAAGAGGACGAAGAAATGTGGTTTAATGAAGATGAAGAGGAAGAAGGAAAAGCAGTTGTGACACCAATTGAAAAATCTAAGACAGAAGATGATTTTCCAGATAGTTATGAAAAATTTATGAAGACTAAGAAAGCAAAAGAAATTGAAGACAAGGAAAACCTTCCCAAAAGGACATCTTCTGGTGGCTTCAAATTTATTTTCTCCCACTCTGCCAGTGCTACTAATGGAACAAACATTACAAACAGTAAATCTGTAGTGGCTCAGACACCACCCACAGGTTCTAATGGTTCTTCTTCCAAAACTACAAACTTGGCTACATCAGAAACAGCCACCAAGGGAAGTTTGGTTGGCTTAGTGGATTATCCAGATGATGAAGAGGAAGATGAAGAAGAAACATCCCCCAGGAAAAGACCTCCTCTGGGCTCATAA

XM_004863524.1 Coding sequence

unclassified transcription discrepancy mRNA

Length: 1092 bp    Location: 516957..506236   Strand: -
>XM_004863524.1
ATATTTATAATATTAATATTTACAATAGGGACCGTACTAGAGAAGCTGAGAATTTGCTCCATGCCCAGATTTATTCGCTTTTTACACGACAGCCTGATCATAATAAAGAAGGACCCTAAAGTGGTGGTGACCAACCTGTGCTTTGGGACAATCCCTGTGAGGCTGTTCCAGCCCCAGGGAGTGTCCTGCAGCCCCCGGAGAGGCATCGTCTTCTACCATGGAGGGGGTGGGATGTTCGGCAGCCTGGATTCTTACCACAGCCTGTGCAGTTTCCTGGCCCGGGAGACGGACTCTGTGGTCTTCTGTGTGGGGTACCGCCAGCTTCCTGACCACCATTACCCTGTCATTTATCAGGACTGCCTGAATGCCACCATGAAGTTCCTGAAGGGGGCGGGAGCCTATGGAGTAGAACCCTCCCAAGCGGTAATCTGTGGGGAAAGCATAGGAGCATCAACTGTGGCCATGGTTTCGCAGGCCTTGGCGGGCAGAACTAATCTTCCTCAGATCCGAGCTCAGGTTCTGATTTCTCCAGTTCTCCAGCTATTGAATTTACAGTTACCATCTTTTCGTGAAATGAAAAATGTCTCATTCCTCACCCTGGACATATTCATGACATGTCTGTGTAGATATTTGGACAATGACCTCTTTTGGCAAGCTGCCCTCATGAAAGGTGCTTGTATACTGCCAGAGGACTGGAAGAAGTACTGGAAATGGCTCAGCTCTGATAATATTTCCAACAGATTAAAAAACAAAGACCAAGAACCCCAGTTTCCTGGGCCGTTTAATGAGTCTGCTTATTTGGAAACCAAACAGTGGTTGTATATAAAAAATTCAGCCCTCCTCGAAGATGATGAGATAATCGCTCAGCTTCCTGAAGCTTTCCTAGTGAGCTATGGGTATGACATCCTCCGTGATGATACCATGCTCTACAAGAAGCACTTAGAAGACCGGGGGTGGGGTGTCCCAGTGAGCTGGTACCATGTGGAGGGTGGATTTCATGGATGCGTAGTTCTTTTTGATAGGAAGCCTTTCTCTTTCCCGTGCTCCCAGGACACTACGAATGGGGTGGTCAGTTACATAAAAGGCATATGA

XM_004863525.1 Coding sequence

Dhrs3 dehydrogenase/reductase (SDR family) member 3, transcript variant X1

Length: 966 bp    Location: 557407..587106   Strand: +
>XM_004863525.1
ATGGTGTGGAAATGGCTGGGCGCCTTGGTGGTGTTCCCGCTAAAGATGATCTATCTGGTGGCGAAAGCAGCCGTCGGACTGGTGCTGCCCGCCAAGCTGCGGGACCTGTCCCGGGAGAGCGTCCTCATCACCGGCGGAGGGCGAGGCATCGGGCGCCAGCTGGCCCGAGAGTTCGCGGAGCGCGGCGCCAGAAAGATTGTTCTCTGGGGCCGGACTGAAAAATGCCTGAAGGAAACAACGGAGGAGATTCGGCAGATGGGCACTGAGTGCCACTACTTCATCTGCGATGTGGGCAACCGGGAGGAGGTATACCAGATGGCCAAAGCTGTCCGGGAGAAGGTGGGTGACATCACCATCCTAGTGAACAATGCTGCTGTGGTCCACGGAAAGAGCTTGATGGACAGTGATGATGACGCCCTCCTCAAGTCCCAGCACATCAACACCCTGGGCCAGTTCTGGACCACCAAGGCCTTCTTGCCTCGAATGCTGGAGCTGCAGAATGGCCACATTGTGTGCCTCAACTCTGTGCTGGCACTGTCTGCCATCCCTGGAGCCATCGACTACTGCACTTCCAAAGCATCAGCCTTCGCCTTCATGGAGAGCCTGACCCTGGGGCTGCTGGACTGTCCAGGTGTCAGTGCCACCACTGTTCTGCCCTTCCACACCAGCACAGAGATGTTCCAGGGCATGAGGGTCAGGTCAGTGCTGGGGAACAGCCTCCTCTCTGGAGACAATGCAAGCCAGAGGGGCTATGGAGAAAGCTACACCATAGATATACCCCGAAGCCTTGGCCTTGCGCTCTGGTGTCTAATTCTCCATCTGCAAGGCAGTGGGATACCACAACAGGTCAGGGTCCCGCTTCTCAGTTCAGGGAGCTTGTACAAAGCAGTGGTGCAGAGTACGTGCCATGTACGTGTCATGGAATACTACCCAGTGATAAAAAGAACACAGAGTATCAATACGTGA

XM_004863526.1 Coding sequence

Dhrs3 dehydrogenase/reductase (SDR family) member 3, transcript variant X2

High confidence: 4 potential gene matches
Length: 909 bp    Location: 557409..590872   Strand: +
>XM_004863526.1
ATGGTGTGGAAATGGCTGGGCGCCTTGGTGGTGTTCCCGCTAAAGATGATCTATCTGGTGGCGAAAGCAGCCGTCGGACTGGTGCTGCCCGCCAAGCTGCGGGACCTGTCCCGGGAGAGCGTCCTCATCACCGGCGGAGGGCGAGGCATCGGGCGCCAGCTGGCCCGAGAGTTCGCGGAGCGCGGCGCCAGAAAGATTGTTCTCTGGGGCCGGACTGAAAAATGCCTGAAGGAAACAACGGAGGAGATTCGGCAGATGGGCACTGAGTGCCACTACTTCATCTGCGATGTGGGCAACCGGGAGGAGGTATACCAGATGGCCAAAGCTGTCCGGGAGAAGGTGGGTGACATCACCATCCTAGTGAACAATGCTGCTGTGGTCCACGGAAAGAGCTTGATGGACAGTGATGATGACGCCCTCCTCAAGTCCCAGCACATCAACACCCTGGGCCAGTTCTGGACCACCAAGGCCTTCTTGCCTCGAATGCTGGAGCTGCAGAATGGCCACATTGTGTGCCTCAACTCTGTGCTGGCACTGTCTGCCATCCCTGGAGCCATCGACTACTGCACTTCCAAAGCATCAGCCTTCGCCTTCATGGAGAGCCTGACCCTGGGGCTGCTGGACTGTCCAGGTGTCAGTGCCACCACTGTTCTGCCCTTCCACACCAGCACAGAGATGTTCCAGGGCATGAGGGTCAGGTTCCCCAACCTCTTTCCCCCACTGAAGCCTGAAACGGTGGCCCGGAGGACAGTGGAGGCCGTGCAGCTCAATCAGGCCCTCCTCCTGCTCCCGTGGACCATGCACATCCTCATTATCTTGAAAAGCATACTCCCACAGGCTGCACTGGAGGAGATTCACAGATTCTCAGGAACCTATACCTGCATGAACACTTTCAAAGGACGGACATAG

XR_206035.1 Non-coding sequence

LOC101712229 PREDICTED: Heterocephalus glaber uncharacterized LOC101712229 (LOC101712229), misc_RNA.

Length: 2503 bp     
>XR_206035.1
CTAGGATGGGGGTGGAACCCAGCATGAACTATGAGGACAGAGGGTGGGTGAGAGACGGTTCCCTAAAGGGAATTGGGGGTCTATTTCTGGAAGAAGAGAGAATGGACTCTGGCCAGGCAACACCTCAGTCTATGAAGACTTCCCTGTCCTTCCCATCTTCTCTTCCAGTTGGACAACCCCACTCCAAGCACCAGGAAGAAAAGTGACGACTCTGACACAAGAGCCAGGTTACAGAGTCTAGACACACTGGTGACAGCAGCCGCATCACACGGTGAGGAACCACAGCTTTATTCTCAGCAGTCCACCATGCAGCTGCCAGGGTTTTGGAGGCACAGATGACGCGTGAAAACAAAGGGCCCTGGGGCGAGCACAGGGCGCCCGGGGCCAGGGCGGGATCGAGGTCGCCTGTCTGCTTCTACCGCATAGGGCCAGGCCTGGCTGACCTTGACACTGGTCAAGGAGCGGGATGGCTTCTGAAGTCCCCTTCCCCACTACTCCTGACGCACTCCACTAGTTTTCCCTTCCGCAAAAAGGAACTGTGTGTTTGAGGAAGCAGGAAAATGGATAGAAATCATCCTGACGAAGTCTTGGACACCACCGGCTAAATCACAATTTAAGAAGAAATGGGCATTCAAGGAGCCAGGCCAGGGGCTGCTCTGTCCAGAGCTTTGATGCTGTCCCGGCGAACCAGGGAGCCATCGCAGAAGCTCCCGAAACTGTCCCCTGCCTGGTGCTGGGGCTGCAGGGCAGGGAAGAGTTCTGGAAGCAGCAGCCCCAGGGCCATTTGGCCTTTTTAACCCCCGGCCTTCTGAGGCGCAGATGTCAGGGGGTGGCAGTGCCCTCCTAGGGATGGGCAACTATTGACAGTGCTGGTTAAATCTCCCTGGATCTTCCTGAAGCACCAGGCCAGGGCGGGCACAGAGCCTTCCTGCAGGTGGGGATGGCACCACCAGGTGCTGCTGGGCCCCAGGCCGGCTCCTTTAGAACAGGAGCCCCTTCCCTCAGGAAGGACATGTCAGGTGACCCCAGCCTAGCAAACGACAGAAGGCTTGCTGATGCCAGCGTGCTGAGAGTCTCACATGTGAGAGACTGATCTCGGGCAGTGCGTTACTGGTGACAAAAACCACGCGCCAGACTTGTGGGCTGTGCGGATGAGCTACAACTTGGCCCCTGAGGTGCAGGTCTCACACAGGAGCGCTGAGACCATCGTGACACCCACTCGGCAAGCCGCACACTCACCACCCCGTCCCACTGGGTCCTTCACGGGCCCACTGCAAGAGCCCGGTGAAAGCCACCCGAACCCTGGAGCTCACGGCGACCATCCCTGGGAACCTGGTGGAGCTTGGGCATCCACACAGGAGCATCCTCCCTTCCTCTCTGCACGTGCACACACATGCACGCAAGCACGCACGCACACACGCACAAGTGCATGCACACCTGGGGGTGTGGAGAGTCCCTGAAGGGAGGGGAGAGGTGGACAGAGGAGCTTCATTTGCATCTTGGCGGAATCTGTGTCCTGAGTTACAGACACCAAAGTCTTCCACACATCCACGGATCCACTGGGCCACCTCAGAGCTTAGCTATGTGTGACGAGATTGCAGAAAGTCATCAGTTTTACTAAAATAAAACCCCTAGAGTCGCAGGGCGCGTCACTCACCCTGCACTGAGGCTTTACCCTGCCCTAGCTGTTGTGCCTTACAGAAACACCAACAAGACCAGGAAGGAGCAGGCACCACTCACACCTGAGGTTAAACCCAGGGCAGACACACACTGGCCAAGCCTGGCTCCGTGAGGAGCCACAGTGCAGCTGTTTAATACTCATATTTCACCCGTTTCCTGCACTCTCCTCCCTCCTCATGCCACTGTCACCACCCGTGTCCCTGGGACTGAGCAGCTGTGGTGCCAGGATGCGGCTTCATTAAGAACACATCTCAGGAGCTTCTGCCCTGATGCTGGGACAGGACGGGGGCGGCATTCTCATCAGGGCCTCCGGACCTGTCCCAACAAAGGGCTTGGTGACTCTTCTCTTGTGTCCAAAGTGCACACCAGTGCTTCACATGTCTCTTGACAGCAGCAGGAGAAAAACGTGCAAGACTGACGTGTGTCTGTGCACGTGCGTGTGTGGTACGGGACAGTCTCACTTCTGAGTTGGGTGAGGCTGGTCGGGCAAGGCCTCGTTGCCTCTGCACACGCTGGCTCAAGACTCCCCCAGGTGACTGACAACTGCCAAGCTCGCTCTTGAACTCAGATCTCATGCCAGCCTGCTTACTGCATCTGCAAGACCCGGCTGGGACACTTCAACTTTCAAGAGTGCCTCTCTACAGAGTCCCCTGAATGAGACGTGTAGAGTTAGTGCAATCAAAGGCCCAAGACAATTTACATTACTCTACAGGAAACAAACCTGCACACACATCACAGCCCTGCTCAGAAGTGCCTATGTATTTACAGACACACAGTTGTACATATGTACATGTTAACAAAATACAGGGCAATCTAAAAATTA

XM_004863534.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X8

Length: 13164 bp    Location: 885445..632441   Strand: -
>XM_004863534.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAGCCTCCCCCTCATCTACCTTAGAACTAGGAGCACAGCCAGTCTGACTAACCTAGAGCACCAGATCTATGCAAGAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTCTTCATCGCGGCGGAGAACATCGACAGCTACTGCGTGCTCATCTCCTCCAAGGCCGTGTACTTCCTCAAGAGTGGAGACTACGTGGACCGGGAGGCCGTTTTCCTCGAGGTCAAGTATGACGACCTCTACCACTGCCTCGTCTCCAAAGACCATGGGAAGGTGTATGTGCAGGTGACCAAGAAAGCCGCAAACCCCAGCAGTGGCGTGTCCATCCCGGGCCCGTCGCGCCAGAAGCCGATGGTCCACGTGAAGTCTGAGGTCCTGGCTATCAAGTTATCACAAGAAATAAACTACGCCAAGAGCCTCTACTATGAGCAGCAACTTAGGCTAAGACTCAGCGAAAATCAGGAGCATTTGGAGCTGGACTCCTGA

XM_004863533.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X7

Length: 13167 bp    Location: 885445..632441   Strand: -
>XM_004863533.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAGCCTCCCCCTCATCTACCTTAGAACTAGGAGCACAGCCAGTCTGACTAACCTAGAGCACCAGATCTATGCAAGAGCAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTCTTCATCGCGGCGGAGAACATCGACAGCTACTGCGTGCTCATCTCCTCCAAGGCCGTGTACTTCCTCAAGAGTGGAGACTACGTGGACCGGGAGGCCGTTTTCCTCGAGGTCAAGTATGACGACCTCTACCACTGCCTCGTCTCCAAAGACCATGGGAAGGTGTATGTGCAGGTGACCAAGAAAGCCGCAAACCCCAGCAGTGGCGTGTCCATCCCGGGCCCGTCGCGCCAGAAGCCGATGGTCCACGTGAAGTCTGAGGTCCTGGCTATCAAGTTATCACAAGAAATAAACTACGCCAAGAGCCTCTACTATGAGCAGCAACTTAGGCTAAGACTCAGCGAAAATCAGGAGCATTTGGAGCTGGACTCCTGA

XM_004863532.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X6

Length: 13176 bp    Location: 885445..632441   Strand: -
>XM_004863532.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGTCCTTGTAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAGCCTCCCCCTCATCTACCTTAGAACTAGGAGCACAGCCAGTCTGACTAACCTAGAGCACCAGATCTATGCAAGAGCAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTCTTCATCGCGGCGGAGAACATCGACAGCTACTGCGTGCTCATCTCCTCCAAGGCCGTGTACTTCCTCAAGAGTGGAGACTACGTGGACCGGGAGGCCGTTTTCCTCGAGGTCAAGTATGACGACCTCTACCACTGCCTCGTCTCCAAAGACCATGGGAAGGTGTATGTGCAGGTGACCAAGAAAGCCGCAAACCCCAGCAGTGGCGTGTCCATCCCGGGCCCGTCGCGCCAGAAGCCGATGGTCCACGTGAAGTCTGAGGTCCTGGCTATCAAGTTATCACAAGAAATAAACTACGCCAAGAGCCTCTACTATGAGCAGCAACTTAGGCTAAGACTCAGCGAAAATCAGGAGCATTTGGAGCTGGACTCCTGA

XM_004863535.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X9

Length: 13170 bp    Location: 885445..632441   Strand: -
>XM_004863535.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGGCAAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAGCCTCCCCCTCATCTACCTTAGAACTAGGAGCACAGCCAGTCTGACTAACCTAGAGCACCAGATCTATGCAAGAGCAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTCTTCATCGCGGCGGAGAACATCGACAGCTACTGCGTGCTCATCTCCTCCAAGGCCGTGTACTTCCTCAAGAGTGGAGACTACGTGGACCGGGAGGCCGTTTTCCTCGAGGTCAAGTATGACGACCTCTACCACTGCCTCGTCTCCAAAGACCATGGGAAGGTGTATGTGCAGGTGACCAAGAAAGCCGCAAACCCCAGCAGTGGCGTGTCCATCCCGGGCCCGTCGCGCCAGAAGCCGATGGTCCACGTGAAGTCTGAGGTCCTGGCTATCAAGTTATCACAAGAAATAAACTACGCCAAGAGCCTCTACTATGAGCAGCAACTTAGGCTAAGACTCAGCGAAAATCAGGAGCATTTGGAGCTGGACTCCTGA

XM_004863529.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X3

Length: 13266 bp    Location: 885445..632668   Strand: -
>XM_004863529.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAGCCTCCCCCTCATCTACCTTAGAACTAGGAGCACAGCCAGTCTGACTAACCTAGAGCACCAGATCTATGCAAGAGCAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTCTTCATCGCGGCGGAGAACATCGACAGCTACTGCGTGCTCATCTCCTCCAAGGCCGTGTACTTCCTCAAGAGTGGAGACTACGTGGACCGGGAGGCCGTTTTCCTCGAGGTCAAGTATGACGACCTCTACCACTGCCTCGTCTCCAAAGACCATGGGAAGGTGTATGTGCAGGTGACCAAGAAAGCCGCAAACCCCAGCAGTGGCGTGTCCATCCCGGGCCCGTCGCGCCAGAAGCCGATGGTGAGCCCCCGCCAGCCCCGGCACCGGGTGGGCGAGCCCAGGGCCCAGGGCCCAGAGGTTGTAGTCCCGCAGCCTTGCCTTGCCCCCACTTGCCCACAGGGACTCTGCTGGGAGGGTCCGGCCACGCTGGCTGCTGCCCACCTGCTCCATGGCGTCCCCAGGCACGTCCTTCAATGTTTGCACCTCAGTTTCCCACCAACACGAGTGGGTAGCGATGCTTACTCTCGTTAG

XM_004863531.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X5

Length: 13197 bp    Location: 885445..632668   Strand: -
>XM_004863531.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGTCCTTGTAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTCTTCATCGCGGCGGAGAACATCGACAGCTACTGCGTGCTCATCTCCTCCAAGGCCGTGTACTTCCTCAAGAGTGGAGACTACGTGGACCGGGAGGCCGTTTTCCTCGAGGTCAAGTATGACGACCTCTACCACTGCCTCGTCTCCAAAGACCATGGGAAGGTGTATGTGCAGGTGACCAAGAAAGCCGCAAACCCCAGCAGTGGCGTGTCCATCCCGGGCCCGTCGCGCCAGAAGCCGATGGTGAGCCCCCGCCAGCCCCGGCACCGGGTGGGCGAGCCCAGGGCCCAGGGCCCAGAGGTTGTAGTCCCGCAGCCTTGCCTTGCCCCCACTTGCCCACAGGGACTCTGCTGGGAGGGTCCGGCCACGCTGGCTGCTGCCCACCTGCTCCATGGCGTCCCCAGGCACGTCCTTCAATGTTTGCACCTCAGTTTCCCACCAACACGAGTGGGTAGCGATGCTTACTCTCGTTAG

XM_004863530.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X4

Length: 13200 bp    Location: 885445..632668   Strand: -
>XM_004863530.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGTCCTTGTAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAACAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTCTTCATCGCGGCGGAGAACATCGACAGCTACTGCGTGCTCATCTCCTCCAAGGCCGTGTACTTCCTCAAGAGTGGAGACTACGTGGACCGGGAGGCCGTTTTCCTCGAGGTCAAGTATGACGACCTCTACCACTGCCTCGTCTCCAAAGACCATGGGAAGGTGTATGTGCAGGTGACCAAGAAAGCCGCAAACCCCAGCAGTGGCGTGTCCATCCCGGGCCCGTCGCGCCAGAAGCCGATGGTGAGCCCCCGCCAGCCCCGGCACCGGGTGGGCGAGCCCAGGGCCCAGGGCCCAGAGGTTGTAGTCCCGCAGCCTTGCCTTGCCCCCACTTGCCCACAGGGACTCTGCTGGGAGGGTCCGGCCACGCTGGCTGCTGCCCACCTGCTCCATGGCGTCCCCAGGCACGTCCTTCAATGTTTGCACCTCAGTTTCCCACCAACACGAGTGGGTAGCGATGCTTACTCTCGTTAG

XM_004863528.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X2

Length: 13272 bp    Location: 885445..632668   Strand: -
>XM_004863528.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGTCCTTGTAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAGCCTCCCCCTCATCTACCTTAGAACTAGGAGCACAGCCAGTCTGACTAACCTAGAGCACCAGATCTATGCAAGAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTCTTCATCGCGGCGGAGAACATCGACAGCTACTGCGTGCTCATCTCCTCCAAGGCCGTGTACTTCCTCAAGAGTGGAGACTACGTGGACCGGGAGGCCGTTTTCCTCGAGGTCAAGTATGACGACCTCTACCACTGCCTCGTCTCCAAAGACCATGGGAAGGTGTATGTGCAGGTGACCAAGAAAGCCGCAAACCCCAGCAGTGGCGTGTCCATCCCGGGCCCGTCGCGCCAGAAGCCGATGGTGAGCCCCCGCCAGCCCCGGCACCGGGTGGGCGAGCCCAGGGCCCAGGGCCCAGAGGTTGTAGTCCCGCAGCCTTGCCTTGCCCCCACTTGCCCACAGGGACTCTGCTGGGAGGGTCCGGCCACGCTGGCTGCTGCCCACCTGCTCCATGGCGTCCCCAGGCACGTCCTTCAATGTTTGCACCTCAGTTTCCCACCAACACGAGTGGGTAGCGATGCTTACTCTCGTTAG

XM_004863538.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X12

Length: 12852 bp    Location: 885445..637898   Strand: -
>XM_004863538.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGTCCTTGTAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAGCCTCCCCCTCATCTACCTTAGAACTAGGAGCACAGCCAGTCTGACTAACCTAGAGCACCAGATCTATGCAAGAGCAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTTTACACTCACTGTTTCACTTCTGGAAAATATTGTATAATTACTTCCTGA

XM_004863537.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X11

Length: 12939 bp    Location: 885445..637898   Strand: -
>XM_004863537.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGTCCTTGTAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAGCCTCCCCCTCATCTACCTTAGAACTAGGAGCACAGCCAGTCTGACTAACCTAGAGCACCAGATCTATGCAAGAGCAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTGCTGGAAGACGCAGCCGGGAACGCAGGCCTTGTGTCTCGGAAGCGTCCCCAGCTGTCAGCCTGCTCTTCACAGCGATGTGAGCACTGCAGTCATCACTTTGCAAGAAAACACCCAGGCGCTGAATTATACCTCTGA

XM_004863539.1 Coding sequence

Vps13d vacuolar protein sorting 13 homolog D (S. cerevisiae), transcript variant X13

Length: 12375 bp    Location: 885445..698236   Strand: -
>XM_004863539.1
ATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGTCCTTGTAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAGCCTCCCCCTCATCTACCTTAGAACTAGGAGCACAGCCAGTCTGACTAACCTAGAGCACCAGATCTATGCAAGAGCAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGGACACTTTGCCAAGACAGCAGACCAAATGGTGA

XM_004863543.1 Coding sequence

Miip migration and invasion inhibitory protein, transcript variant X3

Length: 1638 bp    Location: 1035569..1027152   Strand: -
>XM_004863543.1
ATGGTGGAGACTGAAGACCTCATGCGCCTCCGGCTGCACAACCTGGGGCTTCTGAGGCAGCTGTGGGCCGGGCAGGCTGCTGTGCAGTGTGCGGTGGCCCGGGCAGTGTCCAAGTCAGGCGTGGACTCCAGCAGCAGCAGCTGTGACTCCGAGATGCCACTGACCCCAGAAACGTCCTCGGCCTCCCCCAGCACCTCCTGCTCACAGGACCAATGGTGCGCGTGGGCCCCCCTGGACACCCATCGGGGTCACCCCTGTGACACGGCCTGGGCCCGCTCCAGGGTGTCCTCTCTGCCTCCTGCCAAGTGCCAGCGTCCCGGGGCCCTGGGCCCTCCGAGGCCTCACTCGGTGCCCCTGCTGGCTTCCAGTGACCTGTGGGAGCCATCCACGGGGCCCGATGATCCGGGGCCTCGGGACGCCCAGGTCCCGAAGTCCATGCTGGCCCGGCGGAGCAGGCCGTCCAAGCCCCGAGTGACCTTCTGCGAGGAGTCTGCAGTGCCCGAGAGCAGCTGGCGCCTCCGGCCCTACCTGGGCTACGACTGGATCGCAGGGTCCCTGGACAGCAGCTCACCTGTCAGCAGCAAGCCCGAGGCCTTCTTCTCCGAGCTGCAGGAGTTCCGGGAGGCCCACCGGGAGGAGTGCATCGGCCGCGTCCACGAGCCCCACCTCCAAGGCCTGCGGCAGGGTGAGGATGCGGAGAAGGGCCATGAGTGTGAGTGTCAAGGCTCTGGGGGACCCCGAATTGTTTGGGGGGCTTCACGGGAATGGGGCCTTCCCTGTGTGCCACCCCCACCCTGGGCCTGGACTTGCTTCCCAGAGGGGTTGGAGCCCATGTGCTTGGGCAAAGCCAGGCCCCAGCTCAAGGGACCTGGTGCTTCTCGTGGCTCTTACAGGTGTGTTCTCCTACCGTGTCAACCGGCGCCTGTTCCTGGTGCCCTCGGACCCTGGTGTCCCCTGCCGCTTGTGTGGGACCCCTCGGGACCAGCGGGGCCCCGAGACCCTGGCAGAGCCTGCACAGGTCCAGGTGAGCGTCCCGCCCTCGGTCCTGGACCCCCCGCACCGGTACCGTATCCACCGACGCAAGAGCTTCGACGCCTCCAACACGCTGGCCCTGCCTCGGCACTGTCTGCTGGGCTGGGACATTGCCCCTCCAAAGCCCGAGAGAAGCTCGGCCCCCAGGAGTCTCGACCTCTGGTCCTCGGTCTCCTCTGCGGCCCAGCACCGGAAGCTGCTGGCCGCCAGCCCTTCTCACCTGGTACAGTTGGGGCGGCAGAGTCCCCTGAGGGGCAGGACGGGAGTGGGGGTACAAGGCCCTGTCCCCTGCACCCTCGCGCCCTTCCCCGCCTCCCCTGCCCGACCCCGGAAGCTGAGCCAGACTCTAAGACTCAGGACCCCAGTGAGCCTGACATTTCCCACCCCTTGCCCAGGCCTTGCCAGAGCAGGCCCCGCGCCCCACTCCGATGTGGTCAGAGCCCCAAGTCCCACGGGCCCCACAGTGAAGCCCTGAGCTCTGGCCACCTGGACGGCAGCGCTGTCAGCCCCAGCGTCCTCTGCAGGCAGTGCCACGAGGAGGAAGCCCCTGCCCACCTCGGGATACAGAGTGGGGTCTCGGGGTGGGGCCAGTGGTTTTGGGGATGA

XM_004863546.1 Coding sequence

Miip migration and invasion inhibitory protein, transcript variant X6

Length: 1485 bp    Location: 1035407..1027152   Strand: -
>XM_004863546.1
ATGGTGGAGACTGAAGACCTCATGCGCCTCCGGCTGCACAACCTGGGGCTTCTGAGGCAGCTGTGGGCCGGGCAGGCTGCTGTGCAGTGTGCGGTGGCCCGGGCAGTGTCCAAGTCAGGCGTGGACTCCAGCAGCAGCAGCTGTGACTCCGAGATGCCACTGACCCCAGAAACGTCCTCGGCCTCCCCCAGCACCTCCTGCTCACAGGACCAATGTGACCTGTGGGAGCCATCCACGGGGCCCGATGATCCGGGGCCTCGGGACGCCCAGGTCCCGAAGTCCATGCTGGCCCGGCGGAGCAGGCCGTCCAAGCCCCGAGTGACCTTCTGCGAGGAGTCTGCAGTGCCCGAGAGCAGCTGGCGCCTCCGGCCCTACCTGGGCTACGACTGGATCGCAGGGTCCCTGGACAGCAGCTCACCTGTCAGCAGCAAGCCCGAGGCCTTCTTCTCCGAGCTGCAGGAGTTCCGGGAGGCCCACCGGGAGGAGTGCATCGGCCGCGTCCACGAGCCCCACCTCCAAGGCCTGCGGCAGGGTGAGGATGCGGAGAAGGGCCATGAGTGTGAGTGTCAAGGCTCTGGGGGACCCCGAATTGTTTGGGGGGCTTCACGGGAATGGGGCCTTCCCTGTGTGCCACCCCCACCCTGGGCCTGGACTTGCTTCCCAGAGGGGTTGGAGCCCATGTGCTTGGGCAAAGCCAGGCCCCAGCTCAAGGGACCTGGTGCTTCTCGTGGCTCTTACAGGTGTGTTCTCCTACCGTGTCAACCGGCGCCTGTTCCTGGTGCCCTCGGACCCTGGTGTCCCCTGCCGCTTGTGTGGGACCCCTCGGGACCAGCGGGGCCCCGAGACCCTGGCAGAGCCTGCACAGGTCCAGGTGAGCGTCCCGCCCTCGGTCCTGGACCCCCCGCACCGGTACCGTATCCACCGACGCAAGAGCTTCGACGCCTCCAACACGCTGGCCCTGCCTCGGCACTGTCTGCTGGGCTGGGACATTGCCCCTCCAAAGCCCGAGAGAAGCTCGGCCCCCAGGAGTCTCGACCTCTGGTCCTCGGTCTCCTCTGCGGCCCAGCACCGGAAGCTGCTGGCCGCCAGCCCTTCTCACCTGGTACAGTTGGGGCGGCAGAGTCCCCTGAGGGGCAGGACGGGAGTGGGGGTACAAGGCCCTGTCCCCTGCACCCTCGCGCCCTTCCCCGCCTCCCCTGCCCGACCCCGGAAGCTGAGCCAGACTCTAAGACTCAGGACCCCAGTGAGCCTGACATTTCCCACCCCTTGCCCAGGCCTTGCCAGAGCAGGCCCCGCGCCCCACTCCGATGTGGTCAGAGCCCCAAGTCCCACGGGCCCCACAGTGAAGCCCTGAGCTCTGGCCACCTGGACGGCAGCGCTGTCAGCCCCAGCGTCCTCTGCAGGCAGTGCCACGAGGAGGAAGCCCCTGCCCACCTCGGGATACAGAGTGGGGTCTCGGGGTGGGGCCAGTGGTTTTGGGGATGA

XM_004863542.1 Coding sequence

Miip migration and invasion inhibitory protein, transcript variant X2

Length: 1638 bp    Location: 1035332..1027152   Strand: -
>XM_004863542.1
ATGGTGGAGACTGAAGACCTCATGCGCCTCCGGCTGCACAACCTGGGGCTTCTGAGGCAGCTGTGGGCCGGGCAGGCTGCTGTGCAGTGTGCGGTGGCCCGGGCAGTGTCCAAGTCAGGCGTGGACTCCAGCAGCAGCAGCTGTGACTCCGAGATGCCACTGACCCCAGAAACGTCCTCGGCCTCCCCCAGCACCTCCTGCTCACAGGACCAATGGTGCGCGTGGGCCCCCCTGGACACCCATCGGGGTCACCCCTGTGACACGGCCTGGGCCCGCTCCAGGGTGTCCTCTCTGCCTCCTGCCAAGTGCCAGCGTCCCGGGGCCCTGGGCCCTCCGAGGCCTCACTCGGTGCCCCTGCTGGCTTCCAGTGACCTGTGGGAGCCATCCACGGGGCCCGATGATCCGGGGCCTCGGGACGCCCAGGTCCCGAAGTCCATGCTGGCCCGGCGGAGCAGGCCGTCCAAGCCCCGAGTGACCTTCTGCGAGGAGTCTGCAGTGCCCGAGAGCAGCTGGCGCCTCCGGCCCTACCTGGGCTACGACTGGATCGCAGGGTCCCTGGACAGCAGCTCACCTGTCAGCAGCAAGCCCGAGGCCTTCTTCTCCGAGCTGCAGGAGTTCCGGGAGGCCCACCGGGAGGAGTGCATCGGCCGCGTCCACGAGCCCCACCTCCAAGGCCTGCGGCAGGGTGAGGATGCGGAGAAGGGCCATGAGTGTGAGTGTCAAGGCTCTGGGGGACCCCGAATTGTTTGGGGGGCTTCACGGGAATGGGGCCTTCCCTGTGTGCCACCCCCACCCTGGGCCTGGACTTGCTTCCCAGAGGGGTTGGAGCCCATGTGCTTGGGCAAAGCCAGGCCCCAGCTCAAGGGACCTGGTGCTTCTCGTGGCTCTTACAGGTGTGTTCTCCTACCGTGTCAACCGGCGCCTGTTCCTGGTGCCCTCGGACCCTGGTGTCCCCTGCCGCTTGTGTGGGACCCCTCGGGACCAGCGGGGCCCCGAGACCCTGGCAGAGCCTGCACAGGTCCAGGTGAGCGTCCCGCCCTCGGTCCTGGACCCCCCGCACCGGTACCGTATCCACCGACGCAAGAGCTTCGACGCCTCCAACACGCTGGCCCTGCCTCGGCACTGTCTGCTGGGCTGGGACATTGCCCCTCCAAAGCCCGAGAGAAGCTCGGCCCCCAGGAGTCTCGACCTCTGGTCCTCGGTCTCCTCTGCGGCCCAGCACCGGAAGCTGCTGGCCGCCAGCCCTTCTCACCTGGTACAGTTGGGGCGGCAGAGTCCCCTGAGGGGCAGGACGGGAGTGGGGGTACAAGGCCCTGTCCCCTGCACCCTCGCGCCCTTCCCCGCCTCCCCTGCCCGACCCCGGAAGCTGAGCCAGACTCTAAGACTCAGGACCCCAGTGAGCCTGACATTTCCCACCCCTTGCCCAGGCCTTGCCAGAGCAGGCCCCGCGCCCCACTCCGATGTGGTCAGAGCCCCAAGTCCCACGGGCCCCACAGTGAAGCCCTGAGCTCTGGCCACCTGGACGGCAGCGCTGTCAGCCCCAGCGTCCTCTGCAGGCAGTGCCACGAGGAGGAAGCCCCTGCCCACCTCGGGATACAGAGTGGGGTCTCGGGGTGGGGCCAGTGGTTTTGGGGATGA

XM_004863547.1 Coding sequence

Miip migration and invasion inhibitory protein, transcript variant X7

Length: 1431 bp    Location: 1035407..1027245   Strand: -
>XM_004863547.1
ATGGTGGAGACTGAAGACCTCATGCGCCTCCGGCTGCACAACCTGGGGCTTCTGAGGCAGCTGTGGGCCGGGCAGGCTGCTGTGCAGTGTGCGGTGGCCCGGGCAGTGTCCAAGTCAGGCGTGGACTCCAGCAGCAGCAGCTGTGACTCCGAGATGCCACTGACCCCAGAAACGTCCTCGGCCTCCCCCAGCACCTCCTGCTCACAGGACCAATGGTGCGCGTGGGCCCCCCTGGACACCCATCGGGGTCACCCCTGTGACACGGCCTGGGCCCGCTCCAGGGTGTCCTCTCTGCCTCCTGCCAAGTGCCAGCGTCCCGGGGCCCTGGGCCCTCCGAGGCCTCACTCGGTGCCCCTGCTGGCTTCCAGTGACCTGTGGGAGCCATCCACGGGGCCCGATGATCCGGGGCCTCGGGACGCCCAGGTCCCGAAGTCCATGCTGGCCCGGCGGAGCAGGCCGTCCAAGCCCCGAGTGACCTTCTGCGAGGAGTCTGCAGTGCCCGAGAGCAGCTGGCGCCTCCGGCCCTACCTGGGCTACGACTGGATCGCAGGGTCCCTGGACAGCAGCTCACCTGTCAGCAGCAAGCCCGAGGCCTTCTTCTCCGAGCTGCAGGAGTTCCGGGAGGCCCACCGGGAGGAGTGCATCGGCCGCGTCCACGAGCCCCACCTCCAAGGCCTGCGGCAGGGTGAGGATGCGGAGAAGGGCCATGAGTGTGAGTGTCAAGGCTCTGGGGGACCCCGAATTGTTTGGGGGGCTTCACGGGAATGGGGCCTTCCCTGTGTGCCACCCCCACCCTGGGCCTGGACTTGCTTCCCAGAGGGGTTGGAGCCCATGTGCTTGGGCAAAGCCAGGCCCCAGCTCAAGGGACCTGGTGCTTCTCGTGGCTCTTACAGGTGTGTTCTCCTACCGTGTCAACCGGCGCCTGTTCCTGGTGCCCTCGGACCCTGGTGTCCCCTGCCGCTTGTGTGGGACCCCTCGGGACCAGCGGGGCCCCGAGACCCTGGCAGAGCCTGCACAGGTCCAGTGAGTGGTGGCTGGGACACCGGGACCCCTGGGGGCAGCCCCGCAGCGGAGGTGGCAGCCGAGGGGGCAGAGGTGGGCTGTGCCCTCACCACACCCCTGTGCAGGGTGAGCGTCCCGCCCTCGGTCCTGGACCCCCCGCACCGGTACCGTATCCACCGACGCAAGAGCTTCGACGCCTCCAACACGCTGGCCCTGCCTCGGCACTGTCTGCTGGGCTGGGACATTGCCCCTCCAAAGCCCGAGAGAAGCTCGGCCCCCAGGAGTCTCGACCTCTGGTCCTCGGTCTCCTCTGCGGCCCAGCACCGGAAGCTGCTGGCCGCCAGCCCTTCTCACCTGGCCTTGCCAGAGCAGGCCCCGCGCCCCACTCCGATGTGGTCAGAGCCCCAAGTCCCACGGGCCCCACAGTGA

XM_004863545.1 Coding sequence

Miip migration and invasion inhibitory protein, transcript variant X5

Length: 1611 bp    Location: 1035408..1027226   Strand: -
>XM_004863545.1
ATGGTGGAGACTGAAGACCTCATGCGCCTCCGGCTGCACAACCTGGGGCTTCTGAGGCAGCTGTGGGCCGGGCAGGCTGCTGTGCAGTGTGCGGTGGCCCGGGCAGTGTCCAAGTCAGGCGTGGACTCCAGCAGCAGCAGCTGTGACTCCGAGATGCCACTGACCCCAGAAACGTCCTCGGCCTCCCCCAGCACCTCCTGCTCACAGGACCAATGGTGCGCGTGGGCCCCCCTGGACACCCATCGGGGTCACCCCTGTGACACGGCCTGGGCCCGCTCCAGGGTGTCCTCTCTGCCTCCTGCCAAGTGCCAGCGTCCCGGGGCCCTGGGCCCTCCGAGGCCTCACTCGGTGCCCCTGCTGGCTTCCAGTGACCTGTGGGAGCCATCCACGGGGCCCGATGATCCGGGGCCTCGGGACGCCCAGGTCCCGAAGTCCATGCTGGCCCGGCGGAGCAGGCCGTCCAAGCCCCGAGTGACCTTCTGCGAGGAGTCTGCAGTGCCCGAGAGCAGCTGGCGCCTCCGGCCCTACCTGGGCTACGACTGGATCGCAGGGTCCCTGGACAGCAGCTCACCTGTCAGCAGCAAGCCCGAGGCCTTCTTCTCCGAGCTGCAGGAGTTCCGGGAGGCCCACCGGGAGGAGTGCATCGGCCGCGTCCACGAGCCCCACCTCCAAGGCCTGCGGCAGGGTGAGGATGCGGAGAAGGGCCATGAGTGTGAGTGTCAAGGCTCTGGGGGACCCCGAATTGTTTGGGGGGCTTCACGGGAATGGGGCCTTCCCTGTGTGCCACCCCCACCCTGGGCCTGGACTTGCTTCCCAGAGGGGTTGGAGCCCATGTGCTTGGGCAAAGCCAGGCCCCAGCTCAAGGGACCTGGTGCTTCTCGTGGCTCTTACAGGTGTGTTCTCCTACCGTGTCAACCGGCGCCTGTTCCTGGTGCCCTCGGACCCTGGTGTCCCCTGCCGCTTGTGTGGGACCCCTCGGGACCAGCGGGGCCCCGAGACCCTGGCAGAGCCTGCACAGGTCCAGTGAGTGGTGGCTGGGACACCGGGACCCCTGGGGGCAGCCCCGCAGCGGAGGTGGCAGCCGAGGGGGCAGAGGTGGGCTGTGCCCTCACCACACCCCTGTGCAGGGTGAGCGTCCCGCCCTCGGTCCTGGACCCCCCGCACCGGTACCGTATCCACCGACGCAAGAGCTTCGACGCCTCCAACACGCTGGCCCTGCCTCGGCACTGTCTGCTGGGCTGGGACATTGCCCCTCCAAAGCCCGAGAGAAGCTCGGCCCCCAGGAGTCTCGACCTCTGGTCCTCGGTCTCCTCTGCGGCCCAGCACCGGAAGCTGCTGGCCGCCAGCCCTTCTCACCTGGTACAGTTGGGGCGGCAGAGTCCCCTGAGGGGCAGGACGGGAGTGGGGGTACAAGGCCCTGTCCCCTGCACCCTCGCGCCCTTCCCCGCCTCCCCTGCCCGACCCCGGAAGCTGAGCCAGACTCTAAGACTCAGGACCCCAGTGAGCCTGACATTTCCCACCCCTTGCCCAGGCCTTGCCAGAGCAGGCCCCGCGCCCCACTCCGATGTGGTCAGAGCCCCAAGTCCCACGGGCCCCACAGTGAAGCCCTGA

XM_004863549.1 Coding sequence

Miip migration and invasion inhibitory protein, transcript variant X9

Length: 1326 bp    Location: 1035407..1027226   Strand: -
>XM_004863549.1
ATGGTGGAGACTGAAGACCTCATGCGCCTCCGGCTGCACAACCTGGGGCTTCTGAGGCAGCTGTGGGCCGGGCAGGCTGCTGTGCAGTGTGCGGTGGCCCGGGCAGTGTCCAAGTCAGGCGTGGACTCCAGCAGCAGCAGCTGTGACTCCGAGATGCCACTGACCCCAGAAACGTCCTCGGCCTCCCCCAGCACCTCCTGCTCACAGGACCAATGGTGCGCGTGGGCCCCCCTGGACACCCATCGGGGTCACCCCTGTGACACGGCCTGGGCCCGCTCCAGGGTGTCCTCTCTGCCTCCTGCCAAGTGCCAGCGTCCCGGGGCCCTGGGCCCTCCGAGGCCTCACTCGGTGCCCCTGCTGGCTTCCAGTGACCTGTGGGAGCCATCCACGGGGCCCGATGATCCGGGGCCTCGGGACGCCCAGGTCCCGAAGTCCATGCTGGCCCGGCGGAGCAGGCCGTCCAAGCCCCGAGTGACCTTCTGCGAGGAGTCTGCAGTGCCCGAGAGCAGCTGGCGCCTCCGGCCCTACCTGGGCTACGACTGGATCGCAGGGTCCCTGGACAGCAGCTCACCTGTCAGCAGCAAGCCCGAGGCCTTCTTCTCCGAGCTGCAGGAGTTCCGGGAGGCCCACCGGGAGGAGTGCATCGGCCGCGTCCACGAGCCCCACCTCCAAGGCCTGCGGCAGGGTGAGGATGCGGAGAAGGGCCATGAGTGTGTGTTCTCCTACCGTGTCAACCGGCGCCTGTTCCTGGTGCCCTCGGACCCTGGTGTCCCCTGCCGCTTGTGTGGGACCCCTCGGGACCAGCGGGGCCCCGAGACCCTGGCAGAGCCTGCACAGGTCCAGGTGAGCGTCCCGCCCTCGGTCCTGGACCCCCCGCACCGGTACCGTATCCACCGACGCAAGAGCTTCGACGCCTCCAACACGCTGGCCCTGCCTCGGCACTGTCTGCTGGGCTGGGACATTGCCCCTCCAAAGCCCGAGAGAAGCTCGGCCCCCAGGAGTCTCGACCTCTGGTCCTCGGTCTCCTCTGCGGCCCAGCACCGGAAGCTGCTGGCCGCCAGCCCTTCTCACCTGGTACAGTTGGGGCGGCAGAGTCCCCTGAGGGGCAGGACGGGAGTGGGGGTACAAGGCCCTGTCCCCTGCACCCTCGCGCCCTTCCCCGCCTCCCCTGCCCGACCCCGGAAGCTGAGCCAGACTCTAAGACTCAGGACCCCAGTGAGCCTGACATTTCCCACCCCTTGCCCAGGCCTTGCCAGAGCAGGCCCCGCGCCCCACTCCGATGTGGTCAGAGCCCCAAGTCCCACGGGCCCCACAGTGAAGCCCTGA

XM_004863548.1 Coding sequence

Miip migration and invasion inhibitory protein, transcript variant X8

Length: 1335 bp    Location: 1035407..1027226   Strand: -
>XM_004863548.1
ATGGTGGAGACTGAAGACCTCATGCGCCTCCGGCTGCACAACCTGGGGCTTCTGAGGCAGCTGTGGGCCGGGCAGGCTGCTGTGCAGTGTGCGGTGGCCCGGGCAGTGTCCAAGTCAGGCGTGGACTCCAGCAGCAGCAGCTGTGACTCCGAGATGCCACTGACCCCAGAAACGTCCTCGGCCTCCCCCAGCACCTCCTGCTCACAGGACCAATGGTGCGCGTGGGCCCCCCTGGACACCCATCGGGGTCACCCCTGTGACACGGCCTGGGCCCGCTCCAGGGTGTCCTCTCTGCCTCCTGCCAAGTGCCAGCGTCCCGGGGCCCTGGGCCCTCCGAGGCCTCACTCGGTGCCCCTGCTGGCTTCCAGTGACCTGTGGGAGCCATCCACGGGGCCCGATGATCCGGGGCCTCGGGACGCCCAGGTCCCGAAGTCCATGCTGGCCCGGCGGAGCAGGCCGTCCAAGCCCCGAGTGACCTTCTGCGAGGAGTCTGCAGTGCCCGAGAGCAGCTGGCGCCTCCGGCCCTACCTGGGCTACGACTGGATCGCAGGGTCCCTGGACAGCAGCTCACCTGTCAGCAGCAAGCCCGAGGCCTTCTTCTCCGAGCTGCAGGAGTTCCGGGAGGCCCACCGGGAGGAGTGCATCGGCCGCGTCCACGAGCCCCACCTCCAAGGCCTGCGGCAGGGTGAGGATGCGGAGAAGGGCCATGAGTGTGAGTGTCAAGGCTCTGGGGGACCCCGAATTGTTTGGGGGGCTTCACGGGAATGGGGCCTTCCCTGTGTGCCACCCCCACCCTGGGCCTGGACTTGCTTCCCAGAGGGGTTGGAGCCCATGTGCTTGGGCAAAGCCAGGCCCCAGCTCAAGGGACCTGGTGCTTCTCGTGGCTCTTACAGGTGTGTTCTCCTACCGTGTCAACCGGCGCCTGTTCCTGGTGCCCTCGGACCCTGGTGTCCCCTGCCGCTTGTGTGGGACCCCTCGGGACCAGCGGGGCCCCGAGACCCTGGCAGAGCCTGCACAGGTCCAGGTGAGCGTCCCGCCCTCGGTCCTGGACCCCCCGCACCGGTACCGTATCCACCGACGCAAGAGCTTCGACGCCTCCAACACGCTGGCCCTGCCTCGGCACTGTCTGCTGGGCTGGGACATTGCCCCTCCAAAGCCCGAGAGAAGCTCGGCCCCCAGGAGTCTCGACCTCTGGTCCTCGGTCTCCTCTGCGGCCCAGCACCGGAAGCTGCTGGCCGCCAGCCCTTCTCACCTGGCCTTGCCAGAGCAGGCCCCGCGCCCCACTCCGATGTGGTCAGAGCCCCAAGTCCCACGGGCCCCACAGTGAAGCCCTGA

XM_004863550.1 Coding sequence

Miip migration and invasion inhibitory protein, transcript variant X10

High confidence: 2 potential gene matches
Length: 1146 bp    Location: 1035406..1027245   Strand: -
>XM_004863550.1
ATGGTGGAGACTGAAGACCTCATGCGCCTCCGGCTGCACAACCTGGGGCTTCTGAGGCAGCTGTGGGCCGGGCAGGCTGCTGTGCAGTGTGCGGTGGCCCGGGCAGTGTCCAAGTCAGGCGTGGACTCCAGCAGCAGCAGCTGTGACTCCGAGATGCCACTGACCCCAGAAACGTCCTCGGCCTCCCCCAGCACCTCCTGCTCACAGGACCAATGGTGCGCGTGGGCCCCCCTGGACACCCATCGGGGTCACCCCTGTGACACGGCCTGGGCCCGCTCCAGGGTGTCCTCTCTGCCTCCTGCCAAGTGCCAGCGTCCCGGGGCCCTGGGCCCTCCGAGGCCTCACTCGGTGCCCCTGCTGGCTTCCAGTGACCTGTGGGAGCCATCCACGGGGCCCGATGATCCGGGGCCTCGGGACGCCCAGGTCCCGAAGTCCATGCTGGCCCGGCGGAGCAGGCCGTCCAAGCCCCGAGTGACCTTCTGCGAGGAGTCTGCAGTGCCCGAGAGCAGCTGGCGCCTCCGGCCCTACCTGGGCTACGACTGGATCGCAGGGTCCCTGGACAGCAGCTCACCTGTCAGCAGCAAGCCCGAGGCCTTCTTCTCCGAGCTGCAGGAGTTCCGGGAGGCCCACCGGGAGGAGTGCATCGGCCGCGTCCACGAGCCCCACCTCCAAGGCCTGCGGCAGGGTGAGGATGCGGAGAAGGGCCATGAGTGTGTGTTCTCCTACCGTGTCAACCGGCGCCTGTTCCTGGTGCCCTCGGACCCTGGTGTCCCCTGCCGCTTGTGTGGGACCCCTCGGGACCAGCGGGGCCCCGAGACCCTGGCAGAGCCTGCACAGGTCCAGGTGAGCGTCCCGCCCTCGGTCCTGGACCCCCCGCACCGGTACCGTATCCACCGACGCAAGAGCTTCGACGCCTCCAACACGCTGGCCCTGCCTCGGCACTGTCTGCTGGGCTGGGACATTGCCCCTCCAAAGCCCGAGAGAAGCTCGGCCCCCAGGAGTCTCGACCTCTGGTCCTCGGTCTCCTCTGCGGCCCAGCACCGGAAGCTGCTGGCCGCCAGCCCTTCTCACCTGGCCTTGCCAGAGCAGGCCCCGCGCCCCACTCCGATGTGGTCAGAGCCCCAAGTCCCACGGGCCCCACAGTGA

XM_004863553.1 Coding sequence

Mfn2 mitofusin 2, transcript variant X3

High confidence: 3 potential gene matches
Length: 2274 bp    Location: 1065025..1041354   Strand: -
>XM_004863553.1
ATGTCCCTGCTCTTCTCTCGATGCAACCCCATTGTCACAATCAAGAAGGATAAGAGACACATGGCTGAAGTGAATGCATCCCCTCTGAAGCACTTCGTTACTGCCAAGAAGAAGATCAATGGCATCTTTGAGCAGCTGGGGGCCTACATCCAGGAGAGCGCCACTTTCCTTGAAGACACCTACAGGAATGCTGAGCTGGACCCTGTCACGACGGAAGAGCAGGTTCTGGATGTCAAAGGCTACCTGTCCAAAGTGAGGGGCATCAGCGAGGTGCTGGCCCGGCGGCACATGAAGGTGGCCTTTTTCGGCCGGACAAGCAATGGGAAGAGCACTGTGATCAATGCCATGCTGTGGGACAAGGTTCTGCCCTCCGGGATTGGCCACACCACCAATTGCTTCCTGCGGGTGGAGGGCACTGACGGTCACGAGGCCTTCCTGCTCACCGAGGGCTCGGAGGAGAAGAGGAGCGTCAAGACTGTGAATCAGCTGGCCCATGCCCTGCACCAGGACGAGCAGCTACACGCCGGCAGCCTGGTGAGCGTGATGTGGCCCAACTCCAAGTGCCCGCTGCTGAAGGACGACCTGGTGCTGATGGACAGCCCTGGGATTGACGTCACCACCGAGCTGGACAGCTGGATTGACAAGTTCTGCCTGGACGCTGATGTGTTTGTGCTGGTGGCCAACTCAGAGTCCACCCTGATGCAGACGGAGAAGCAATTCTTCCACAAGGTGAGCGAGCGGCTCTCCCGCCCAAACATCTTTATCCTGAACAACCGGTGGGATGCGTCCGCCTCGGAGCCTGAGTACATGGAGGAGGTGCGGCGGCAGCACATGGAGCGTTGCACCAGCTTCCTGGTTGATGAGCTGGACGTGGTGGATCGAGCCCAGGCCGGGGACCGAATCTTCTTTGTGTCTGCCAAGGAGGTGCTCAATGCCAGGATCCAGAAAGCCCAGGGCATGCCGGAAGGAGGTGGCGCTCTTGCAGAAGGCTTTCAAGTGAGGATGTTTGAGTTTCAGAATTTCGAGAGGAGATTTGAGGAGTGCATCTCCCAGTCCGCAGTGAAAACCAAATTCGAGCAGCACACAGTCCGGGCCAAGCAGATCGTGGAGGCCGTTCGCTTCATCATGGACTCCCTGCACATCTCGGCCCAGGAGCAGCGGGTCTACTGCCTGGAGATGCGCGAAGAGCGGCAGGACCGGCTGCGGTTTATTGACAAACAGCTGGAGCTCTTGGCTCAGGACTACAAACTGCGGATTAAGCAGATCACGGAGGAAGTAGAAAGGCAGGTGTCGACTGCGATGGCTGAGGAGATCAGGCGCCTCTCTGTGCTGGTCGACGAGTACCAGTTGGATTTCCACCCTTCTCCGGTCGTCCTCAAGGTCTACAAGAATGAACTGCACCGCCACATAGAGGAAGGGCTGGGCAGAAACATGTCTGACCGCTGCTCCACGGCCATTGCCAACTCCCTGCAGACCATGCAGCAGGACATGATCGATGGCTTGAAGCCCCTCCTTCCTGTGTCTGTGCGGAATCAGATAGACATGCTGGTCCCTCGCCAGTGCTTCTCCCTCAGCTACGACCTCAACTGTGACAAGCTGTGTGCTGACTTTCAGGAGGACATTGAGTTCCATTTTTCTCTTGGATGGACCATGCTGGTGAATAGGTTCCTGGGCCCTAAGAACAGCCGTCGGGCCTTGATGGGCTACAATGACCAGGTACCTCGTCCTGTTCCGCTGACGCCTGCCAACCCCAGCATGCCGCCCCTGCCGCAGGGCTCACTCACCCAGGAGGAGCTCATGGTCTCCATGGTCACCGGCCTGGCCTCTCTGACCTCCAGGACCTCCATGGGCATCCTCGTGGTTGGCGGCGTGGTGTGGAAGGCGGTGGGCTGGCGGCTCATCGCCCTCTCCTTCGGGCTCTATGGCCTCCTCTACGTCTACGAGCGCCTGACCTGGACCACCAAGGCCAAGGAGAGGGCCTTCAAGAGGCAGTTTGTGGAGTATGCCAGCGAGAAACTGCAGCTCATCATCAGCTACACGGGCTCCAACTGCAGCCACCAAGTCCAGCAGGAGCTGTCTGGGACGTTTGCTCACCTCTGCCAGCAAGTGGACGTCACCCGCGAGAACCTGGAGCAGGAAATTGCCGCCATGAACAAGAAAATTGAAGTTCTCGATTCCCTTCAGAGCAAAGCAAAACTGCTCAGGAATAAGGCCGGTTGGCTAGACAGTGAGCTCAATATGTTCACGCACCAGTACCTGCAGCCCAGCAGATAG

XM_004863552.1 Coding sequence

Mfn2 mitofusin 2, transcript variant X2

Length: 2526 bp    Location: 1065032..1043233   Strand: -
>XM_004863552.1
ATGTCCCTGCTCTTCTCTCGATGCAACCCCATTGTCACAATCAAGAAGGATAAGAGACACATGGCTGAAGTGAATGCATCCCCTCTGAAGCACTTCGTTACTGCCAAGAAGAAGATCAATGGCATCTTTGAGCAGCTGGGGGCCTACATCCAGGAGAGCGCCACTTTCCTTGAAGACACCTACAGGAATGCTGAGCTGGACCCTGTCACGACGGAAGAGCAGGTTCTGGATGTCAAAGGCTACCTGTCCAAAGTGAGGGGCATCAGCGAGGTGCTGGCCCGGCGGCACATGAAGGTGGCCTTTTTCGGCCGGACAAGCAATGGGAAGAGCACTGTGATCAATGCCATGCTGTGGGACAAGGTTCTGCCCTCCGGGATTGGCCACACCACCAATTGCTTCCTGCGGGTGGAGGGCACTGACGGTCACGAGGCCTTCCTGCTCACCGAGGGCTCGGAGGAGAAGAGGAGCGTCAAGACTGTGAATCAGCTGGCCCATGCCCTGCACCAGGACGAGCAGCTACACGCCGGCAGCCTGGTGAGCGTGATGTGGCCCAACTCCAAGTGCCCGCTGCTGAAGGACGACCTGGTGCTGATGGACAGCCCTGGGATTGACGTCACCACCGAGCTGGACAGCTGGATTGACAAGTTCTGCCTGGACGCTGATGTGTTTGTGCTGGTGGCCAACTCAGAGTCCACCCTGATGCAGACGGAGAAGCAATTCTTCCACAAGGTGAGCGAGCGGCTCTCCCGCCCAAACATCTTTATCCTGAACAACCGGTGGGATGCGTCCGCCTCGGAGCCTGAGTACATGGAGGAGGTGCGGCGGCAGCACATGGAGCGTTGCACCAGCTTCCTGGTTGATGAGCTGGACGTGGTGGATCGAGCCCAGGCCGGGGACCGAATCTTCTTTGTGTCTGCCAAGGAGGTGCTCAATGCCAGGATCCAGAAAGCCCAGGGCATGCCGGAAGGAGGTGGCGCTCTTGCAGAAGGCTTTCAAGTGAGGATGTTTGAGTTTCAGAATTTCGAGAGGAGATTTGAGGAGTGCATCTCCCAGTCCGCAGTGAAAACCAAATTCGAGCAGCACACAGTCCGGGCCAAGCAGATCGTGGAGGCCGTTCGCTTCATCATGGACTCCCTGCACATCTCGGCCCAGGAGCAGCGGGTCTACTGCCTGGAGATGCGCGAAGAGCGGCAGGACCGGCTGCGGTTTATTGACAAACAGCTGGAGCTCTTGGCTCAGGACTACAAACTGCGGATTAAGCAGATCACGGAGGAAGTAGAAAGGCAGGTGTCGACTGCGATGGCTGAGGAGATCAGGCGCCTCTCTGTGCTGGTCGACGAGTACCAGTTGGATTTCCACCCTTCTCCGGTCGTCCTCAAGGTCTACAAGAATGAACTGCACCGCCACATAGAGGAAGGGCTGGGCAGAAACATGTCTGACCGCTGCTCCACGGCCATTGCCAACTCCCTGCAGACCATGCAGCAGGACATGATCGATGGCTTGAAGCCCCTCCTTCCTGTGTCTGTGCGGAATCAGATAGACATGCTGGTCCCTCGCCAGTGCTTCTCCCTCAGCTACGACCTCAACTGTGACAAGCTGTGTGCTGACTTTCAGGAGGACATTGAGTTCCATTTTTCTCTTGGATGGACCATGCTGGTGAATAGGTTCCTGGGCCCTAAGAACAGCCGTCGGGCCTTGATGGGCTACAATGACCAGGTACCTCGTCCTGTTCCGCTGACGCCTGCCAACCCCAGCATGCCGCCCCTGCCGCAGGGCTCACTCACCCAGGAGGAGCTCATGGTCTCCATGGTCACCGGCCTGGCCTCTCTGACCTCCAGGACCTCCATGGGCATCCTCGTGGTTGGCGGCGTGGTGTGGAAGGCGGTGGGCTGGCGGCTCATCGCCCTCTCCTTCGGGCTCTATGGCCTCCTCTACGTCTACGAGCGCCTGACCTGGACCACCAAGGCCAAGGAGAGGGCCTTCAAGAGGCAGTTTGTGGAGTATGCCAGCGAGAAACTGCAGCTCATCATCAGCTACACGGGCTCCAACTGCAGCCACCAAGTCCAGCAGGAGCTGTCTGGGACGTTTGCTCACCTCTGCCAGCAAGTGGACGTCACCCGCGAGAACCTGGAGCAGGAAATTGCCGCCATGAACAAGAAAATTGAAGTTCTCGATTCCCTTCAGAGCAAAGCAAAACTGCTCAGGTGGGAGTGGGACTCCATGATGGTGCTGTGTGGAAGTCCTCATCCTGCTTGGCCCATGATAGATAACATCAGCACCCAGGGAGCTGGACTTCCTGCCTCCACCCCTGACGTCAGAGGCCCGCAGGGTGGCAGAGCCCAGGAGGCCAGGCGGAAGGGTTTCACTCCCGTCCCTCATCAGACCCACAGACTTTCCCCTTCAGGTCAGAGCCATGCGCTGCTCCCAGGCCACCGCTGGGATGGCCGTTTCCTATCGGCCCACTGCTCCCCACTGGGACTTCCCAGGACAGGGCCGGGTGCTGGTCAGCCACGGGGACAGGGCTGA

XM_004863551.1 Coding sequence

Mfn2 mitofusin 2, transcript variant X1

Length: 2526 bp    Location: 1065031..1043236   Strand: -
>XM_004863551.1
ATGTCCCTGCTCTTCTCTCGATGCAACCCCATTGTCACAATCAAGAAGGATAAGAGACACATGGCTGAAGTGAATGCATCCCCTCTGAAGCACTTCGTTACTGCCAAGAAGAAGATCAATGGCATCTTTGAGCAGCTGGGGGCCTACATCCAGGAGAGCGCCACTTTCCTTGAAGACACCTACAGGAATGCTGAGCTGGACCCTGTCACGACGGAAGAGCAGGTTCTGGATGTCAAAGGCTACCTGTCCAAAGTGAGGGGCATCAGCGAGGTGCTGGCCCGGCGGCACATGAAGGTGGCCTTTTTCGGCCGGACAAGCAATGGGAAGAGCACTGTGATCAATGCCATGCTGTGGGACAAGGTTCTGCCCTCCGGGATTGGCCACACCACCAATTGCTTCCTGCGGGTGGAGGGCACTGACGGTCACGAGGCCTTCCTGCTCACCGAGGGCTCGGAGGAGAAGAGGAGCGTCAAGACTGTGAATCAGCTGGCCCATGCCCTGCACCAGGACGAGCAGCTACACGCCGGCAGCCTGGTGAGCGTGATGTGGCCCAACTCCAAGTGCCCGCTGCTGAAGGACGACCTGGTGCTGATGGACAGCCCTGGGATTGACGTCACCACCGAGCTGGACAGCTGGATTGACAAGTTCTGCCTGGACGCTGATGTGTTTGTGCTGGTGGCCAACTCAGAGTCCACCCTGATGCAGACGGAGAAGCAATTCTTCCACAAGGTGAGCGAGCGGCTCTCCCGCCCAAACATCTTTATCCTGAACAACCGGTGGGATGCGTCCGCCTCGGAGCCTGAGTACATGGAGGAGGTGCGGCGGCAGCACATGGAGCGTTGCACCAGCTTCCTGGTTGATGAGCTGGACGTGGTGGATCGAGCCCAGGCCGGGGACCGAATCTTCTTTGTGTCTGCCAAGGAGGTGCTCAATGCCAGGATCCAGAAAGCCCAGGGCATGCCGGAAGGAGGTGGCGCTCTTGCAGAAGGCTTTCAAGTGAGGATGTTTGAGTTTCAGAATTTCGAGAGGAGATTTGAGGAGTGCATCTCCCAGTCCGCAGTGAAAACCAAATTCGAGCAGCACACAGTCCGGGCCAAGCAGATCGTGGAGGCCGTTCGCTTCATCATGGACTCCCTGCACATCTCGGCCCAGGAGCAGCGGGTCTACTGCCTGGAGATGCGCGAAGAGCGGCAGGACCGGCTGCGGTTTATTGACAAACAGCTGGAGCTCTTGGCTCAGGACTACAAACTGCGGATTAAGCAGATCACGGAGGAAGTAGAAAGGCAGGTGTCGACTGCGATGGCTGAGGAGATCAGGCGCCTCTCTGTGCTGGTCGACGAGTACCAGTTGGATTTCCACCCTTCTCCGGTCGTCCTCAAGGTCTACAAGAATGAACTGCACCGCCACATAGAGGAAGGGCTGGGCAGAAACATGTCTGACCGCTGCTCCACGGCCATTGCCAACTCCCTGCAGACCATGCAGCAGGACATGATCGATGGCTTGAAGCCCCTCCTTCCTGTGTCTGTGCGGAATCAGATAGACATGCTGGTCCCTCGCCAGTGCTTCTCCCTCAGCTACGACCTCAACTGTGACAAGCTGTGTGCTGACTTTCAGGAGGACATTGAGTTCCATTTTTCTCTTGGATGGACCATGCTGGTGAATAGGTTCCTGGGCCCTAAGAACAGCCGTCGGGCCTTGATGGGCTACAATGACCAGGTACCTCGTCCTGTTCCGCTGACGCCTGCCAACCCCAGCATGCCGCCCCTGCCGCAGGGCTCACTCACCCAGGAGGAGCTCATGGTCTCCATGGTCACCGGCCTGGCCTCTCTGACCTCCAGGACCTCCATGGGCATCCTCGTGGTTGGCGGCGTGGTGTGGAAGGCGGTGGGCTGGCGGCTCATCGCCCTCTCCTTCGGGCTCTATGGCCTCCTCTACGTCTACGAGCGCCTGACCTGGACCACCAAGGCCAAGGAGAGGGCCTTCAAGAGGCAGTTTGTGGAGTATGCCAGCGAGAAACTGCAGCTCATCATCAGCTACACGGGCTCCAACTGCAGCCACCAAGTCCAGCAGGAGCTGTCTGGGACGTTTGCTCACCTCTGCCAGCAAGTGGACGTCACCCGCGAGAACCTGGAGCAGGAAATTGCCGCCATGAACAAGAAAATTGAAGTTCTCGATTCCCTTCAGAGCAAAGCAAAACTGCTCAGGTGGGAGTGGGACTCCATGATGGTGCTGTGTGGAAGTCCTCATCCTGCTTGGCCCATGATAGATAACATCAGCACCCAGGGAGCTGGACTTCCTGCCTCCACCCCTGACGTCAGAGGCCCGCAGGGTGGCAGAGCCCAGGAGGCCAGGCGGAAGGGTTTCACTCCCGTCCCTCATCAGACCCACAGACTTTCCCCTTCAGGTCAGAGCCATGCGCTGCTCCCAGGCCACCGCTGGGATGGCCGTTTCCTATCGGCCCACTGCTCCCCACTGGGACTTCCCAGGACAGGGCCGGGTGCTGGTCAGCCACGGGGACAGGGCTGA

XM_004863783.1 Coding sequence

Fam213b family with sequence similarity 213, member B, transcript variant X1

Length: 693 bp    Location: 7485431..7483001   Strand: -
>XM_004863783.1
ATGAGCGCCGTGGACCTTGCCCGGGTGGGCGCGTGTGTCGTGAAGCACGCGGTGACCGGGGAGCCGGTGGAGCTGCGCAGCCTGTGGCAGGAGCAGGCGTGCGTGGTGGCCGGGCTGCGGCGCTTCGGCTGTATGGTGTGTCGCTGGATCGCACGCGACCTCAGCGGCCTCCTCGGGCTCCTGGACCAACACGGCGTGCGCCTGGTGGGCGTGGGCCCCGAGGCCCTGGGCCTGCAGGAGTTCCTGGACGGCGGCTACTTCTCTGGCGAGCTCTACCTGGACGAGAGCAAGCAACTCTACAAGGAGCTGGGCTTCAAGCGGTACAACAGCTTGAGCATCCTGCCAGCTGCCCTGGGGAAGCCTGTGCGAGATGTGGCTGCCAAGGTTTGTGGCAGCCAAGGTCCTGTGGGACCAGGGGTGGTGGAAGTCCCTGGGCTTCCCTCTAGGACTGGCTCTGTTCTTCTCCTCCAGGCCAAGGCTGTTGGTATCCAGGGGAACCTGTCTGGGGACTTGCTGCAGAGTGGAGGGCTGCTGGTGGTCAGCAAAGGTGGTGATAAAGTGCTGCTGCACTTCGTCCAGAAGTCCCCGGGTGACTATGTCCCCCGGGAGAGCATCCTGCAGGCCCTGGGCATCTCCTCAGAGGTTGGCACTAGCGAGCCGCCCCAGTGTGACGAGGAGCTGTGTGGGAGGTGA

XM_004863555.1 Coding sequence

Plod1 procollagen-lysine, 2-oxoglutarate 5-dioxygenase 1, transcript variant X2

Length: 2313 bp    Location: 1092344..1070843   Strand: -
>XM_004863555.1
ATGCAAGTCCTGCTGCTCCTGGCCCATCTGGGCTCGCTGCTCCTGGCGGACGCGAAGGGCGACGCCAAGCCCGAGGACCATCCCACGAGAGAAACTGCAGCTGCCCACGATGAAGCCCAGAGAGACAACCTGTTAGTCCTCACTGTGGCCACGAAGGAGACCGAGGGCTTCCGCCGCTTCAAGCGCTCAGCACAGTTCTTCAACTACAAGATCCAGGCGTGGTCACATGGCCTCCAGGAAGCCCATCAGCCTCAGGAACCCCTGGGGCAGTGGGGCCAGACAAGCCAGGCAAGCAAGGCGCTGGGCCTGGGGGAGGACTGGGGTGTGGAGAGGGGAACTTCGGCGGGTGGAGGACAGAAGATCCGGCTGCTGAAGAAGGCGCTGGAGAAGCACGAGGACAAGGAGGACCTGGTCATTCTCTTCACAGACAGCTATGATGTGGTGTTTGCCTCGGGGCCCCGGGAGCTCCTGAAGAAGTTCCGGCAGGCGAGGAGCCGTGTGGTCTTCTCGGCGGAGGAGCTCATCTATCCCGACCGAAGGCTAGAGGCCAAGTACCCCATGGTCTCCGATGGCAAGAGGTTCCTGGGCTCTGGAGGCTTCATCGGCTATGCCCCCAACCTCAGCAAGCTGGTGGCCAAGTGGGAGGGCCAGGATAGCGACAGTGACCAGCTCTTTTACACCAAGATCTTCTTGGACCCGGAGAAGCGGGAGCAGATCAACATCTCCCTGGACCACCGCTGCCGCATCTTCCAGAACCTGGACGGAGCCTTGGATGAAGTTGTGCTCAAGTTTGAAATGGGCCACGTGAGAGCACGGAACCTGGCCTACGACACCCTCCCGGTCCTGATCCACGGCAACGGGCCCACCAAGCTGCAGCTAAACTACCTGGGCAACTACATCCCGCGCTTCTGGACCTTCGAGACGGGCTGCACTGTGTGTGACGAGGGTCTGCGCAGCCTGAAGGGCATCGGGGACGAAGCTCTGCCCATGGTCCTGGTTGGCGTTTTCATTGAGCAGCCCACGCCGTTCCTGTCTCTGTTCTTCCAGCGGCTCCTGCGCCTCCACTACCCCCGGAGTCGGATGCGGCTTTTCATTCACAGCCATGAGCAGCACCACAAGGCACAGGTGGAGCAGTTCCTGGCTGAGCACGGCGGTGAGTACCAGTCGGTGAAGCTGGTGGGCCCTGAGGTGCGGATGTCGAATGCCAACGCCAGGAACATGGGCGCAGACCTGTGCCGGCAGGAGCAGACCTGCACCTACTACTTCAGTGTGGACGCCGATGTGGCCCTGACCGAGCCCGATAGCCTGAGGCTGCTGATCGAGCAGAACAAGAACGTCATTGCCCCGCTCATGATGCGCCCCGGGAGGCTGTGGTCAAATTTTTGGGGGGCGCTGAGTGCGGACGGCTACTACGCTCGCTCGGAGGACTACGTAGACATCGTGCATGGGCGACGTGTCGGCATCTGGAATGTGCCCTACATCTCCAACATCTACTTGATCAAGGGCAGCGCCCTGCGGGCGGAGCTGCAGCACACGGACCTGTTCCACCACAGGAAGCTGGACCCTGACATGGCTTTCTGCGCCAACATCCGGCAGCAGGAGGTGTTCATGTTTTTGACCAACCGGCACAGCTTTGGCCACCTGCTGTCCCTGGACAGCTACCAGACCACCCACCTCCACAACGACCTCTGGGAGGTCTTCAGCAACCCGGAGGACTGGAAGGAGAAATACATCCACGAAAACTACACCAAGGCCCTGGCAGGGAAGCTGGTGGAGACGCCTTGCCCCGATGTCTACTGGTTCCCCATCTTCACGGAGGTGGCCTGTGACGAGCTGGTGCAGGAGATGGAGCACTTTGGCCAGTGGTCCCTTGGCGACAACAAGGACAACCGCATCCAGGGTGGCTATGAAAACGTACCGACCATCGACATCCACATGAACCAGATCAGCTTTGAGCGGGAGTGGCACAAGTTCCTGGTGGAGTACATCGCGCCCTTGACAGAGAAGCTGTACCCCGGCTACTACACCAGGGCCCAGTTCGACCTCGCCTTTGTTGTCCGCTACAAGCCAGACGAGCAGCCCTCGCTGATGCCACACCATGACGCCTCCACCTTCACTGTCAACATTGCCCTCAACCGAGTAGGGGAGGATTACGAGGGCGGGGGCTGCCGGTTCCTGCGCTACAATTGCTCCGTCCAAGCCCCGAGGAAGGGCTGGGCTCTTATGCACCCCGGACGGCTCACACACTACCACGAGGGGCTCCCCACCACCAGGGGCACCCGCTACATCGCTGTCTCCTTTGTGGACCCCTAA

XM_004863556.1 Coding sequence

Plod1 procollagen-lysine, 2-oxoglutarate 5-dioxygenase 1, transcript variant X3

Length: 2292 bp    Location: 1092344..1070843   Strand: -
>XM_004863556.1
ATGCAAGTCCTGCTGCTCCTGGCCCATCTGGGCTCGCTGCTCCTGGCGGACGCGAAGGGCGACGCCAAGCCCGAGGCCTCTGTTTTTTTCTGGGCCTCACTTCCCCTGCTTCCGCTGATGGGCCCCCTCCACCCAGACCATCCCACGAGAGAAACTGCAGCTGCCCACGATGAAGCCCAGAGAGACAACCTGTTAGTCCTCACTGTGGCCACGAAGGAGACCGAGGGCTTCCGCCGCTTCAAGCGCTCAGCACAGTTCTTCAACTACAAGATCCAGGCGCTGGGCCTGGGGGAGGACTGGGGTGTGGAGAGGGGAACTTCGGCGGGTGGAGGACAGAAGATCCGGCTGCTGAAGAAGGCGCTGGAGAAGCACGAGGACAAGGAGGACCTGGTCATTCTCTTCACAGACAGCTATGATGTGGTGTTTGCCTCGGGGCCCCGGGAGCTCCTGAAGAAGTTCCGGCAGGCGAGGAGCCGTGTGGTCTTCTCGGCGGAGGAGCTCATCTATCCCGACCGAAGGCTAGAGGCCAAGTACCCCATGGTCTCCGATGGCAAGAGGTTCCTGGGCTCTGGAGGCTTCATCGGCTATGCCCCCAACCTCAGCAAGCTGGTGGCCAAGTGGGAGGGCCAGGATAGCGACAGTGACCAGCTCTTTTACACCAAGATCTTCTTGGACCCGGAGAAGCGGGAGCAGATCAACATCTCCCTGGACCACCGCTGCCGCATCTTCCAGAACCTGGACGGAGCCTTGGATGAAGTTGTGCTCAAGTTTGAAATGGGCCACGTGAGAGCACGGAACCTGGCCTACGACACCCTCCCGGTCCTGATCCACGGCAACGGGCCCACCAAGCTGCAGCTAAACTACCTGGGCAACTACATCCCGCGCTTCTGGACCTTCGAGACGGGCTGCACTGTGTGTGACGAGGGTCTGCGCAGCCTGAAGGGCATCGGGGACGAAGCTCTGCCCATGGTCCTGGTTGGCGTTTTCATTGAGCAGCCCACGCCGTTCCTGTCTCTGTTCTTCCAGCGGCTCCTGCGCCTCCACTACCCCCGGAGTCGGATGCGGCTTTTCATTCACAGCCATGAGCAGCACCACAAGGCACAGGTGGAGCAGTTCCTGGCTGAGCACGGCGGTGAGTACCAGTCGGTGAAGCTGGTGGGCCCTGAGGTGCGGATGTCGAATGCCAACGCCAGGAACATGGGCGCAGACCTGTGCCGGCAGGAGCAGACCTGCACCTACTACTTCAGTGTGGACGCCGATGTGGCCCTGACCGAGCCCGATAGCCTGAGGCTGCTGATCGAGCAGAACAAGAACGTCATTGCCCCGCTCATGATGCGCCCCGGGAGGCTGTGGTCAAATTTTTGGGGGGCGCTGAGTGCGGACGGCTACTACGCTCGCTCGGAGGACTACGTAGACATCGTGCATGGGCGACGTGTCGGCATCTGGAATGTGCCCTACATCTCCAACATCTACTTGATCAAGGGCAGCGCCCTGCGGGCGGAGCTGCAGCACACGGACCTGTTCCACCACAGGAAGCTGGACCCTGACATGGCTTTCTGCGCCAACATCCGGCAGCAGGAGGTGTTCATGTTTTTGACCAACCGGCACAGCTTTGGCCACCTGCTGTCCCTGGACAGCTACCAGACCACCCACCTCCACAACGACCTCTGGGAGGTCTTCAGCAACCCGGAGGACTGGAAGGAGAAATACATCCACGAAAACTACACCAAGGCCCTGGCAGGGAAGCTGGTGGAGACGCCTTGCCCCGATGTCTACTGGTTCCCCATCTTCACGGAGGTGGCCTGTGACGAGCTGGTGCAGGAGATGGAGCACTTTGGCCAGTGGTCCCTTGGCGACAACAAGGACAACCGCATCCAGGGTGGCTATGAAAACGTACCGACCATCGACATCCACATGAACCAGATCAGCTTTGAGCGGGAGTGGCACAAGTTCCTGGTGGAGTACATCGCGCCCTTGACAGAGAAGCTGTACCCCGGCTACTACACCAGGGCCCAGTTCGACCTCGCCTTTGTTGTCCGCTACAAGCCAGACGAGCAGCCCTCGCTGATGCCACACCATGACGCCTCCACCTTCACTGTCAACATTGCCCTCAACCGAGTAGGGGAGGATTACGAGGGCGGGGGCTGCCGGTTCCTGCGCTACAATTGCTCCGTCCAAGCCCCGAGGAAGGGCTGGGCTCTTATGCACCCCGGACGGCTCACACACTACCACGAGGGGCTCCCCACCACCAGGGGCACCCGCTACATCGCTGTCTCCTTTGTGGACCCCTAA

XM_004863554.1 Coding sequence

Plod1 procollagen-lysine, 2-oxoglutarate 5-dioxygenase 1, transcript variant X1

Length: 2373 bp    Location: 1092344..1070843   Strand: -
>XM_004863554.1
ATGCAAGTCCTGCTGCTCCTGGCCCATCTGGGCTCGCTGCTCCTGGCGGACGCGAAGGGCGACGCCAAGCCCGAGGCCTCTGTTTTTTTCTGGGCCTCACTTCCCCTGCTTCCGCTGATGGGCCCCCTCCACCCAGACCATCCCACGAGAGAAACTGCAGCTGCCCACGATGAAGCCCAGAGAGACAACCTGTTAGTCCTCACTGTGGCCACGAAGGAGACCGAGGGCTTCCGCCGCTTCAAGCGCTCAGCACAGTTCTTCAACTACAAGATCCAGGCGTGGTCACATGGCCTCCAGGAAGCCCATCAGCCTCAGGAACCCCTGGGGCAGTGGGGCCAGACAAGCCAGGCAAGCAAGGCGCTGGGCCTGGGGGAGGACTGGGGTGTGGAGAGGGGAACTTCGGCGGGTGGAGGACAGAAGATCCGGCTGCTGAAGAAGGCGCTGGAGAAGCACGAGGACAAGGAGGACCTGGTCATTCTCTTCACAGACAGCTATGATGTGGTGTTTGCCTCGGGGCCCCGGGAGCTCCTGAAGAAGTTCCGGCAGGCGAGGAGCCGTGTGGTCTTCTCGGCGGAGGAGCTCATCTATCCCGACCGAAGGCTAGAGGCCAAGTACCCCATGGTCTCCGATGGCAAGAGGTTCCTGGGCTCTGGAGGCTTCATCGGCTATGCCCCCAACCTCAGCAAGCTGGTGGCCAAGTGGGAGGGCCAGGATAGCGACAGTGACCAGCTCTTTTACACCAAGATCTTCTTGGACCCGGAGAAGCGGGAGCAGATCAACATCTCCCTGGACCACCGCTGCCGCATCTTCCAGAACCTGGACGGAGCCTTGGATGAAGTTGTGCTCAAGTTTGAAATGGGCCACGTGAGAGCACGGAACCTGGCCTACGACACCCTCCCGGTCCTGATCCACGGCAACGGGCCCACCAAGCTGCAGCTAAACTACCTGGGCAACTACATCCCGCGCTTCTGGACCTTCGAGACGGGCTGCACTGTGTGTGACGAGGGTCTGCGCAGCCTGAAGGGCATCGGGGACGAAGCTCTGCCCATGGTCCTGGTTGGCGTTTTCATTGAGCAGCCCACGCCGTTCCTGTCTCTGTTCTTCCAGCGGCTCCTGCGCCTCCACTACCCCCGGAGTCGGATGCGGCTTTTCATTCACAGCCATGAGCAGCACCACAAGGCACAGGTGGAGCAGTTCCTGGCTGAGCACGGCGGTGAGTACCAGTCGGTGAAGCTGGTGGGCCCTGAGGTGCGGATGTCGAATGCCAACGCCAGGAACATGGGCGCAGACCTGTGCCGGCAGGAGCAGACCTGCACCTACTACTTCAGTGTGGACGCCGATGTGGCCCTGACCGAGCCCGATAGCCTGAGGCTGCTGATCGAGCAGAACAAGAACGTCATTGCCCCGCTCATGATGCGCCCCGGGAGGCTGTGGTCAAATTTTTGGGGGGCGCTGAGTGCGGACGGCTACTACGCTCGCTCGGAGGACTACGTAGACATCGTGCATGGGCGACGTGTCGGCATCTGGAATGTGCCCTACATCTCCAACATCTACTTGATCAAGGGCAGCGCCCTGCGGGCGGAGCTGCAGCACACGGACCTGTTCCACCACAGGAAGCTGGACCCTGACATGGCTTTCTGCGCCAACATCCGGCAGCAGGAGGTGTTCATGTTTTTGACCAACCGGCACAGCTTTGGCCACCTGCTGTCCCTGGACAGCTACCAGACCACCCACCTCCACAACGACCTCTGGGAGGTCTTCAGCAACCCGGAGGACTGGAAGGAGAAATACATCCACGAAAACTACACCAAGGCCCTGGCAGGGAAGCTGGTGGAGACGCCTTGCCCCGATGTCTACTGGTTCCCCATCTTCACGGAGGTGGCCTGTGACGAGCTGGTGCAGGAGATGGAGCACTTTGGCCAGTGGTCCCTTGGCGACAACAAGGACAACCGCATCCAGGGTGGCTATGAAAACGTACCGACCATCGACATCCACATGAACCAGATCAGCTTTGAGCGGGAGTGGCACAAGTTCCTGGTGGAGTACATCGCGCCCTTGACAGAGAAGCTGTACCCCGGCTACTACACCAGGGCCCAGTTCGACCTCGCCTTTGTTGTCCGCTACAAGCCAGACGAGCAGCCCTCGCTGATGCCACACCATGACGCCTCCACCTTCACTGTCAACATTGCCCTCAACCGAGTAGGGGAGGATTACGAGGGCGGGGGCTGCCGGTTCCTGCGCTACAATTGCTCCGTCCAAGCCCCGAGGAAGGGCTGGGCTCTTATGCACCCCGGACGGCTCACACACTACCACGAGGGGCTCCCCACCACCAGGGGCACCCGCTACATCGCTGTCTCCTTTGTGGACCCCTAA

XM_004863558.1 Coding sequence

Kiaa2013 KIAA2013 ortholog, transcript variant X1

Length: 1908 bp    Location: 1096532..1102783   Strand: +
>XM_004863558.1
ATGTGGCTGCAGCAGCGGCTGAAGGGGCTGCCGGGACTGCTGTCGAGCAGCTGGGCCCGCCGCCTCCTTGGTCTGCTCGGACTCGTGCTGCTGCTGCTTTGGTTCGCGGGCTCCGGGGCGCGGCGGGCGGCGGGCGGCCTGCATCTGCCGTCTTGGGCCCGCGGCGAGCCGGGCGCCGCCGAGCCCTCCGCCTGCCTGGAGGCGGCCACTCGCGCCTGGCGCGGCCTGCGGGAGCGGGGCGAGGCCGTTCCGCTGGGCCCCGGAGTGCCCGCCATGGTGGGCAACGGCTTCCTGGCGCTGGACGTGGCCGCCAACCGGCTGTGGGTGACCCCGGGGGAGCGGGAGCCCGCCGTGGCGCCGGACTTCGCTCCCTGGGTGCAGCTGCGCCCGCTGAACGTGCTGGCCGAGGCGGGCGAGGCGGTGCTGCTGCTGCGGGAGGGGCTGCTGCGCCGGGTGCGCTGCCTGCAGCTCGGGGCTCCGGGCCCCGGCCCTGCCGCCGCCGCAGGCGGGGGTCCTGCCTCTGTCTCCGGCCTCTCCGCCGGCGCCGGCCGCGACTGCGTCCTGTTGCAGGAGGACTTCCTGGCGCACCGGGGCCGACCCCACGTCTATCTGCAGCGCATCCAGCTCAACAACCCCACGGAGCGTGTGGCCGCGCTGCAGATTGTGGGCACCACTGCCGGCCCGCTCCCCAAGGCCTTCACTAGTACCCTGGAGAAGGTCGGAGACCATCAGTTCCTCCTCTACTCCGGCCGATCCACCCTCTCTCCCGCGGGCCAAGTGCACCTGGTCGTGATAGCCGGCAAGAAGCTTGTGAACCGGCTCCAGGTGGCTCCCAGGTCGCAGCTGGACGAGACGGTGCTGTGGGTTGTGCACATCTCGGACCCCATGAGTCCCCAGGTGCTCAAAAGCAGAGCAGCCAAGGAGCTCAAGGTCCTCCAGGACTTGGCCCGGAAGGAAATGCTGGAGCTCTTGGAAATGCCAGCGGCTGAGCTGCTTCAGGACCACCAGCACCTCTGGGCTCAGCTCTTCAGCCCAGGGGTGGAAATGAAGAAGATCACAGATGCCCACACACCGTCCGGCCTGACCGTGAACCTGACGCTGTACTACATGCTGTCCTGCTCGCCAGCCCCACTGCTCAGCCCTTCCCTGAGCCGCCGGGAGCGAGAGCAGATGGAGGCAACGCTCAGCTATGAAGACCACTGCTTCAGCGGCCACGCCACCATGCATGCCGAGAACCTGTGGCCTGGCCAGCTGGGCTCAGTGCAGCAGATCCTGCAGCTCTCTGACCTGTGGAGGCTGACACTCCAGAAGCGCGGCTGCAAGGGGCTGGTGAAGGCGGGCGCACCGGGCATCCTGCAGGGCATGGTGCTCAGCTTCGGGGGGCTACAGTTCACCGAGAACCACCTGCAGTTCCAGGCCGACCCAGACGTGCTGCACAACAGCTACGCACTGCATGGCATCCGCTACAAGAACGACCACCTCGACCTGGCCGTGCTGGCGGACGCCGAGGGCAGGCCCTACCTGCACCTGGCCGTGGAGGCCAGAGGGCAGCCCGGCAAAATCTACGCCTGCGAGGCAGGCTGCCTGCAGGAGCCTGTGGAGCTGACTGCGGCACCCGGCGGCCACATCTTCTCCATCATGGTGACGCAGCCCATCACCCCACTGCTCTACATCTCCACTGACCTCACGCACCTGCAGGACCTGCGGCACACACTGCACCTCAAGGCCATCCTGGCCCACGATGAGCACATGGCCCAGCAGGATCCCGGGCTGCCCTTCCTCTTCTGGTTCAGCGTGGCCTCCCTCATCACCCTCTTCCACCTCTTTCTCTTCAAGCTCATCTACAACGAGTACTGTGGGCCTGGAGCCAAGCCCCTCTTCAGGAGCAAGGACGATCCCAGTGTCTGA

XM_004863562.1 Coding sequence

Clcn6 chloride channel, voltage-sensitive 6, transcript variant X1

High confidence: 4 potential gene matches
Length: 2613 bp    Location: 1184621..1151981   Strand: -
>XM_004863562.1
ATGGCGGGTTGCAGGGGGTCTCTGTGCTGCTGCTGCCGGTGGTGTTGCTGCTGCGGTGAGCGTGAGACTCGCACCCCCGAAGAGCTGACTATTCTTGGGGAAACACAGGAAGAGGAGGATGAGATCCTTCCAAGGAAAGACTATGAGAGCCTGGATTATGATCGCTGCATCAATGACCCTTACCTGGAGGTGTTGGAGACCATGGATAACAAGAAAGGGCGAAGGTACGAGGCGGTGAAGTGGATGGTGGTATTTGCCATTGGAGTCTGCACCGGACTGGTGGGACTCTTCGTGGACTTTTTTGTACGCCTCTTCACCCAACTCAAGTTTGGAGTGGTTCAAACATCGGTGGAGGAGTGCAGCCGAAAAGGCTGCCTCGCCCTGTCCCTCCTCGAACTCTTAGGTTTTAACCTGACCTTTGTCTTCTTGGCCAGCCTTCTTGTCCTAATTGAGCCGGTGGCCGCAGGATCTGGGATCCCTGAGATCAAATGCTATCTGAATGGCGTGAAGGTGCCAGGAATTGTCCGGCTCCGGACCCTGCTCTGCAAAGTCTTCGGAGTGCTTTTCGGTGTGGCAGGCGGCCTCTTTGTGGGGAAGGAGGGCCCCATGATCCACAGTGGGGCCGTGGTGGGAGCCGGCCTTCCTCAGTTTCAGAGCATCTCCTTACGGAAGATTCAGTTTAACTTCCCCTACTTCCGGAGTGACAGAGACAAGCGAGACTTCGTATCAGCAGGGGCGGCTGCTGGAGTTGCTGCGGCCTTCGGGGCCCCGATCGGGGGTACCTTGTTCAGCCTAGAGGAGGGCTCATCCTTCTGGAACCAAGGGCTCACATGGAAAGTGCTCTTCTGTTCCATGTCTGCCACCTTCACCCTCAACTTCTTCCGTTCTGGAATTCAGTTTGGAAGCTGGGGTTCCTTCCAGCTCCCTGGATTGCTGAACTTCGGCGAGTTTAAGTGCTCTGACTCTGATAAAAAATGTCATCTCTGGACTGCTATGGATTTGGGTTTCTTCGTCATGATGGGGGTCATTGGGGGCCTCCTAGGAGCCACATTCAACTGTCTGAACAAGAGGCTTGCAAAGTACCGTATGCGAAATGTGCACCCGAAACCTAAGCTTGTCAGAGTCCTGGAGAGCCTGTTGGTGTCACTGGTAACCACCGTGGTGGTATTCGTGGCTTCGATGGTGCTAGGAGAATGCCGGCAGATGTCCTCTTCGAGTCAGATCAGTAATGGCTCGTTCCAGCTCCAGGTTACATCAGAAGATGTGAATTCCAGTATCAAGACCTTCTTCTGTCCCAATGACACCTACAATGACATGGCCACGCTCTTCTTCAATTCCCAAGAGTCTGCCATCCTCCAGCTCTTCCACCAGGATGGGACATTCAGCCCTATCACCTTGGCCTTGTTTTTCATCCTCTATTTTCTGCTTGCCTGTTGGACTTACGGTGTTTCGGTTCCAAGTGGGCTTTTTGTACCTTCGCTGCTGTGTGGAGCTGCTTTTGGACGTTTAGTTGCCAATGTCCTAAAAAGCTACATTGGACTGGGCCACATCTATTCGGGGACCTTTGCGCTGATTGGCGCTGCAGCTTTCCTGGGCGGGGTCGTACGCATGACCATCAGTCTCACCATCATCCTGATCGAGTCCACCAACGAGATCACCTATGGGCTCCCTATCATGGTCACCCTGATGGTGGCCAAATGGACAGGGGACTTTTTCAATAAGGGCATTTATGATATCCATGTGGGCCTGCGAGGCGTGCCGCTTCTGGAATGGGAGACGGAGGTGGAAATGGACAAGCTGAGAGCCAGCGACATCATGGAGCCCAACCTGACCTACGTGTACCCGCACACGCGCATCCAGTCTCTGGTTAGTATCCTGCGCACCACGGTCCATCACGCCTTCCCCGTGGTCACCGAGAACCGGGGCAACGAGAAGGAGTTCATGAAGGGCAACCAGCTCATCAGCAACAACATCAAGTTCAAGAAGTCCAGCATCCTCACTCGGGCCGGCGAGCAGCGCAAGCGGAGCCAGTCCATGAAGTCCTACCCGTCAAGTGAGCTGCGCAACATGTGCGACGAGCACGCGGCCCCCGAGGAGCCGGCCGAGAAGGAGGACCTCCTGCAGCAGATGCTGGAGCGCAGATACACCCCCTACCCCAACCTGTACCCCGACCAGTCCCCGAGCGAAGACTGGACCATGGAGGAGCGCTTCCGCCCTCTCACCTTCCACGGCCTCGTCCTGCGCTCACAGCTTGTCACCCTGCTGGTGCGCGGTGTCTGCTACTCCGAGAGCCAGTCGAGTGCCAGCCAGCCGCGCCTGTCCTACGCCGAGATGGCCGAGGATTACCCCCGATACCCCGACATCCACGACCTGGACCTCACACTGCTCAACCCACGGATGATCGTGGATGTCACCCCGTACATGAACCCTTCGCCTTTCACTGTGTCCCCAAACACCCACGTATCCCAAGTCTTCAACCTGTTCAGAACGATGGGCCTGCGGCACCTGCCCGTGGTGAATGCGGTCGGGGAGATCGTGGGGATCATCACGCGGCACAGCCTGACACACGAGTTCCTGCAGGGGCGGCTACGGCAGCACTACCAGACCCTCTGA

XM_004863563.1 Coding sequence

Clcn6 chloride channel, voltage-sensitive 6, transcript variant X2

Length: 2547 bp    Location: 1184620..1151981   Strand: -
>XM_004863563.1
ATGGCGGGTTGCAGGGGGTCTCTGTGCTGCTGCTGCCGGTGGTGTTGCTGCTGCGGTGAGCGTGAGACTCGCACCCCCGAAGAGCTGACTATTCTTGGGGAAACACAGGAAGAGGAGGATGAGATCCTTCCAAGGAAAGACTATGAGAAAGGGCGAAGGTACGAGGCGGTGAAGTGGATGGTGGTATTTGCCATTGGAGTCTGCACCGGACTGGTGGGACTCTTCGTGGACTTTTTTGTACGCCTCTTCACCCAACTCAAGTTTGGAGTGGTTCAAACATCGGTGGAGGAGTGCAGCCGAAAAGGCTGCCTCGCCCTGTCCCTCCTCGAACTCTTAGGTTTTAACCTGACCTTTGTCTTCTTGGCCAGCCTTCTTGTCCTAATTGAGCCGGTGGCCGCAGGATCTGGGATCCCTGAGATCAAATGCTATCTGAATGGCGTGAAGGTGCCAGGAATTGTCCGGCTCCGGACCCTGCTCTGCAAAGTCTTCGGAGTGCTTTTCGGTGTGGCAGGCGGCCTCTTTGTGGGGAAGGAGGGCCCCATGATCCACAGTGGGGCCGTGGTGGGAGCCGGCCTTCCTCAGTTTCAGAGCATCTCCTTACGGAAGATTCAGTTTAACTTCCCCTACTTCCGGAGTGACAGAGACAAGCGAGACTTCGTATCAGCAGGGGCGGCTGCTGGAGTTGCTGCGGCCTTCGGGGCCCCGATCGGGGGTACCTTGTTCAGCCTAGAGGAGGGCTCATCCTTCTGGAACCAAGGGCTCACATGGAAAGTGCTCTTCTGTTCCATGTCTGCCACCTTCACCCTCAACTTCTTCCGTTCTGGAATTCAGTTTGGAAGCTGGGGTTCCTTCCAGCTCCCTGGATTGCTGAACTTCGGCGAGTTTAAGTGCTCTGACTCTGATAAAAAATGTCATCTCTGGACTGCTATGGATTTGGGTTTCTTCGTCATGATGGGGGTCATTGGGGGCCTCCTAGGAGCCACATTCAACTGTCTGAACAAGAGGCTTGCAAAGTACCGTATGCGAAATGTGCACCCGAAACCTAAGCTTGTCAGAGTCCTGGAGAGCCTGTTGGTGTCACTGGTAACCACCGTGGTGGTATTCGTGGCTTCGATGGTGCTAGGAGAATGCCGGCAGATGTCCTCTTCGAGTCAGATCAGTAATGGCTCGTTCCAGCTCCAGGTTACATCAGAAGATGTGAATTCCAGTATCAAGACCTTCTTCTGTCCCAATGACACCTACAATGACATGGCCACGCTCTTCTTCAATTCCCAAGAGTCTGCCATCCTCCAGCTCTTCCACCAGGATGGGACATTCAGCCCTATCACCTTGGCCTTGTTTTTCATCCTCTATTTTCTGCTTGCCTGTTGGACTTACGGTGTTTCGGTTCCAAGTGGGCTTTTTGTACCTTCGCTGCTGTGTGGAGCTGCTTTTGGACGTTTAGTTGCCAATGTCCTAAAAAGCTACATTGGACTGGGCCACATCTATTCGGGGACCTTTGCGCTGATTGGCGCTGCAGCTTTCCTGGGCGGGGTCGTACGCATGACCATCAGTCTCACCATCATCCTGATCGAGTCCACCAACGAGATCACCTATGGGCTCCCTATCATGGTCACCCTGATGGTGGCCAAATGGACAGGGGACTTTTTCAATAAGGGCATTTATGATATCCATGTGGGCCTGCGAGGCGTGCCGCTTCTGGAATGGGAGACGGAGGTGGAAATGGACAAGCTGAGAGCCAGCGACATCATGGAGCCCAACCTGACCTACGTGTACCCGCACACGCGCATCCAGTCTCTGGTTAGTATCCTGCGCACCACGGTCCATCACGCCTTCCCCGTGGTCACCGAGAACCGGGGCAACGAGAAGGAGTTCATGAAGGGCAACCAGCTCATCAGCAACAACATCAAGTTCAAGAAGTCCAGCATCCTCACTCGGGCCGGCGAGCAGCGCAAGCGGAGCCAGTCCATGAAGTCCTACCCGTCAAGTGAGCTGCGCAACATGTGCGACGAGCACGCGGCCCCCGAGGAGCCGGCCGAGAAGGAGGACCTCCTGCAGCAGATGCTGGAGCGCAGATACACCCCCTACCCCAACCTGTACCCCGACCAGTCCCCGAGCGAAGACTGGACCATGGAGGAGCGCTTCCGCCCTCTCACCTTCCACGGCCTCGTCCTGCGCTCACAGCTTGTCACCCTGCTGGTGCGCGGTGTCTGCTACTCCGAGAGCCAGTCGAGTGCCAGCCAGCCGCGCCTGTCCTACGCCGAGATGGCCGAGGATTACCCCCGATACCCCGACATCCACGACCTGGACCTCACACTGCTCAACCCACGGATGATCGTGGATGTCACCCCGTACATGAACCCTTCGCCTTTCACTGTGTCCCCAAACACCCACGTATCCCAAGTCTTCAACCTGTTCAGAACGATGGGCCTGCGGCACCTGCCCGTGGTGAATGCGGTCGGGGAGATCGTGGGGATCATCACGCGGCACAGCCTGACACACGAGTTCCTGCAGGGGCGGCTACGGCAGCACTACCAGACCCTCTGA

XM_004863565.1 Coding sequence

Mthfr methylenetetrahydrofolate reductase (NAD(P)H), transcript variant X2

Length: 1947 bp    Location: 1184706..1202679   Strand: +
>XM_004863565.1
ATGGTGAACGAGGCTCGAGGGAGTGGCGGTAGCAGCAGTGGCAGCGAGGGCTCTAAGGACAGTTCGAGGTGTTCCACCCCTGGCCTGGACCCCGAGCGTCACGAGAGACTCCGGGAGAAGATGAGGCGGAGGATGGAATCTGGGGACAAATGGTTCTCCCTGGAATTCTTCCCTCCCCGGACTTCGGAGGGAGCCGCCAACCTCATCTCCATGTTTGACCAGATGGCAGCAGGTGGCCCCCTCTTCATAGATGTGACCTGGCACCCAGCGGGGGACCCTGGCTCGGATAAGGAAACGTCCTCCATGATGATCGCCAGCACGGCTGTGAATTACTGTGGCCTGGAAACCATGCTGCACATGACGTGCTGCCAGCAGAGCCCGGAGGCGATCACAGGCCACCTGTACAAAGCCAAGCAGCTGGGCATCAAGAGCATCTTGGCGCTGCGGGGAGACCCCATAGGTGACCAGTGGGAAGCAGAAGAAGGAGGCTTTGACCATGCCACAGACCTAGTGAAGCACATCCGAAGCGAGTTTGGTGACTACTTTGACATCTGTGTGGCAGGTTACCCCAAAGGCCACCCCGAGGCAGGGAGCTTTGAGGAGGACCTGAGGCACCTGAAGGAAAAGGTGTCTGCAGGCGCCGACTTCATCATTAGCCAGCTCTTCTTTGAGGCCAACACCTTCTTCCACTTTGTGAAGGCCTGTGATGACATCGGCATCACCTGCCCCATCCTCCCCGGGATCTTCCCTATCCAGAGCTACTCCTCCCTCCGGCAGCTTGTGAAGCTGTCCAAGCTGGAGGTACCGCAGGAGATCAAGGATGTGATCGAGCCGATCAAAGACAATGACGCTGCCATCTGCAACTATGGCATCGAGCTGGCCGTGAGCCTGAGCCGGGAGCTTCTAGTCAGCGGCTTGGTGCCAGGCCTCCACTTCTACACCCTTAACCGCAAGATGGCCACCACCAGCGTGCTGAAGCGCCTGGGCATGTGGACTGAGGACCCCAGGCGTCCCCTCCCCTGGGCCGTCAGCGCACACCCCAAGCGCCGAGAGGAAGATGTGCGCCCCATCTTCTGGGCTTCCAGACCAAAGAGCTACATCTACCGCACCCAGGACTGGAATGAGTTTCCCAACGGCCGCTGGGGCAACTCCTCCTCGCCAGCCTTTGGGGAGCTGAAGAACTACTACCTCTTCTACCTGAAAAGCAAGTCGCCCCGGCAGGAGCTGCTGAAGATGTGGGGTGAGGAGCTCAGGAGCGAGGAGAGCGTCTTCGAAGTCTTCGCGCACTACATCTCAGGGGAGCCAAACCGGCACGGGTACAAGGTGACCTGCCTGCCCTGGAACGATGAGCCCCTGGCAGCCGAGACCAGCCTGATGAAGAAGCAGCTGCTGCGCGTGAACCGGCTGGGCATCCTTACCGTCAACTCCCAGCCCAACGTCAACGGGAGACCGTCGTCCGACCCCATTGTGGGCTGGGGCCCTAGCGGGGGCTACGTCTTCCAGAAGGCCTACCTGGAGTTCTTCACCTCCCGAGAGACAGTGGAGGCACTCCTGCAGGTGATGAAGAAGTACGAGCTTCGGGTCAATTACCACATCGTGGATGTGAAGGGTGAGAACATCACCAATGCCCCCGAGCTGCAGCCCAATGCCGTCACGTGGGGCATCTTCCCGGGACGAGAGATCATCCAGCCCACGGTGGTGGATCCTGTCAGCTTCATGTTCTGGAAGGATGAGGCCTTCGCCCTGTGGATCGAGCAGTGGGGCAAGCTGTACGATGAGGAGTCCCCATCCCGCATGATCATCCAGTACATCCACGACAACTACTTCCTGGTCAACCTGGTGGACAATGAGTTCCCGCAGGACAGCTGCCTGTGGCAGGTGGTGGAGGACGCATTCGAGCTGCTCAACAGGCCTGCTGGGCTCAAGGGGGAGGCGGAGGCGCAGTGA

XM_004863564.1 Coding sequence

Mthfr methylenetetrahydrofolate reductase (NAD(P)H), transcript variant X1

Length: 2070 bp    Location: 1187118..1202679   Strand: +
>XM_004863564.1
ATGGACCATGGAAAACCCAGGGTCCCTGCAGCTGGACCCCGCTGCCCTTCCCTAGGAATGTGGGCCTCCAAGGCAGGCATCTCGAGGTACTCTGTGCCACCCCCCATCAGCAGGACCTGGACCATGGTGAACGAGGCTCGAGGGAGTGGCGGTAGCAGCAGTGGCAGCGAGGGCTCTAAGGACAGTTCGAGGTGTTCCACCCCTGGCCTGGACCCCGAGCGTCACGAGAGACTCCGGGAGAAGATGAGGCGGAGGATGGAATCTGGGGACAAATGGTTCTCCCTGGAATTCTTCCCTCCCCGGACTTCGGAGGGAGCCGCCAACCTCATCTCCATGTTTGACCAGATGGCAGCAGGTGGCCCCCTCTTCATAGATGTGACCTGGCACCCAGCGGGGGACCCTGGCTCGGATAAGGAAACGTCCTCCATGATGATCGCCAGCACGGCTGTGAATTACTGTGGCCTGGAAACCATGCTGCACATGACGTGCTGCCAGCAGAGCCCGGAGGCGATCACAGGCCACCTGTACAAAGCCAAGCAGCTGGGCATCAAGAGCATCTTGGCGCTGCGGGGAGACCCCATAGGTGACCAGTGGGAAGCAGAAGAAGGAGGCTTTGACCATGCCACAGACCTAGTGAAGCACATCCGAAGCGAGTTTGGTGACTACTTTGACATCTGTGTGGCAGGTTACCCCAAAGGCCACCCCGAGGCAGGGAGCTTTGAGGAGGACCTGAGGCACCTGAAGGAAAAGGTGTCTGCAGGCGCCGACTTCATCATTAGCCAGCTCTTCTTTGAGGCCAACACCTTCTTCCACTTTGTGAAGGCCTGTGATGACATCGGCATCACCTGCCCCATCCTCCCCGGGATCTTCCCTATCCAGAGCTACTCCTCCCTCCGGCAGCTTGTGAAGCTGTCCAAGCTGGAGGTACCGCAGGAGATCAAGGATGTGATCGAGCCGATCAAAGACAATGACGCTGCCATCTGCAACTATGGCATCGAGCTGGCCGTGAGCCTGAGCCGGGAGCTTCTAGTCAGCGGCTTGGTGCCAGGCCTCCACTTCTACACCCTTAACCGCAAGATGGCCACCACCAGCGTGCTGAAGCGCCTGGGCATGTGGACTGAGGACCCCAGGCGTCCCCTCCCCTGGGCCGTCAGCGCACACCCCAAGCGCCGAGAGGAAGATGTGCGCCCCATCTTCTGGGCTTCCAGACCAAAGAGCTACATCTACCGCACCCAGGACTGGAATGAGTTTCCCAACGGCCGCTGGGGCAACTCCTCCTCGCCAGCCTTTGGGGAGCTGAAGAACTACTACCTCTTCTACCTGAAAAGCAAGTCGCCCCGGCAGGAGCTGCTGAAGATGTGGGGTGAGGAGCTCAGGAGCGAGGAGAGCGTCTTCGAAGTCTTCGCGCACTACATCTCAGGGGAGCCAAACCGGCACGGGTACAAGGTGACCTGCCTGCCCTGGAACGATGAGCCCCTGGCAGCCGAGACCAGCCTGATGAAGAAGCAGCTGCTGCGCGTGAACCGGCTGGGCATCCTTACCGTCAACTCCCAGCCCAACGTCAACGGGAGACCGTCGTCCGACCCCATTGTGGGCTGGGGCCCTAGCGGGGGCTACGTCTTCCAGAAGGCCTACCTGGAGTTCTTCACCTCCCGAGAGACAGTGGAGGCACTCCTGCAGGTGATGAAGAAGTACGAGCTTCGGGTCAATTACCACATCGTGGATGTGAAGGGTGAGAACATCACCAATGCCCCCGAGCTGCAGCCCAATGCCGTCACGTGGGGCATCTTCCCGGGACGAGAGATCATCCAGCCCACGGTGGTGGATCCTGTCAGCTTCATGTTCTGGAAGGATGAGGCCTTCGCCCTGTGGATCGAGCAGTGGGGCAAGCTGTACGATGAGGAGTCCCCATCCCGCATGATCATCCAGTACATCCACGACAACTACTTCCTGGTCAACCTGGTGGACAATGAGTTCCCGCAGGACAGCTGCCTGTGGCAGGTGGTGGAGGACGCATTCGAGCTGCTCAACAGGCCTGCTGGGCTCAAGGGGGAGGCGGAGGCGCAGTGA

XM_004863569.1 Coding sequence

Agtrap angiotensin II receptor-associated protein, transcript variant X3

Length: 450 bp    Location: 1239951..1226878   Strand: -
>XM_004863569.1
ATGGAGCTTCCGGCCGTGAACCTCAAGGTGATTCTCCTGGTTCACTGGCTGCTGACAACCTGGGGCAGCATCCTGTTTGAGGGCCCCTACTCCTGGGCCAACTTCACCATCCTGGCCTTGGGCGTGTGGTCTGTGGCTCAGCCGGACTCCGTGGACGCAATAAGCATGTTTCTGGGGGGCCTGCTGGCCACCATCTTGCTGGATATCATCCACATCAGCATCTTCTACCCACGGAACACCATCTCGGACACGAGTCGCTTCAGCGCCGGCATGGCCATCCTCAGCCTACTGCTCAAGCCATTCTCCTGCTACTTGGTGCACCACATGTACTGTGAGCGTGGGGACTTCCTTAGGCCTTCTCAGGAACGCAGTGCCTACCAGACGATTGACTCCACGGAGGAGCCTGCAGACCCCTTCGCAGGCCGGGAGGCCAGGGGTCCAGATGCCTGA

XM_004863567.1 Coding sequence

Agtrap angiotensin II receptor-associated protein, transcript variant X1

Length: 564 bp    Location: 1231834..1226878   Strand: -
>XM_004863567.1
ATGCCAAATAAAGATACATGCAAATACAAAAAAAAAAAGAAGGGGCCCCTGTATTGTCTGGCTCTAAAGCCCTCTGCCCCTGTGGCGATCACACTGACAGACCTGTCCCTTGTGTCACAGGTGATTCTCCTGGTTCACTGGCTGCTGACAACCTGGGGCAGCATCCTGTTTGAGGGCCCCTACTCCTGGGCCAACTTCACCATCCTGGCCTTGGGCGTGTGGTCTGTGGCTCAGCCGGACTCCGTGGACGCAATAAGCATGTTTCTGGGGGGCCTGCTGGCCACCATCTTGCTGGATATCATCCACATCAGCATCTTCTACCCACGGAACACCATCTCGGACACGAGTCGCTTCAGCGCCGGCATGGCCATCCTCAGCCTACTGCTCAAGCCATTCTCCTGCTACTTGGTGCACCACATGTACTGTGAGCGTGGGGGTGAGCTCCACTTCCACTCCGACTTCCTTAGGCCTTCTCAGGAACGCAGTGCCTACCAGACGATTGACTCCACGGAGGAGCCTGCAGACCCCTTCGCAGGCCGGGAGGCCAGGGGTCCAGATGCCTGA

XM_004863570.1 Coding sequence

Draxin dorsal inhibitory axon guidance protein

High confidence: 4 potential gene matches
Length: 996 bp    Location: 1263904..1256169   Strand: -
>XM_004863570.1
ATGGCAGGGCCGGCGCTCCGCAGGGGCCCCGTGCGGCTGCTCGTCCTGCTGGCGCTCCTGGAGCTGAGCCTGGCGGGCTCCCTCGCACCCGGATCTCCTCTCCGGACCTCGCCTGAGAACCACATCGACCCCCGGGCCCCCGCGCCGTGGACGCCCCAGGCCAGCCACCACCGCCGGCGGGGCCTGGGCAAGAAGGAACGGGGCGCCGGCTTGCCTGGGGCTGTGGCCACCGCCTCCAGGCTACCGGGTCAGAGCCCTGCAGGCCTGCGGGACAAGGACCTGCTCCTGGGGCTGGCGCTGCCCCACCCCGAGAAGGAGCACCGGTCTCCGGGGTGGGAGAGGGCGAGGAGCCGCGGGCGCGAGCGCAAGAGGCGCAGGGATAGAGCGAAGCTGCACAGAGGCGGAGCGCTGGTCCGAGGCCCCAGCTCCCTGATGAAGAAGGCAGAGCTCTCTGAGGAGCTGACGCTGGACACCACCATGGAGGAGTCTTCCACCAGCCTGGCCCCCACCATGCTCTTCCTCACCACCCTGGAGGCAGCGCCCGCCACAGAAGACTCCCTGGTCCTTCCTGCCACCTCCCTGCACCCCCAGGTAAGCAGCCCAAAGTCCGATGGGGAGGTGATGCCCACGCTGGACATGGCCTTGTTTGACTGGACTGATTACGAGGACTTAAAACCTGAGGTCTGGCCTGCTGTGAAAAAGAAAGAGAAATGGAGTCCATTCTCCAGCAGTGATAACGAGACATCGCCAGTGGAAGGGGAGCCCTGTGACCATCACCAAGACTGCCTGCCAGGGACCTGCTGTGACCTGCGGGGACACGTCTGCATACCCCACAACCGCGGCCTCAACAACAAATGCTTCGACGACTGCATGTGCATGGAAGGGCTGCGCTGCTACGCCAAATTCCACCGGAACCGCAGGGTCACGCGGAGGAAGGGCCGCTGCGTGGAGCCCGAGACGGCCAACGGCGCCCAGGGCTCCTTCATCAACGTCTAG

XM_004863572.1 Coding sequence

Mad2l2 MAD2 mitotic arrest deficient-like 2 (yeast), transcript variant X2

High confidence: 4 potential gene matches
Length: 636 bp    Location: 1274612..1286712   Strand: +
>XM_004863572.1
ATGACCACGCTTACGCGACAGGACCTCAACTTTGGCCAAGTGGTGGCCGACGTGCTCTGCGAGTTCCTGGAGGTGGCCGTGCACCTGATTCTGTACGTACGTGAGGTCTACCCGGTGGGCATCTTCCAGAAGCGCAAGAAGTACAATGTGCCGGTGCAGATGTCCTGCCATCCGGAGCTGAATCAGTACATCCAGGACACGCTGCACTGCGTCAAGCCACTCCTGGAGAAGAACGATGTGGAGAAAGTGGTGGTGGTGATTTTAGATAAAGAGCATCGACCTGTGGAGAAGTTTGTCTTTGAGATCACTCAGCCTCCCTTGCTGTCCATCAGTTCTGACTCCTTGCTCTCCCATGTGGAGCAGCTGCTCCGAGCCTTCATCCTGAAGATCAGCGTGTGTGATGCTGTCCTGGACCACAATCCCCCAGGCTGTACCTTCACCGTCCTGGTACACACGAGAGAAGCTGCCACTAGAAACATGGAGAAGATCCAGGTCATCAAGGACTTCCCCTGGATCCTGGCAGATGAGCAGGACGTCCACATGCACGATCCCCGGCTGATACCCCTAAAAACCATGACATCAGACATTTTAAAGATGCAGCTCTACGTGGAAGAGCGAGCTCATAAAAGCAGCTGA

XM_004863571.1 Coding sequence

Mad2l2 MAD2 mitotic arrest deficient-like 2 (yeast), transcript variant X1

Length: 636 bp    Location: 1282180..1286712   Strand: +
>XM_004863571.1
ATGACCACGCTTACGCGACAGGACCTCAACTTTGGCCAAGTGGTGGCCGACGTGCTCTGCGAGTTCCTGGAGGTGGCCGTGCACCTGATTCTGTACGTACGTGAGGTCTACCCGGTGGGCATCTTCCAGAAGCGCAAGAAGTACAATGTGCCGGTGCAGATGTCCTGCCATCCGGAGCTGAATCAGTACATCCAGGACACGCTGCACTGCGTCAAGCCACTCCTGGAGAAGAACGATGTGGAGAAAGTGGTGGTGGTGATTTTAGATAAAGAGCATCGACCTGTGGAGAAGTTTGTCTTTGAGATCACTCAGCCTCCCTTGCTGTCCATCAGTTCTGACTCCTTGCTCTCCCATGTGGAGCAGCTGCTCCGAGCCTTCATCCTGAAGATCAGCGTGTGTGATGCTGTCCTGGACCACAATCCCCCAGGCTGTACCTTCACCGTCCTGGTACACACGAGAGAAGCTGCCACTAGAAACATGGAGAAGATCCAGGTCATCAAGGACTTCCCCTGGATCCTGGCAGATGAGCAGGACGTCCACATGCACGATCCCCGGCTGATACCCCTAAAAACCATGACATCAGACATTTTAAAGATGCAGCTCTACGTGGAAGAGCGAGCTCATAAAAGCAGCTGA

XM_004863579.1 Coding sequence

Fbxo6 F-box protein 6, transcript variant X2

Length: 852 bp    Location: 1292559..1286820   Strand: -
>XM_004863579.1
ATGGACCCCATCGGCATCAACGAGCTGCCCGAGAACATCCTGCTGGAGCTCTTCATGCACGTGCCTGCCCGCCAGCTGCTGCTGCGCTGTCGTCTGGTCTGCAGCCTCTGGCGGGACCTCATCGACCTCATGACCCTCTGGAAGCGCAGGTGCCTCCTCGAGGGCTTCATCACCGAGGACTGGGACCAGCCTGTGGCCGACTGGAAGGTCTTCTACTTCCTGTGCAGCCTCCGAAGGAACCTCCTGCACAACCCCTGTGCTGAAGAGAACATGGAATCCTGGGAACTTGACGCCAACCAGGGGAACCAGTGGAAGGTGGAGAGGCTCCCTGGGGACCATGGCACAGACTTTCCTGACCCCAAAGTCAAGAAGTACTTTGTCACCTCCTATGGGCTGTGCCTCAAGTCCCAGATGGTGGACCTCAAGGCTGAGGGCTACTGGGAGGAGCTGCTGGACACGTTTCGGCCCGACATCGAGGTGAAGGACTGGTTCGCCGCCAGAAGAGACTGCGGCTGCACCTACCAGATACGAGTCCAGCTGGTTTCAGCCGACTACATCACCCTGGCCTCCTTCGAGCCCCCGCCTGTGACCATCCAGCAATGGAACGATGCCTCGTGGACAGAGGTCTCCCACACCTTCTCAGACTACCCTCCAGGCGTCCGCCACATCCTCTTCCAGCACGGGGGCCACGACACCCAGTTCTGGGCAGGCTGGTATGGGCCCAGGGTCACCAACAGTAGCATCATTGTTAGCAACAAGATGGCCAGGAAGCCAGCCCCATCTGCCGCGGTGTCTGACAATGTAGGGGTGGAGGAAGCTGCCCAGGTGCCTTCTCACCTGTCTGCCCGATGA

XM_004863580.1 Coding sequence

Fbxo6 F-box protein 6, transcript variant X3

High confidence: 4 potential gene matches
Length: 852 bp    Location: 1290869..1286820   Strand: -
>XM_004863580.1
ATGGACCCCATCGGCATCAACGAGCTGCCCGAGAACATCCTGCTGGAGCTCTTCATGCACGTGCCTGCCCGCCAGCTGCTGCTGCGCTGTCGTCTGGTCTGCAGCCTCTGGCGGGACCTCATCGACCTCATGACCCTCTGGAAGCGCAGGTGCCTCCTCGAGGGCTTCATCACCGAGGACTGGGACCAGCCTGTGGCCGACTGGAAGGTCTTCTACTTCCTGTGCAGCCTCCGAAGGAACCTCCTGCACAACCCCTGTGCTGAAGAGAACATGGAATCCTGGGAACTTGACGCCAACCAGGGGAACCAGTGGAAGGTGGAGAGGCTCCCTGGGGACCATGGCACAGACTTTCCTGACCCCAAAGTCAAGAAGTACTTTGTCACCTCCTATGGGCTGTGCCTCAAGTCCCAGATGGTGGACCTCAAGGCTGAGGGCTACTGGGAGGAGCTGCTGGACACGTTTCGGCCCGACATCGAGGTGAAGGACTGGTTCGCCGCCAGAAGAGACTGCGGCTGCACCTACCAGATACGAGTCCAGCTGGTTTCAGCCGACTACATCACCCTGGCCTCCTTCGAGCCCCCGCCTGTGACCATCCAGCAATGGAACGATGCCTCGTGGACAGAGGTCTCCCACACCTTCTCAGACTACCCTCCAGGCGTCCGCCACATCCTCTTCCAGCACGGGGGCCACGACACCCAGTTCTGGGCAGGCTGGTATGGGCCCAGGGTCACCAACAGTAGCATCATTGTTAGCAACAAGATGGCCAGGAAGCCAGCCCCATCTGCCGCGGTGTCTGACAATGTAGGGGTGGAGGAAGCTGCCCAGGTGCCTTCTCACCTGTCTGCCCGATGA

XM_004863730.1 Coding sequence

Icmt isoprenylcysteine carboxyl methyltransferase

High confidence: 4 potential gene matches
Length: 855 bp    Location: 5165985..5174755   Strand: +
>XM_004863730.1
ATGGCGGGCTGTGCGGCGCGGGCTCCGCCGGGCTCCGAAGCGCGCCTCAGCCTGGCCACCTTCCTGCTGGGCGCCTCGGTGCTCGCGCTGCCGCTGCTCACGCGCGCCGGCCTGCAGGGCCGAACCGGGCTGGCGCTCTACGTGGCGGGGCTGAACGCGCTGCTGCTCCTGCTCTACCGGCCGCCGCGCTACCAGATAGCCATCCGAGCTTGCTTCCTGGGCTTTGTGTTCGGCTGTGGCATGCTGCTCAGTTTCAGCCAGTCCTCTTGGAATCACTTTGGCTGGTATGTGTGCTCGCTGTCATTGTTCCACTATTCTGAGTACTTGGTGACAGCTGTCAATAATCCCAAAAGCCTGTCCCTGGATTCCTTCCTCCTGAATCACAGTTTGGAGTACACTGTTGCTGCTCTTTCTTCTTGGATAGAGTTCACCCTTGAAAATATCTTCTGGCCAGAGCTGAAGCAGATCACCTGGCTCAGTGCCATGGGGCTGCTCATGGTGGTCTTTGGTGAATGCCTGCGCAAGGCTGCCATGTTCACCGCCGGCTCCAACTTCAACCACGTGGTGCAGAATGAGAAGTCAGACACCCACACGCTGGTGACAAGCGGGGTGTATGCTTGGTTCCGGCACCCTTCCTACGTGGGCTGGTTCTACTGGAGCATTGGAACCCAGGTGATGCTGTGTAACCCCATCTGTGGCGTTGTCTATGCCCTGACTGTGTGGCGCTTCTTCCGAGATCGGACTGAGGAAGAGGAGATCTCGCTGATCCACTTCTTTGGAGAGGACTACTTAGAGTACAAGAGGCGGGTGCCCACAGGCCTGCCCTTCATAAAGGGGGTCAAGGTGGAGCTATGA

XR_206036.1 Non-coding sequence

Fbxo44 PREDICTED: Heterocephalus glaber F-box protein 44 (Fbxo44), transcript variant X3, misc_RNA.

Length: 1424 bp     
>XR_206036.1
ACAAAGGTCAGGAGTCGGGTTTTCTCTAGGGAGGATCCGATTTGAGGGGGAGGGGGGGTCCCCAGCTCACCCTGGTGGCGCTGCGCGGAGGTGGTGGCGAGGGGCGCAGGGGTATTTGGGGTCTTTCCTACGCGCTATGTGGGGCGCATGGCCTGGCGGGGCTGGGGGGCGGGAGGCGCCTTCTCCCCCCCCCCCCGTAAATTTCCTATGTGCGGTGGGGGGCGAGGAGAGGGGCGGGGCCTGGCGGACCGGGGCGGGGCCACGTCCACCGGCGACTTCGGGCCGAGCCGGCCCAGCCCCGGGGACCTAGCGCGATCGCGCGGCAGCGGCCGACCGCAGGGGGTAACCAAAGCCACCACCATGGCCGTGGGGAACATCAACGAGCTGCCCGAGAACATCCTGCTGGAGCTCTTCATGCACGTGCCCGCCCGCCAGCTGCTGCTGCACTGTCGCCCGGTCTGCAGCCTCTGGCGGGACCTCATCGACCTCGTGACTCTCTGGAAGCGCAAGTGCCTCCTCGAGGGCTTCATCACCGAGGACTGGGACCAGCCTGTGGCCGACTGGAAGGTCTTCTACTTCCTGTGCAGCCTCCGAAGGAACCTCCTGCACAACCTGTGTGCTGAAGAGGGGTTTGAGTTCTGGAGCTTGGACGTGAACGGCGGTGATGAGTGGAAGGTGGAGGACCTGTCCTGGGAGCAGAGGAAGGAATTCCCCAGTGACCAGGTCAAGAAATACTTCGTGACTTCTTATTACACCTGCCTCAAGTCCCAGGTGGTGGACCTCAAGGCTGAAGGGTACTGGGAGGAGCTCATGGACACCATGCAGCCAGACATTGAGGTCAAGGACTGGTTTGCAGCCAGGCCGGACTGTGGCTCAAAGTACCAACTGTGCGTCCAGCTGCTGTCATCCGCGCACACACCTCTGGGGACCTTCCAGCCAGACCCTGCGATGATCCAGCGGAAGAGTGACGCCAAGTGGAGAGAGGTCTCCCATACGTTCTCCAACTACCCTCCTGGCGTCCGCTACATCTGGTTCCAGCACGGCGGCGTGGACACTCACTACTGGGTCGGCTGGTACGGCCCAAGGGTCACTAACAGCAGCATCACCATTGGGCCCACACAGCCCTGATGCCTCCCTGAATCCCCAGCCACAGAACCCTAATGGGTAAACTGCTCTCGGAGCGGGGCTGGGCCTGGGAAGGGAAGGAGGTGTGCAAGCCAGGTGTCCCCAGACCTGGACCCCAGCTGCTCCTTCCTCAGTGGCCAGCAGCAGGACAGCTCTTCACTGACACAGACCTGAAAGATTACAGGAGCCCTCTAGAGATGGAGCATCCAAGGAAGGACTGAAACCTACTGCATGCACTCAAATAAAGGTGTTCCCAGCCCTGCTGTCCCTGTGCCACAGGCAGGGGGCAGGCCTGTGGC

XM_004863576.1 Coding sequence

Fbxo44 F-box protein 44, transcript variant X1

Length: 981 bp    Location: 1300125..1293272   Strand: -
>XM_004863576.1
ATGGCCTGGCGGGGCTGGGGGGCGGGAGGCGCCTTCTCCCCCCCCCCCCGTAAATTTCCTATGTGCGGTGGGGGGCGAGGAGAGGGGCGGGGCCTGGCGGACCGGGGCGGGGCCACGTCCACCGGCGACTTCGGGCCGAGCCGGCCCAGCCCCGGGGACCTAGCGCGATCGCGCGGCAGCGGCCGACCGCAGGGGGTAACCAAAGCCACCACCATGGCCGTGGGGAACATCAACGAGCTGCCCGAGAACATCCTGCTGGAGCTCTTCATGCACGTGCCCGCCCGCCAGCTGCTGCTGCACTGTCGCCCGGTCTGCAGCCTCTGGCGGGACCTCATCGACCTCGTGACTCTCTGGAAGCGCAAGTGCCTCCTCGAGGGCTTCATCACCGAGGACTGGGACCAGCCTGTGGCCGACTGGAAGGTCTTCTACTTCCTGTGCAGCCTCCGAAGGAACCTCCTGCACAACCTGTGTGCTGAAGAGGGGTTTGAGTTCTGGAGCTTGGACGTGAACGGCGGTGATGAGTGGAAGGTGGAGGACCTGTCCTGGGAGCAGAGGAAGGAATTCCCCAGTGACCAGGTCAAGAAATACTTCGTGACTTCTTATTACACCTGCCTCAAGTCCCAGGTGGTGGACCTCAAGGCTGAAGGGTACTGGGAGGAGCTCATGGACACCATGCAGCCAGACATTGAGGTCAAGGACTGGTTTGCAGCCAGGCCGGACTGTGGCTCAAAGTACCAACTGTGCGTCCAGCTGCTGTCATCCGCGCACACACCTCTGGGGACCTTCCAGCCAGACCCTGCGATGATCCAGCGGAAGAGTGACGCCAAGTGGAGAGAGGTCTCCCATACGTTCTCCAACTACCCTCCTGGCGTCCGCTACATCTGGTTCCAGCACGGCGGCGTGGACACTCACTACTGGGTCGGCTGGTACGGCCCAAGGGTCACTAACAGCAGCATCACCATTGGGCCCACACAGCCCTGA

XM_004863577.1 Coding sequence

Fbxo44 F-box protein 44, transcript variant X2

High confidence: 4 potential gene matches
Length: 768 bp    Location: 1299825..1293272   Strand: -
>XM_004863577.1
ATGGCCGTGGGGAACATCAACGAGCTGCCCGAGAACATCCTGCTGGAGCTCTTCATGCACGTGCCCGCCCGCCAGCTGCTGCTGCACTGTCGCCCGGTCTGCAGCCTCTGGCGGGACCTCATCGACCTCGTGACTCTCTGGAAGCGCAAGTGCCTCCTCGAGGGCTTCATCACCGAGGACTGGGACCAGCCTGTGGCCGACTGGAAGGTCTTCTACTTCCTGTGCAGCCTCCGAAGGAACCTCCTGCACAACCTGTGTGCTGAAGAGGGGTTTGAGTTCTGGAGCTTGGACGTGAACGGCGGTGATGAGTGGAAGGTGGAGGACCTGTCCTGGGAGCAGAGGAAGGAATTCCCCAGTGACCAGGTCAAGAAATACTTCGTGACTTCTTATTACACCTGCCTCAAGTCCCAGGTGGTGGACCTCAAGGCTGAAGGGTACTGGGAGGAGCTCATGGACACCATGCAGCCAGACATTGAGGTCAAGGACTGGTTTGCAGCCAGGCCGGACTGTGGCTCAAAGTACCAACTGTGCGTCCAGCTGCTGTCATCCGCGCACACACCTCTGGGGACCTTCCAGCCAGACCCTGCGATGATCCAGCGGAAGAGTGACGCCAAGTGGAGAGAGGTCTCCCATACGTTCTCCAACTACCCTCCTGGCGTCCGCTACATCTGGTTCCAGCACGGCGGCGTGGACACTCACTACTGGGTCGGCTGGTACGGCCCAAGGGTCACTAACAGCAGCATCACCATTGGGCCCACACAGCCCTGA

XM_004863574.1 Coding sequence

Fbxo2 F-box protein 2, transcript variant X2

High confidence: 4 potential gene matches
Length: 1089 bp    Location: 1302213..1309646   Strand: +
>XM_004863574.1
ATGCTTAGGAGGATTAACGGGGTTCCGAGTGAAGCTCAGGACAATGCTGTTGGTGGCTCTGCTCAGGGATGGGGTTTATGGGCCCTGCAGGGGACACGGAGTGGCCAGGCAGTTCTTGGACTGCGACTGAGGGCACCCATCTGGGGCTCAGCCGCCTCCCTGGGCACCCAGGTGGAGTCACAGAATCTCTCCTGGCAGCTGTGGTTGCCCTGGGGGGCAGGTGGGCGCGGAGGGGGACAGTCTGGGGGAGTCACAGCCTCGCCACTCCCCCATCTGCCCGCAGAGAGCGTGGGCCAGGCTGAGGAGGCGAGCCTGGAGGAGGCCTGCACCGAGGGGGAGCAGCCCGGCGAGGAGCAGGAGGAGCTGGAGGAGGCCGCGTACCTGGCCGAGCTGCCCGAGGCGCTGCTCCTGCGCGTGCTGGCTGAGCTGCCCGCCGCGGAACTGGTGCAGGCCTGCCGCCTGGTGTGCCTGCGCTGGAAGGGGCTGGTGGACGGCGCCCCGCTGTGGTTGCTCAAGTGCCAGCAGGAGGGGCTGGTGCCGGAGGGCAGCGGTGAAGAGGAAGAGCGCGACCACTGGCAGCAGTTCTACTTTCTGAGCAAGCGGAGGCGCAACCTGCTACGCAACCCGTGCGGGGAAGAGGACTTGGAGGGCTGGTGCGACGTGGAGCACGGTGGGGACGGCTGGAGGGTGGAGGAGCTGCCCGGGGACAGTGGGGTGGAATTCCCCCAGGATGACAGCGTCAAGAAGTACTTCGCCTCCTCTTTCGAGTGGTGTCGCAAGGCACAGGTCATTGACCTGCAGGCTGAGGGCTACTGGGAGGAGCTGCTGGACACCACCCAGCCGGCCATCGCGGTGAAGGACTGGTACTCAGGCCGCTCTGACGCCGGCTGTCTGTACGAGCTCACCGTGAAGCTGCTGTCCGAGCACGAGGATGTGCTGGCCGAGTTCAACACCGGGCAGGTGGTAGTGTCCACGGACAGTGAGGAAGGTGGCTGGACAGAGGCATCAGGGAGGCCCCCTGTCCAGGCTCAAGAACACAGATTAGCAAACCAGGTGTGGCGGTGCAGGCTTGGTGCTCTGGGAGGCTGA

XM_004863582.1 Coding sequence

Ubiad1 UbiA prenyltransferase domain containing 1

High confidence: 4 potential gene matches
Length: 1017 bp    Location: 1565256..1555595   Strand: -
>XM_004863582.1
ATGGCTGCTTTGCCGGCGTCGGGGGAGAAGATTAACATCCAGGCAGGAGAGACAGCCAAGGTCGAGGACATGGATTCGCTCGGGAATGACTGGCCCGAGCCGGACAGGCCTCCCCAGCGCTCCCGCGGGCAGAAATGCGCTTCCTACGTGCTGGCCCTGAGGCCCTGGAGCTTCAGTGCCTCGCTCACCCCGGTAGCCCTGGGCAGTGCCTTGGCATACAGATCCCAGGGCGTCCTGGATCCTAGACTCTTGGTGGGTTGTGCCGTCGCTGTCCTGGCTGTGCACGGGGCCGGCAATTTGGTCAACACTTACTATGACTTTTCCAAGGGCATTGACCACAAGAAGAGTGATGACCGGACGCTAGTGGACCGAATCTTGGAGCCTAAAGACGTTGTTCGGCTCGGAGTCTTCCTTTACACCTTGGGCTGCATCTGTGCTGCTTGCCTCTACTACCTGTCCCCTTTGAAACTGGAGCACTTGGCTCTCATCTACTTTGGGGGCTTGTCTGGCTCTTTTCTCTACACAGGAGGAATTGGATTCAAGTATGTGGCCCTGGGAGACCTCATCATCCTCATCACTTTCGGCCCTCTGGCCGTGATGTTCGCCTATGCCGTCCAGGTGGGCTCGCTGGCGATCTTCCCTCTGGTCTACGCCATCCCCCTGGCCCTCAGCACCGAGGCCATTCTCCATTCCAACAACACCAGGGACATGGAGTCCGACCGGGAGGCCGGCATCGTCACACTGGCCATCCTCATCGGCCCTACCTTCTCCTACGTGCTCTACAACACGCTGCTCTTCCTGCCCTACCTGATCTTCAGCATCCTGGCTACGCACTGCAGCATCAGCCTGGCGCTGCCCCTGCTCACCATCCCCATGGCCTTCTCCCTCGAGAGGCAGTTCCGCAGCCAGGCCTTCAACAAGCTGCCCCAGAGGACGGCCAAGCTTAACCTCCTGCTAGGGCTTTTCTACGTCTTTGGCATCATCCTGGCCCCGGCAGGCAGTCTGCCCAAACTCTGA

XM_004863583.1 Coding sequence

Angptl7 angiopoietin-like 7

High confidence: 4 potential gene matches
Length: 1035 bp    Location: 1626474..1621276   Strand: -
>XM_004863583.1
ATGCTGACAAAGACTCTGCTGACTGTGACCTGGCTCGGCATTTTCATCGTGGCCTTTGTCAGCCACCCGGTGTGGCTGCAAAAGCCCCCGAAGCGTAAGACACCTGCACAGGTCAAAGTGGCCGCCTGCTGCGAGGAGGTGAAGGAGCTCAAGGCGCAAGTGGCCAACCTGAGTGGTCTGCTGAGCGAACTGAGCCAGAAGCAGGAGAGGGACTGGGTCAGCGTGGTCATGCAGGTGATGGAGCTGGAGAGCACCAGCAAGCGCCTGGAGTCACGGCTCATGGACGCTGAGACCAAGTACTCGGAGATGAACAATCAGCTGGACATCATGCAGCTGCAGGCGGCGCAGACTGTCACGCAGACCTCGGTAGATGCCATCTATGACTGCTCTTCCCTCTACCAGAAGAACTACCACATCTCTGGGGTGTACAAGCTTCCTCCGGATGAATTCCTGGGCAGCCCTGAGTTGGAGGTGTTCTGCGACATGGAGACTTCGGGTGGAGGCTGGACCATCATCCAGAGACGGAGGAGTGGCCTTGTCTCCTTCTACCAGGACTGGAAGCAGTACAAGCAGGGCTTTGGCAGCATCCGAGGGGACTTCTGGCTGGGTAACGAACACATCCACCGGCTCACCAGACAGCCAACCCGGCTCCGTGTGGAACTCGAGGACTGGGAGGGTGAGGTGCGCTACGCCGAGTACAGCCACTTTGCTGTGGCCAACGAAATGAACAGCTACCGCCTCTTCCTGGGGAACTACAGTGGCGACGCGGGGAACAATGCCCTCCTCTACCACAACAACACAGCCTTCAGCACCAAGGACAAGGACAATGACAACTGCCTGGATAAGTGTGCGCAGCTCCGCAAAGGTGGATACTGGTACAACTGCTGCACGGACTCCAACCTCAATGGGGTCTACTACCGCCAGGGTGATCACAAGCAGCACCTGGATGGCATCACCTGGTACGGCTGGCACGGCGCCAGCTACTCCCTCAAACGCGTGGAGATGAAAATCCGCCCTGAAGGCTTCAGGCCCTGA

XM_004863585.1 Coding sequence

Exosc10 exosome component 10, transcript variant X1

High confidence: 4 potential gene matches
Length: 2649 bp    Location: 1699742..1723033   Strand: +
>XM_004863585.1
ATGGCGCTCTCCAGTCCCCGGGAGTCCAAGGCCCAGGCGGCGCCCAGCGCTACCAAACCCGACGGCGAGATGGTGCTGCCGGGCTTCCCGGACGCGGACAGCTTCGTGAAGTTTGCTCTTGGGTCGGTCGTGGCAGTCACCAAGGCATCTGGGGGCCTGCCACAGTTTGGTGACGAGTATGACTTTTACCGAAGTTTTCCTGGCTTTCAGGCATTTTGTGAAACACAGGGAGACAGGTTGCTGCAGTGCATGAGCAGAGTAATGCAGTATCATGGGTGTCGCAGCAACATTAAGGACCGAAGTAAAGTGACTGAGTTGGAGGATAAGTTTGATTTACTAGTTGATACCAATGATGTGATTCTGGAGAGAGTGGGTATTTTACTGGATGAAGCATCAGGTGTGAATAAGCATCAGCAGCCTGTCCTCCCTGCAGGCCTTCAGGTCCCCAAAACAATAGTGTCCAGTTGGAACCGGAAGGCAGGAGAATATGGCAAAAAAGCAAAATCTGAAACTTTCCGGCTGCTTCATGCAAAAAATATCATCCGACCTCAGCTCAAGTTCCGAGAGAAGATGGACAATTCCAACACCCCATTTCTTCCTAAAATCTTCGTCAAGCCCAATGCCCAGAAACCCCTCCCTCAGGCTCTCTCTAAAGAAAGGCGAGAATGCCCACAGGACCGGCCTGAGGACTTGGATGTGCCCCCTGCCCTAGCAGATTTCATCCATCAGCAACGAACTCAGCAGATTGAACAGGACATGTTTGCACATCCTTATCAGTATGAACTAGATCACTTTACTCCACCAGCTTCAGTGCTGCAAAAGCCACAACCCCAGTTACACAGACCTGTGGAAGAAACTCCCTGCCACTTTGTGTCCTCCCTGGATGAACTTGTGGAACTCAATGAGAAGCTCTTAAATTGTGAAGAATTTGCTGTAGACTTGGAGCACCACTCTTACAGAAGCTTCTTGGGACTGACCTGCCTGATGCAGATTTCCACTCGAACAGAAGACTTCATCGTGGACACCCTGGAGCTCCGCAGCGACATGTACATTCTCAACGAGAGCCTCACAAATCCCGCCATCGTTAAGGTCTTCCATGGTGCCGATTCTGACATCGAGTGGCTGCAGAAGGACTTTGGGTTGTACGTGGTGAACATGTTTGATACCCATCAGGCTGCGCGCCTCCTCAACCTGGGCAGGCACTCGCTCGACTACCTGCTGAGACTCTACTGTGGCGTGGAGTCCAACAAGCAGTACCAGCTGGCAGACTGGAGGATACGGCCTCTACCAGAGGAAATGCTCAGCTACGCCCGGGACGACACCCATTACCTGCTGTACATCTATGACAAGATGAGGCTGGAGCTGTGGGAGCGAGGCAACGAGCAGCCCACCCAGCTGCAGGCAGTGTGGCAGCGGAGCAGGGACATCTGCCTCAAGAAATTCGTCAAACCTATCTTCACAGATGAGTCCTATCTTGAATTGTACCGGAAGCAAAAGAAGCATCTCAATTCGCAGCAGCTGACAGCCTTCCAGCTGCTTTTTTCCTGGAGGGACAAGACAGCTCGCAGGGAGGATGAGAGCTTTGGATATGTTCTGCCAAACCATATGATGCTCAAGATCGCTGAGGAGCTGCCTAAGGAACCTCAGGGCATCATAGCTTGCTGCAACCCAGTACCGCCTCTTGTACGACAGCAGATCAATGAAATGCACCTTCTAATCCAGCAGGCTCGAGAGATGCCCCTGCTCAAGTCTGAGACTGCAGCCGGAGTGAAGAAGAGCGGACCACTGCCAGGTGTTGAGAGGCTGGAGAACATTCTCTTTGGACCTCACGACTGCTCCCATGCCCCTCCGGATGGCCACCCGCTCACCCCAACTGCTGGGCCTGTGCCAGCTCGGAAGCAGGCGAGCCTCTTCACTGACCCAAAAGAGGAGACCCAGTCCCTTCTCGCCACAGCGGTCATCACCCTATTTAATGAACCCAGTGCTGAGGAAAATGGAAAGACTCCATTAACAGTCGCACAGAAAAAGGCCCAGAACATCATGGAGTCCTTTGAAAACCCATTCCGGATGTTCCTGCCTTCGCTAGAGCACCGGGCCCACATCTCCCAGGCAGCAAAGTTTGATCCATCCTCGAAAATCTATGAAATCAGCAATCGTTGGAAGCTGGCCAGCCAGGTCCTGGTACAGAAAGAAGCTAAAGAAATTGCCAAGAAGAAGGTAGCTGAGCAGACAGCCACCCGGGAACAGGCAAAGGAAGAGTACAGAGCCACACTGGAGCAGGCCATCTCCGTGCGACAGCAGGCTGCGCTAGAAAATGCTGCCAAGAAAAGAGAACGAACAACAAGTGACCCAAGAACCATGGAACAGAAACAGGAGAAGAAACGACTCAAGATTTCCAAGAAGCCAAAGGACCCAGGTCCACCAGAGAAAGATTTCACCCCTTATGACTACAGCCAGTCAAACTTCAAGGCTTTTGCTGGAGACAGCAAACCGAAACCTTCCTCCCACTTTGACCCGAACAAGCAGGCCTCGGCTGGCAAGAATTGTGTTGCAGCCAAAAAACTGAAACAGTCAGTGGGAAACAAAAGCATGTCCTTTCCAACCGGAAAGTCAGACAGAGGCTTCAGGCACAACTGGCCGAAGAGATAG

XM_004863588.1 Coding sequence

Srm spermidine synthase

High confidence: 3 potential gene matches
Length: 909 bp    Location: 1725653..1729374   Strand: +
>XM_004863588.1
ATGGAGCCCGGCCTCGACGGCCCAGCTGCCCCCGGCCCCGCCGCCATCCACGAGGGCTGGTTCCGCGAGACGTGCAGCCTGTGGCCGGGTCAGGCCCTGTCGCTGCAGGTGGAGCAGCTGCTCCACCACCAGCGCTCGCGGTACCAAGACATCCTCGTCTTCCGCAGCAAGACCTACGGCAACGTACTGGTGCTGGATGGCGTCATCCAGTGCACGGAGCGGGACGAGTTCTCCTACCAAGAGATGATCGCCAACCTGCCGCTGTGCAGCCACCCCAACCCCCGCAAGGTGCTGATCATCGGAGGAGGAGATGGAGGCGTCCTGCGCGAGGTGGTGAAGCACCCCTCGGTGGAGTCTGTGGTCCAGTGCGAGATTGACGAGGATGTCATCCAAGTCTCTAAGAAGTTCCTGCCAGGCATGGCCGTTGGCTACTCTAGCCCAAAGCTGACCCTGCACGTGGGTGACGGCTTTGAGTTCATGAAACAGAATCAGGATGCCTTCGACGTCATCATCACCGACTCCTCGGACCCCATGGGCCCTGCTGAGAGCCTCTTCAAGGAATCCTATTACCAGCTCATGAAGACAGCCCTGAAGGAGGACGGCATCCTCTGTTGCCAGGGTGAGTGCCAGTGGCTGCACCTGGACCTCATCAAGGCGATGCGGCAGTTCTGCAGGTCCCTCTTCCCCGTGGTGGGCTACGCGTACTGCACCATCCCCACCTACCCCAGCGGCCAGATCGGCTTCATGCTGTGCAGCAAGAACGCGAGCACCAACTTCCGGGAGCCCGTGCAGCAGCTGACACAGGCACAGGTAGAGCAGAGGCAGCTGAAGTACTACAATGCTGAAGTGCACCGCGCTGCCTTCGTGCTGCCGGAGTTCGCCCGCAAGGCCCTGAACGATGCCAGCTGA

XM_004863594.1 Coding sequence

Tardbp TAR DNA binding protein, transcript variant X4

Length: 909 bp    Location: 1789823..1759497   Strand: -
>XM_004863594.1
ATGTCTGAATATATTCGGGTAACAGAAGATGAGAACGATGAACCCATTGAAATACCAGCAGAAGATGATGGGACAGTACTACTGTCCACAGTTACAGCCCAGTTTCCAGGGGCATGTGGGCTGCGCTACAGGAATCCAGTGTCCCAATGTATGAGAGGCGTCCGTCTGGTTGAAGGAATTCTGCATGCCCCAGATGCTGGCTGGGGAAATCTGGTATATGTTGTCAACTATCCCAAAGATAACAAAAGGAAAATGGATGAGACAGATGCTTCTTCAGCAGTTAAAGTGAAAAGAGCAGTCCAGAAAACATCGGACTTAATAGTGTTGGGTCTTCCGTGGAAAACAACTGAGCAGGATCTAAAAGAATATTTTAGTACCTTTGGAGAAGTTCTTATGGTGCAGGTCAAGAAAGATATTAAAACTGGTCATTCAAAAGGCTTTGGCTTTGTTCGTTTTACGGAATATGAAACCCAGGTGAAAGTAATGTCACAGCGACATATGATAGATGGACGATGGTGTGACTGTAAACTTCCTAATTCTAAGCAAAGTCCGGATGAGCCTTTGAGGAGCAGAAAGGTGTTTGTTGGGCGTTGTACAGAGGACATGACTGCTGATGAGCTTCGGCAGTTCTTCTCTCAGTACGGAGAAGTGGAAGATGTCTTCATTCCCATACCGTTCAGGGCTTTTGCCTTTGTTACCTTTGCAGATGATCAGGTTGCCCAATCTCTTTGTGGAGAGGACTTGATCATTAAAGGAATCAGCGTGCATATATCCAATGCTGAACCTAAGCACAATAGCAATAGACAGTTAGAGAGAAGTGGAAGATTTGGTGGTAATCCGGGATTACTTCTGTCTACATGCTTTCTCATTCAAGAATTCGTCATCACGCTGCGCAGGCTGCGTCTTTGA

XR_206038.1 Non-coding sequence

Tardbp PREDICTED: Heterocephalus glaber TAR DNA binding protein (Tardbp), transcript variant X5, misc_RNA.

Length: 3607 bp     
>XR_206038.1
CTTTTTCCCATCTTTAGCTTTTAAGTCCCACGTTGTGGTCTTCGTGTAGATTTCGAATTCCCTCTGTATGCTCATACTCCCAGAAGGGAGACCCACAGTCTAAGGAGAGGGTCCTCGTTCCTCTGTGCGGCTGCTTCCCCCTGTGGACGGGGAGCCGGTGGTAGCGGACGACGGTAGGCGGGGGGAGGAGGAGGCGACCCTACCGCCATTTTGTGGGAACGAAGCGGTAGCGGGGCTGTTCTCTGGCCTGTCCCTGCTTCATTTTCCCTGTCGCGCTTCCTAGCAGCAGCCTAGCGGAGAAAATAAAAGATGTCTGAATATATTCGGGTAACAGAAGATGAGAACGATGAACCCATTGAAATACCAGCAGAAGATGATGGGACAGTACTACTGTCCACAGTTACAGCCCAGTTTCCAGGGGCATGTGGGCTGCGCTACAGGAATCCAGTGTCCCAATGTATGAGAGGCGTCCGTCTGGTTGAAGGAATTCTGCATGCCCCAGATGCTGGCTGGGGAAATCTGGTATATGTTGTCAACTATCCCAAAGATAACAAAAGGAAAATGGATGAGACAGATGCTTCTTCAGCAGTTAAAGTGAAAAGAGCAGTCCAGAAAACATCGGACTTAATAGTGTTGGGTCTTCCGTGGAAAACAACTGAGCAGGATCTAAAAGAATATTTTAGTACCTTTGGAGAAGTTCTTATGGTGCAGGTCAAGAAAGATATTAAAACTGGTCATTCAAAAGGCTTTGGCTTTGTTCGTTTTACGGAATATGAAACCCAGGTGAAAGTAATGTCACAGCGACATATGATAGATGGACGATGGTGTGACTGTAAACTTCCTAATTCTAAGCAAAGTCCGGATGAGCCTTTGAGGAGCAGAAAGGTGTTTGTTGGGCGTTGTACAGAGGACATGACTGCTGATGAGCTTCGGCAGTTCTTCTCTCAGTACGGAGAAGTGGAAGATGTCTTCATTCCCATACCGTTCAGGGCTTTTGCCTTTGTTACCTTTGCAGATGATCAGGTTGCCCAATCTCTTTGTGGAGAGGACTTGATCATTAAAGGAATCAGCGTGCATATATCCAATGCTGAACCTAAGCACAATAGCAATAGACAGTTAGAGAGAAGTGGAAGATTTGGTGGTAATCCGGGTGGCTTTGGGAATCAGGGTGGGTTTGGAAACAGTAGAGGGGGTGGAGCTGGCTTGGGAAACAATCAGGGCAGTAACATGGGTGGGGGGATGAATTTTGGTGCTTTTAGCATTAATCCAGCAATGATGGCTGCAGCCCAGGCCGCGCTGCAGAGCAGCTGGGGTATGATGGGCATGCTTGCCAGTCAGCAGAACCAGTCTGGCCCATCAGGTAATAACCAAAGCCAGGGCAACATGCAGAGGGAGCCAAATCAGGCTTTTGGCTCTGGAAATAACTCTTACAGTGGTTCTAATTCTGGTGCTGCAATTGGTTGGGGATCAGCATCGAATGCAGGGTCAGGCAGTGGTTTTAATGGAGGCTTTGGCTCAAGCATGGATTCTAAGTCTTCTGGCTGGGGAATGTAGACAGTGGGTTATAGTTAGTTGATACAGAATGGTGGGAATTTTTTCTAAACTCATGGTAAGTATATTGTAAAATACATATGTACTAAAAATTTTCAAAATTGGTTTGTTCGGTGTGGAGTATATTCAGCAGTATTTTTGACATTTTTCTTTAGAAAAAGAAGAGCTAAAGGAATTTTATAAGTTTTGTTACATAAAGGGTTGAAATACTGAGTGGCTGCAAGTGAACTGCTATTTGCCTGATTGGTAAACCAACACACTACAATTGATATCAAAAGGTTTCTCTTGTAATATTTTATCCCTGGACTTAAGTGAATTCTTTGCATGTTCAAAGTGAAAGCCATTGATTAGAACTACATTCTTTTCTCCTTTTTTAATTTGAACTCCACCATATAGATTTTTCCTTAGGAAAATCTCCTTTTGGGAGATCATGGTGTCACTGTGTTTGGTTCTTTTGGTTTTGTTTTTAACACTTGTCTCCCCTCATATACAAAAGTACAATATGAAGCCTTCATTTAATCTCTGCAGTTCATCTCATTTCAAATGTTTTTGGAAGAAGCACTTCATTGAAAGTAGTGCTGTAAATATTCCGCCATAGGATTACTTCTGTCTACATGCTTTCTCATTCAAGAATTCGTCATCACGCTGCGCAGGCTGCGTCTTTGACGGTGGGTGTCCCATTTTTATCCGCTACTCTTTATTTCATGGAGTCGTATCAACGCTATGAACGCAAGGCTGTGATATGGAACCAGAAGGCTGTTTGAACTTTTGAAACCTTGTGTGGGATTGATGGTGGTGCCGAGGCATGAAAGGCTAGTATGAGCGAGAAAAGGAGAGCGCGTGCAGAGACTTGGTGGTGCATAATGGATATTTTTTAACTTGGCAAGATGTGTCTCTCAATCCTGTGGCTTTGGTGAGAGTGTGCAGAGAGCAATGATAGCAAATAATGTACGAATGTTTTTTGCATTCAAGGGACATCCACATCTGTTGGAAGACTTTAAGTGAGTTTTGTTCTTAGATAACCCACGTTAGTTGAATGTGTTAAGTGAAATGATACTTGTACTCCCCTCCCCCTTTGTCAACTGCTGTGAATGCTGTATGGTGTGTGTTCTCCTCTGTTACTGATATGTAAGTGTGGTAATGTGAACTGAAGCTGATGGGTTGAGAACATGGACTGAGCTTGTGATGTGCTTTGCAGGAGTACTTGGGAGCAGAGTTCACCAGTGAGCTCAGGTGTCTCAAAGAAGGGTGGAAGTTCTCATGTCTGTTAGCTACCCATAAGAATGCTGTTTGCTGCAGTTCTGTGTCCTGTGCTTGGATGCTTTTTTATAAGAGTTGTCAATGTTGGAAATTCTTAAATAAAACTGATTTAAATAATATGTGTCTTTGTTTTGCAGCCCTGAATGCAAAGAATTCATAGCAGTTAATTCCCCTTTTTTGACCCTTTTGAGATGGAACTTTCATAAAGTTTCTTGGCAGTAGTTTATTTTGCTTCAAATAAACTTACTTGAAACGTTGTCTCAAGTCAAATGGATTCATCACCTGTCATGCATTGACACCTGATACCCAGACTTAATTGCTATTTGTTCTTGCATTGTCCAAAGTGAAAAGTTTTTTTTTCTTTTCTTTTTTTTAATCTAGTTTTTAATAAGTCTGGGTGACTACACGTAAAAATGCATTTGCACTGTTACTCAGCAGCAGTAACATGGTAACACTTAAAATGGTATTCGGGGACCTCCAAAGACTAAACTGACAAGCCATCAAGGAGCCCAGGGGTAAGTTAACTTGTCAATGGCATGGTTTTAATCCCTTATTTACACTTGTTAAAAGCAGTTAACTGGTCACACAAGGCTTTCAATGTTGAGAAGCCTTTGTTTAACATGTGGTACTACATAGCCACAGCTAGTTATTCTACCCTTAAGAAATCTTAAACTTTAGAAGTATTTAAACTATTTGGCAAAGATTTGTTTTTAAAAGTCTATTTGATCATCTAAATGCATTCATTCTAAAAAAAATTTTTTGAACCACAGTTGAATAAAAAGTTATGTTGCCACCA

XM_004863732.1 Coding sequence

Chd5 chromodomain helicase DNA binding protein 5, transcript variant X1

Length: 6051 bp    Location: 5203256..5251054   Strand: +
>XM_004863732.1
ATGCGGGGCCCGCTGGGCACCGAGGAGGCGCTGCCGCGGCTGTTCGCCGAGGAGATGGAGAACGAGGACGAGATGTCAGAGGAAGAAGATGGGGGCCTGGAAGGCTTCGATGACTTTTTCCCTACGGAGCCCATGAGCCTCCCCAAGAAGAAGAAAGCTAAGAAGCTGAAGGACAGCAAGTCCAAGGGGAAGCGGAAGAAGAAAGAGGGGAGCAATGACGAGCTGTCGGCCAATGACGAGGATCTGGAGGAGAGGTCGGAGAGTGAGGGGAGCGACTACTCCCCCAACAAGAAGAAGAAGAAGAAGCTCAAGGACAAGAAGGAGAAAAAAGCCAAGCGGAGAAAGAAGGACGAAGATGAGGAGGACAATGAAGACGGGTGCTTAAAGGAGCCCAAGTCCTCGGGGCAGCTCATGGCTGAGTGGGGCCTGGACGACGTGGACTACCTGTTCTCAGAGGAGGACTACCACACACTGACCAACTACAAGGCCTTCAGCCAGTTCCTCCGGCCGCTCATTGCCAAGAAGAACCCGAAGATCCCCATGTCCAAAATGATGACCGTGCTGGGGGCCAAGTGGCGGGAGTTCAGCGCCAACAACCCCTTGAAGGGCAGCTCCGCGGTGGCGGCAGCAGCGGCCGTGGCTGCAGCTGTGGAGACGGTCATCATCGCGCCTCCGCTGGCCGTCAGCCCCCAGCCGGTGCCCCAGCCTGTGCCCCTCCGCAAGGCCAAGACCAAAGAGGGCAAGGGGCCCGGAGTGAGGAAGAAGATGAAAGGCCCCAAAGACGGGAAGAAGAAGGGGAAGGGCAAGAAGGTGGCCGGGCTCAAGTTCCGCTTCGGGGGCATCAGCAACAAGAGGAAGAAAGGCTCCTCGAGTGAGGAGGACGAGCGGGAGGAGTCGGACTTGGACAGCGCCAGCATCCACAGCTCCTCAGTGCGCTCCGAGTGCTCTGCAGCCTTGGGCAAAAAGAGCAAGAGGAGGCGCAAGAAGAAGAGAATTGATGATGGTGACGGCTACGAGACTGACCACCAGGATTACTGCGAGGTGTGCCAGCAGGGCGGGGAGATCATCCTGTGTGACACCTGCCCGCGGGCCTACCACCTGGTGTGCCTGGACCCTGAGCTGGAGAAGGCTCCTGAGGGCAAGTGGAGCTGCCCGCACTGTGAGAAGGAAGGCATCCAGTGGGAGCCGAAGGATGACGACGACGAGGAGGAGGAGCCCGGCTGTGAGGAGGAGGAGGACGACCACATGGAGTTCTGCCGCGTGTGCAAGGATGGCGGCGAGCTGCTCTGCTGCGACGCCTGCCCGTCCTCCTACCACCTGCACTGCCTCAACCCGCCGCTGCCTGAGATTCCAAATGGTGAATGGCTCTGCCCGCGCTGTACTTGTCCCCCACTGAAGGGCAAAGTCCAGCGGATTCTACACTGGAGGTGGACCGAGCCCCCGGCACCCTTCATGGTTGGGCTGCCGGGACCGGACGTGGAGCCAGGTGTGCCTCCGCCCAAGCCACTGGAGGGCATCCCGGAGAGGGAGTTCTTTGTCAAGTGGGCTGGGCTGTCCTACTGGCACTGCTCCTGGGTGAAGGAGCTGCAGCTGGAGCTGTACCACACCGTGATGTACCGCAACTACCAAAGAAAGAACGACATGGACGAGCCGCCACCCTTCGACTACGGCTCTGGCGACGAGGATGGCAAGAGTGAGAAGAGGAAGAACAAGGACCCCCTCTATGCCAAGATGGAGGAGCGCTTCTACCGCTACGGCATCAAGCCCGAGTGGATGATGGTCCACCGCATCCTGAACCACAGTTTTTTGTGTCCCAGCTTCGACAAGAAGGGGGACGTGCACTACCTGATCAAATGGAAAGACCTGCCCTACGACCAGTGCACCTGGGAGATCGACGACATCGACATTCCCTACTATGACAACCTGAAGCAGGCCTACTGGGGCCACAGGGAGCTGATGCTGGGGGAGGACACCCGGCTGCCCAAGCGGCTCATCAAGAAGGGCAAGAAGCTGAAGGACGACAAACAAGAGAAGCCGCCGGACACTCCCATCGTGGACCCCACCGTCAAGTTCGACAAGCAGCCCTGGTACATCGACGCCACGGGCGGCACACTGCACCCGTACCAGCTGGAGGGCCTCAACTGGCTGCGCTTCTCCTGGGCGCAGGGCACCGACACCATCCTGGCCGATGAGATGGGCCTGGGCAAGACAGTGCAGACCATCGTGTTCCTCTACTCCCTGTACAAGGAGGGCCACTCCAAGGGGCCCTACCTGGTCAGCGCGCCCCTGTCCACCATCATCAACTGGGAGCGCGAGTTTGAGATGTGGGCGCCCGACTTCTACGTGGTCACCTACACGGGGGACAAGGAGAGCCGCTCCGTGATCCGTGAGAACGAGTTCTCCTTCGAGGACAACGCCATTCGGAGTGGGAAGAAGGTGTTCCGCATGAAGAAAGAAGTGCAGATCAAGTTCCACGTCCTGCTCACCTCGTACGAGCTCATCACCATCGACCAGGCCATCCTGGGCTCCATCGAGTGGGCCTGCCTCGTGGTGGACGAGGCCCACCGGCTTAAGAACAACCAGTCCAAGTTCTTCAGGGTCCTGAACAGCTACAAGATCGACTACAAGCTGCTGCTGACGGGGACCCCCCTTCAGAACAACCTGGAGGAGCTCTTCCACCTACTCAACTTCCTGACACCGGAGCGGTTCAACAACCTGGAGGGCTTCCTGGAGGAGTTTGCGGACATCTCCAAGGAGGACCAGATCAAGAAGCTGCACGACCTGCTGGGGCCACACATGCTGCGGCGGCTCAAGGCGGACGTGTTCAAGAACATGCCGGCCAAGACTGAGCTCATTGTGCGTGTGGAGCTGAGCCAGATGCAGAAGAAGTACTACAAGTTTATCCTCACTCGCAACTTCGAGGCGCTGAACTCCAAGGGGGGTGGGAACCAGGTGTCGCTGCTGAACATCATGATGGACCTGAAGAAGTGCTGCAACCACCCCTACCTCTTCCCCGTGGCCGCTGTGGAGGCCCCTGTCCTGCCCAACGGCTCCTACGATGGCAGCTCCCTGGTCAAGTCCTCAGGGAAACTCATGTTGCTGCAGAAGATGCTGAAGAAACTGCGGGATGAGGGGCACCGCGTGCTCATCTTCTCCCAGATGACCAAGATGCTGGACCTTCTGGAGGACTTCCTGGAGTATGAGGGTTATAAGTATGAGCGGATTGACGGTGGCATCACTGGGGGTCTCCGGCAGGAGGCGATCGACAGATTCAACGCCCCTGGGGCCCAGCAGTTCTGCTTCCTCCTCTCCACCCGTGCGGGTGGCCTGGGCATCAACCTGGCCACAGCAGACACAGTCATCATCTACGACTCGGACTGGAACCCGCACAATGATATCCAGGCCTTCAGCCGTGCCCACCGCATCGGGCAGAACAAGAAGGTGATGATCTACCGCTTCGTGACACGGGCCTCGGTGGAGGAGCGCATCACGCAGGTGGCCAAGCGCAAGATGATGCTGACCCACCTGGTGGTGCGGCCCGGCCTCGGCTCCAAGTCGGGCTCCATGACCAAACAGGAGCTGGACGACATCCTCAAGTTCGGCACCGAGGAGCTGTTCAAGGACGACGTGGAGGGCATGATGTCCCAGGGCCAGAGGCCGGCCACGCCCATCCCCGATGTGCAGTCCTCCAAGGGTGGCACCCTGGCGGCCGGCCTGAAGAAGAAGCACGGTAGCACGCCTCCAGGCGACAACAAGGACGTGGAGGACAGCAGCGTGATCCACTATGATGATGCAGCCATCTCTAAGCTGCTGGACCGGAACCAGGACGCTACGGACGACACGGAGCTACAGAACATGAACGAGTACCTGAGCTCCTTCAAGGTGGCGCAGTACGTGGTTCGCGAGGAGGACGGCGTGGAGGAGGTGGAGCGGGAGGTGATCAAGCAGGAGGAGAACGTGGACCCTGACTACTGGGAGAAGCTGCTGCGCCACCACTACGAGCAGCAGCAGGAGGACCTGGCCCGGAACCTGGGCAAGGGCAAGCGCATCCGGAAGCAGGTCAACTACAACGACGCCTCCCAGGAGGACCAAGAGTGGCAGGATGAGCTCTCGGACAACCAGTCTGAGTATTCCATTGGCTCTGAGGACGAGGACGAGGACTTCGAGGAGCGGCCAGAGGGCCAGAGTGGACGGCGACAGTCCAGGAGGCAGCTCAAGAGTGACAGGGACAAGCCCCTGCCACCTCTCCTTGCTCGAGTCGGTGGCAACATCGAGGTGCTGGGCTTCAATGCGCGGCAGCGGAAGGCCTTCCTGAACGCCATCATGCGCTGGGGCATGCCGCCCCAGGATGCCTTCAACTCCCACTGGCTTGTGCGGGACCTGCGCGGGAAGAGTGAGAAGGAGTTCAGAGCCTATGTGTCCCTCTTCATGCGACACCTGTGCGAACCTGGGGCCGATGGCGCCGAGACCTTCGCGGACGGTGTGCCGAGGGAGGGGCTGTCTCGGCAGCACGTGCTCACGCGCATCGGGGTCATGTCGCTGGTTAGGAAGAAGGTTCAAGAGTTTGAACACGTCAATGGGAAGTACAGCACCCCGGACCTGGTCCCCGAGGGGCCCGAGGGCAAGAAGCCGGGCGAGGTCATCTCAGACCCCAACACACCTGTGCCTGCCAGCCCTGCCCACCTGCCACCTGCCCCACTGGGCCTGTCAGACAAAGTGGATGCCCCACTGGGCTACGGAGATGAGAAGGAGCCAGGGCTGCAGAAGCCAAAGAAACCCCTGGAAATCCAGGTCCTGCCAGCTGCCCTGGACAGAGTGGAGGGGGAGGACAAGCAGGAGAGCTTAGACAGCAAGGACAGAGCCCGAGACGAGCGGCCGGAGGAGATGGAGAAGGCACAGGCCTCCCCGGAGCAGCTACCCAAAGAGGAGGCGCCCCTCGAGAAGGAGAAGGCCCCAGACAAGCTGGACCTCAGGCTCAGCCACAGCAGAGCGGACAGTGGGGACTTCAGGCCAGATGACACCAAGGCGGACGAGAAGGAGGCCATCGAGATGCAGCAGAATGGTGACAGAGAGGAAGACGAGGAGGGCAAGAAGGACGACAAGAATGGGAGATTCAAATTCATGTTCAACATTGCGGACGGTGGCTTCACAGAGCTGCACACGCTATGGCAGAACGAGGAGCGGGCTGCAGTGTCCTCGGGAAAAATCTATGACATCTGGCACCGGCGCCATGACTACTGGCTGCTGGCTGGCATCGTGACGCACGGCTATGCCCGCTGGCAGGACATCCAGAACGACCCCAGGTATCTGATCCTCAATGAGCCCTTCAAGTCTGAGATCCACAAGGGCAACTACCTGGAGATGAAGAACAAGTTCCTGGCCCGCAGGTTCAAGCTGCTGGAGCAGGCCCTGGTCATTGAGGAGCAGCTGCGGAGGGCCGCGTACCTCAACATGACCCAGGACCCCAACCACCCGGCCATGGCCCTCAATGCCCGCCTGGCTGAGGTGGAATGCCTGGCTGAGAGCCACCAGCACCTGTCCAAGGAGTCCCTGGCCGGGAACAAGCCGGCCAACGCCGTGCTGCACAAGGTACTGAACCAGCTGGAGGAGCTGCTGAGCGATATGAAGGCGGACGTGACGCGCTTGCCCTCCATGCTGTCCCGCATCCCCCCGGTGGCTGCCCGCCTGCAGATGTCAGAGCGCAGCATCCTGAGCCGCCTGACCAACCGTGCTGGGGACCCCACCATCCAGCAGACATCTAGCCGACCCCGCAGCGTCCCCCCGTTGCAGTGCTCCCTTCCAGCTGAGCGCGATGCCGGGCCACCTGCTCGACCCCCACGGGAGAGAAAAGCTACGGACTTGTACGAGCCAGTGCCCCCTCGGGACAAAAAGGGAAACCGAGTGATGCTATCACATGGAGGACGAGGCCCAGCCCGGCTGGGCCAGAGCCCGGAGGCACCATCTCGTCGTAATTCAAGTCTTCTTCCACGTGGCACTGCACCCACGGCCACGCGGATGTGCCCCTCCACCCCTCTCAGAGCGACTCCCTAG

XM_004863733.1 Coding sequence

Chd5 chromodomain helicase DNA binding protein 5, transcript variant X2

Length: 6036 bp    Location: 5203256..5251054   Strand: +
>XM_004863733.1
ATGCGGGGCCCGCTGGGCACCGAGGAGGCGCTGCCGCGGCTGTTCGCCGAGGAGATGGAGAACGAGGACGAGATGTCAGAGGAAGAAGATGGGGGCCTGGAAGGCTTCGATGACTTTTTCCCTACGGAGCCCATGAGCCTCCCCAAGAAGAAGAAAGCTAAGAAGCTGAAGGACAGCAAGTCCAAGGGGAAGCGGAAGAAGAAAGAGGGGAGCAATGACGAGCTGTCGGCCAATGACGAGGATCTGGAGGAGAGGTCGGAGAGTGAGGGGAGCGACTACTCCCCCAACAAGAAGAAGAAGAAGAAGCTCAAGGACAAGAAGGAGAAAAAAGCCAAGCGGAGAAAGAAGGACGAAGATGAGGAGGACAATGAAGACGGGTGCTTAAAGGAGCCCAAGTCCTCGGGGCAGCTCATGGCTGAGTGGGGCCTGGACGACGTGGACTACCTGTTCTCAGAGGAGGACTACCACACACTGACCAACTACAAGGCCTTCAGCCAGTTCCTCCGGCCGCTCATTGCCAAGAAGAACCCGAAGATCCCCATGTCCAAAATGATGACCGTGCTGGGGGCCAAGTGGCGGGAGTTCAGCGCCAACAACCCCTTGAAGGGCAGCTCCGCGGTGGCGGCAGCAGCGGCCGTGGCTGCAGCTGTGGAGACGGTCATCATCGCGCCTCCGCTGGCCGTCAGCCCCCAGCCGGTGCCCCAGCCTGTGCCCCTCCGCAAGGCCAAGACCAAAGAGGGCAAGGGGCCCGGAGTGAGGAAGAAGATGAAAGGCCCCAAAGACGGGAAGAAGAAGGGGAAGGGCAAGAAGGTGGCCGGGCTCAAGTTCCGCTTCGGGGGCATCAGCAACAAGAGGAAGAAAGGCTCCTCGAGTGAGGAGGACGAGCGGGAGGAGTCGGACTTGGACAGCGCCAGCATCCACAGCTCCTCAGTGCGCTCCGAGTGCTCTGCAGCCTTGGGCAAAAAGAGCAAGAGGAGGCGCAAGAAGAAGAGAATTGATGATGGTGACGGCTACGAGACTGACCACCAGGATTACTGCGAGGTGTGCCAGCAGGGCGGGGAGATCATCCTGTGTGACACCTGCCCGCGGGCCTACCACCTGGTGTGCCTGGACCCTGAGCTGGAGAAGGCTCCTGAGGGCAAGTGGAGCTGCCCGCACTGTGAGAAGGAAGGCATCCAGTGGGAGCCGAAGGATGACGACGACGAGGAGGAGGAGCCCGGCTGTGAGGAGGAGGAGGACGACCACATGGAGTTCTGCCGCGTGTGCAAGGATGGCGGCGAGCTGCTCTGCTGCGACGCCTGCCCGTCCTCCTACCACCTGCACTGCCTCAACCCGCCGCTGCCTGAGATTCCAAATGGTGAATGGCTCTGCCCGCGCTGTACTTGTCCCCCACTGAAGGGCAAAGTCCAGCGGATTCTACACTGGAGGTGGACCGAGCCCCCGGCACCCTTCATGGTTGGGCTGCCGGGACCGGACGTGGAGCCAGGTGTGCCTCCGCCCAAGCCACTGGAGGGCATCCCGGAGAGGGAGTTCTTTGTCAAGTGGGCTGGGCTGTCCTACTGGCACTGCTCCTGGGTGAAGGAGCTGCAGCTGGAGCTGTACCACACCGTGATGTACCGCAACTACCAAAGAAAGAACGACATGGACGAGCCGCCACCCTTCGACTACGGCTCTGGCGACGAGGATGGCAAGAGTGAGAAGAGGAAGAACAAGGACCCCCTCTATGCCAAGATGGAGGAGCGCTTCTACCGCTACGGCATCAAGCCCGAGTGGATGATGGTCCACCGCATCCTGAACCACAGCTTCGACAAGAAGGGGGACGTGCACTACCTGATCAAATGGAAAGACCTGCCCTACGACCAGTGCACCTGGGAGATCGACGACATCGACATTCCCTACTATGACAACCTGAAGCAGGCCTACTGGGGCCACAGGGAGCTGATGCTGGGGGAGGACACCCGGCTGCCCAAGCGGCTCATCAAGAAGGGCAAGAAGCTGAAGGACGACAAACAAGAGAAGCCGCCGGACACTCCCATCGTGGACCCCACCGTCAAGTTCGACAAGCAGCCCTGGTACATCGACGCCACGGGCGGCACACTGCACCCGTACCAGCTGGAGGGCCTCAACTGGCTGCGCTTCTCCTGGGCGCAGGGCACCGACACCATCCTGGCCGATGAGATGGGCCTGGGCAAGACAGTGCAGACCATCGTGTTCCTCTACTCCCTGTACAAGGAGGGCCACTCCAAGGGGCCCTACCTGGTCAGCGCGCCCCTGTCCACCATCATCAACTGGGAGCGCGAGTTTGAGATGTGGGCGCCCGACTTCTACGTGGTCACCTACACGGGGGACAAGGAGAGCCGCTCCGTGATCCGTGAGAACGAGTTCTCCTTCGAGGACAACGCCATTCGGAGTGGGAAGAAGGTGTTCCGCATGAAGAAAGAAGTGCAGATCAAGTTCCACGTCCTGCTCACCTCGTACGAGCTCATCACCATCGACCAGGCCATCCTGGGCTCCATCGAGTGGGCCTGCCTCGTGGTGGACGAGGCCCACCGGCTTAAGAACAACCAGTCCAAGTTCTTCAGGGTCCTGAACAGCTACAAGATCGACTACAAGCTGCTGCTGACGGGGACCCCCCTTCAGAACAACCTGGAGGAGCTCTTCCACCTACTCAACTTCCTGACACCGGAGCGGTTCAACAACCTGGAGGGCTTCCTGGAGGAGTTTGCGGACATCTCCAAGGAGGACCAGATCAAGAAGCTGCACGACCTGCTGGGGCCACACATGCTGCGGCGGCTCAAGGCGGACGTGTTCAAGAACATGCCGGCCAAGACTGAGCTCATTGTGCGTGTGGAGCTGAGCCAGATGCAGAAGAAGTACTACAAGTTTATCCTCACTCGCAACTTCGAGGCGCTGAACTCCAAGGGGGGTGGGAACCAGGTGTCGCTGCTGAACATCATGATGGACCTGAAGAAGTGCTGCAACCACCCCTACCTCTTCCCCGTGGCCGCTGTGGAGGCCCCTGTCCTGCCCAACGGCTCCTACGATGGCAGCTCCCTGGTCAAGTCCTCAGGGAAACTCATGTTGCTGCAGAAGATGCTGAAGAAACTGCGGGATGAGGGGCACCGCGTGCTCATCTTCTCCCAGATGACCAAGATGCTGGACCTTCTGGAGGACTTCCTGGAGTATGAGGGTTATAAGTATGAGCGGATTGACGGTGGCATCACTGGGGGTCTCCGGCAGGAGGCGATCGACAGATTCAACGCCCCTGGGGCCCAGCAGTTCTGCTTCCTCCTCTCCACCCGTGCGGGTGGCCTGGGCATCAACCTGGCCACAGCAGACACAGTCATCATCTACGACTCGGACTGGAACCCGCACAATGATATCCAGGCCTTCAGCCGTGCCCACCGCATCGGGCAGAACAAGAAGGTGATGATCTACCGCTTCGTGACACGGGCCTCGGTGGAGGAGCGCATCACGCAGGTGGCCAAGCGCAAGATGATGCTGACCCACCTGGTGGTGCGGCCCGGCCTCGGCTCCAAGTCGGGCTCCATGACCAAACAGGAGCTGGACGACATCCTCAAGTTCGGCACCGAGGAGCTGTTCAAGGACGACGTGGAGGGCATGATGTCCCAGGGCCAGAGGCCGGCCACGCCCATCCCCGATGTGCAGTCCTCCAAGGGTGGCACCCTGGCGGCCGGCCTGAAGAAGAAGCACGGTAGCACGCCTCCAGGCGACAACAAGGACGTGGAGGACAGCAGCGTGATCCACTATGATGATGCAGCCATCTCTAAGCTGCTGGACCGGAACCAGGACGCTACGGACGACACGGAGCTACAGAACATGAACGAGTACCTGAGCTCCTTCAAGGTGGCGCAGTACGTGGTTCGCGAGGAGGACGGCGTGGAGGAGGTGGAGCGGGAGGTGATCAAGCAGGAGGAGAACGTGGACCCTGACTACTGGGAGAAGCTGCTGCGCCACCACTACGAGCAGCAGCAGGAGGACCTGGCCCGGAACCTGGGCAAGGGCAAGCGCATCCGGAAGCAGGTCAACTACAACGACGCCTCCCAGGAGGACCAAGAGTGGCAGGATGAGCTCTCGGACAACCAGTCTGAGTATTCCATTGGCTCTGAGGACGAGGACGAGGACTTCGAGGAGCGGCCAGAGGGCCAGAGTGGACGGCGACAGTCCAGGAGGCAGCTCAAGAGTGACAGGGACAAGCCCCTGCCACCTCTCCTTGCTCGAGTCGGTGGCAACATCGAGGTGCTGGGCTTCAATGCGCGGCAGCGGAAGGCCTTCCTGAACGCCATCATGCGCTGGGGCATGCCGCCCCAGGATGCCTTCAACTCCCACTGGCTTGTGCGGGACCTGCGCGGGAAGAGTGAGAAGGAGTTCAGAGCCTATGTGTCCCTCTTCATGCGACACCTGTGCGAACCTGGGGCCGATGGCGCCGAGACCTTCGCGGACGGTGTGCCGAGGGAGGGGCTGTCTCGGCAGCACGTGCTCACGCGCATCGGGGTCATGTCGCTGGTTAGGAAGAAGGTTCAAGAGTTTGAACACGTCAATGGGAAGTACAGCACCCCGGACCTGGTCCCCGAGGGGCCCGAGGGCAAGAAGCCGGGCGAGGTCATCTCAGACCCCAACACACCTGTGCCTGCCAGCCCTGCCCACCTGCCACCTGCCCCACTGGGCCTGTCAGACAAAGTGGATGCCCCACTGGGCTACGGAGATGAGAAGGAGCCAGGGCTGCAGAAGCCAAAGAAACCCCTGGAAATCCAGGTCCTGCCAGCTGCCCTGGACAGAGTGGAGGGGGAGGACAAGCAGGAGAGCTTAGACAGCAAGGACAGAGCCCGAGACGAGCGGCCGGAGGAGATGGAGAAGGCACAGGCCTCCCCGGAGCAGCTACCCAAAGAGGAGGCGCCCCTCGAGAAGGAGAAGGCCCCAGACAAGCTGGACCTCAGGCTCAGCCACAGCAGAGCGGACAGTGGGGACTTCAGGCCAGATGACACCAAGGCGGACGAGAAGGAGGCCATCGAGATGCAGCAGAATGGTGACAGAGAGGAAGACGAGGAGGGCAAGAAGGACGACAAGAATGGGAGATTCAAATTCATGTTCAACATTGCGGACGGTGGCTTCACAGAGCTGCACACGCTATGGCAGAACGAGGAGCGGGCTGCAGTGTCCTCGGGAAAAATCTATGACATCTGGCACCGGCGCCATGACTACTGGCTGCTGGCTGGCATCGTGACGCACGGCTATGCCCGCTGGCAGGACATCCAGAACGACCCCAGGTATCTGATCCTCAATGAGCCCTTCAAGTCTGAGATCCACAAGGGCAACTACCTGGAGATGAAGAACAAGTTCCTGGCCCGCAGGTTCAAGCTGCTGGAGCAGGCCCTGGTCATTGAGGAGCAGCTGCGGAGGGCCGCGTACCTCAACATGACCCAGGACCCCAACCACCCGGCCATGGCCCTCAATGCCCGCCTGGCTGAGGTGGAATGCCTGGCTGAGAGCCACCAGCACCTGTCCAAGGAGTCCCTGGCCGGGAACAAGCCGGCCAACGCCGTGCTGCACAAGGTACTGAACCAGCTGGAGGAGCTGCTGAGCGATATGAAGGCGGACGTGACGCGCTTGCCCTCCATGCTGTCCCGCATCCCCCCGGTGGCTGCCCGCCTGCAGATGTCAGAGCGCAGCATCCTGAGCCGCCTGACCAACCGTGCTGGGGACCCCACCATCCAGCAGACATCTAGCCGACCCCGCAGCGTCCCCCCGTTGCAGTGCTCCCTTCCAGCTGAGCGCGATGCCGGGCCACCTGCTCGACCCCCACGGGAGAGAAAAGCTACGGACTTGTACGAGCCAGTGCCCCCTCGGGACAAAAAGGGAAACCGAGTGATGCTATCACATGGAGGACGAGGCCCAGCCCGGCTGGGCCAGAGCCCGGAGGCACCATCTCGTCGTAATTCAAGTCTTCTTCCACGTGGCACTGCACCCACGGCCACGCGGATGTGCCCCTCCACCCCTCTCAGAGCGACTCCCTAG

XM_004863600.1 Coding sequence

Pex14 peroxisomal biogenesis factor 14, transcript variant X4

High confidence: 4 potential gene matches
Length: 1122 bp    Location: 2224212..2082709   Strand: -
>XM_004863600.1
ATGGCGTCTTCGGAGCAGGCAGAGCAGCCGAACCAGCCGAGCTCTACTCCAGGAAGTGAAAATGTGGTGCCTCGGGAGCCGTTGATTGCCACAGCAGTGAAGTTTCTACAGAATTCTCGGGTCCGCCAGAGCCCGCTTGCAACCAGGAGAGCATTCCTGAAGAAGAAAGGGCTGACCGATGAAGAGATCGACCTGGCTTTTCAGCAGTCGGGCACTGCTGCCGAGGAGCCCGCGTCCTTGGGCCCAGCCACGCAGGTGGTTCCTCTGCAGCACCCCCACCTCATTTCGCAGCCATACAACCCTGCAGGTTCCCGGTGGCGAGACTATGGTGCCTTGGCTGTCATCATGGCCGGAATCGCGTTCGGCTTTCACCAGCTCTACAAGAAGTACCTGCTGCCCCTCATCCTGGGTGGCCACGAGGACAGGAAGCAGCTGGAGAGGATGGCAGCGAGTCTCTCCGAGCTGAGTGGCAGCGTGGCCCAGACAGTGACCCAGGTGCAGACGACGCTGGCCTCCGTCCAGGAGCTGCTGAGGCAGCAGCAGCAGAAAGTCCAGGAGCTGGCCCAGGAGCTGGCTGCGGCCAAGGCCACCACGTCTACCAACTGGATCCTGGAGTCCCAGAATATCAGTGAACTCAAGGCAGAGATTAACTCCTTGAAAGGGTTGCTTTTGAATCGGAGGCAGTTCCCGCCGTCCCCTTCGCCGTCGGCCCCGAAGATCCCCTCCTGGCAGATCCCGGTCAAATCGCCGTCACCCTCCAGCCCCGCGGCCGCCAACCATCACAGCAGCAGTGACATCTCCCCAGTGAGCAACGAGTCCACGTCGCCATCACCTGGGAAGGAGAGCCATAGCCCCGAGGGCGCCACGGCCGCCTACCACCTGCTGGGCCCGCAGGAGCAGGCCGAGGGCGAGGTGGACGTGAAGGGCCAGGTGCGCATGGAGGTGCAGGGCGAGGAGGAGAAGAGGGAGGACGAGGAGGACGAGGACGCGGGCCAGGCGGACGAGGAGGACGTGCTGGGGGTGCAGAGGGAGGACCGCCGGGGTGGGGACGGGCAGATCAACGAGCAGGTGGAGAAGCTTCGGCGGCCTGAGGGTGCCAGCAATGAGAGCGGGCGGGCCTAG

XM_004863735.1 Coding sequence

Chd5 chromodomain helicase DNA binding protein 5, transcript variant X4

Length: 5877 bp    Location: 5203256..5248624   Strand: +
>XM_004863735.1
ATGCGGGGCCCGCTGGGCACCGAGGAGGCGCTGCCGCGGCTGTTCGCCGAGGAGATGGAGAACGAGGACGAGATGTCAGAGGAAGAAGATGGGGGCCTGGAAGGCTTCGATGACTTTTTCCCTACGGAGCCCATGAGCCTCCCCAAGAAGAAGAAAGCTAAGAAGCTGAAGGACAGCAAGTCCAAGGGGAAGCGGAAGAAGAAAGAGGGGAGCAATGACGAGCTGTCGGCCAATGACGAGGATCTGGAGGAGAGGTCGGAGAGTGAGGGGAGCGACTACTCCCCCAACAAGAAGAAGAAGAAGAAGCTCAAGGACAAGAAGGAGAAAAAAGCCAAGCGGAGAAAGAAGGACGAAGATGAGGAGGACAATGAAGACGGGTGCTTAAAGGAGCCCAAGTCCTCGGGGCAGCTCATGGCTGAGTGGGGCCTGGACGACGTGGACTACCTGTTCTCAGAGGAGGACTACCACACACTGACCAACTACAAGGCCTTCAGCCAGTTCCTCCGGCCGCTCATTGCCAAGAAGAACCCGAAGATCCCCATGTCCAAAATGATGACCGTGCTGGGGGCCAAGTGGCGGGAGTTCAGCGCCAACAACCCCTTGAAGGGCAGCTCCGCGGTGGCGGCAGCAGCGGCCGTGGCTGCAGCTGTGGAGACGGTCATCATCGCGCCTCCGCTGGCCGTCAGCCCCCAGCCGGTGCCCCAGCCTGTGCCCCTCCGCAAGGCCAAGACCAAAGAGGGCAAGGGGCCCGGAGTGAGGAAGAAGATGAAAGGCCCCAAAGACGGGAAGAAGAAGGGGAAGGGCAAGAAGGTGGCCGGGCTCAAGTTCCGCTTCGGGGGCATCAGCAACAAGAGGAAGAAAGGCTCCTCGAGTGAGGAGGACGAGCGGGAGGAGTCGGACTTGGACAGCGCCAGCATCCACAGCTCCTCAGTGCGCTCCGAGTGCTCTGCAGCCTTGGGCAAAAAGAGCAAGAGGAGGCGCAAGAAGAAGAGAATTGATGATGGTGACGGCTACGAGACTGACCACCAGGATTACTGCGAGGTGTGCCAGCAGGGCGGGGAGATCATCCTGTGTGACACCTGCCCGCGGGCCTACCACCTGGTGTGCCTGGACCCTGAGCTGGAGAAGGCTCCTGAGGGCAAGTGGAGCTGCCCGCACTGTGAGAAGGAAGGCATCCAGTGGGAGCCGAAGGATGACGACGACGAGGAGGAGGAGCCCGGCTGTGAGGAGGAGGAGGACGACCACATGGAGTTCTGCCGCGTGTGCAAGGATGGCGGCGAGCTGCTCTGCTGCGACGCCTGCCCGTCCTCCTACCACCTGCACTGCCTCAACCCGCCGCTGCCTGAGATTCCAAATGGTGAATGGCTCTGCCCGCGCTGTACTTGTCCCCCACTGAAGGGCAAAGTCCAGCGGATTCTACACTGGAGGTGGACCGAGCCCCCGGCACCCTTCATGGTTGGGCTGCCGGGACCGGACGTGGAGCCAGGTGTGCCTCCGCCCAAGCCACTGGAGGGCATCCCGGAGAGGGAGTTCTTTGTCAAGTGGGCTGGGCTGTCCTACTGGCACTGCTCCTGGGTGAAGGAGCTGCAGCTGGAGCTGTACCACACCGTGATGTACCGCAACTACCAAAGAAAGAACGACATGGACGAGCCGCCACCCTTCGACTACGGCTCTGGCGACGAGGATGGCAAGAGTGAGAAGAGGAAGAACAAGGACCCCCTCTATGCCAAGATGGAGGAGCGCTTCTACCGCTACGGCATCAAGCCCGAGTGGATGATGGTCCACCGCATCCTGAACCACAGTTTTTTGTGTCCCAGCTTCGACAAGAAGGGGGACGTGCACTACCTGATCAAATGGAAAGACCTGCCCTACGACCAGTGCACCTGGGAGATCGACGACATCGACATTCCCTACTATGACAACCTGAAGCAGGCCTACTGGGGCCACAGGGAGCTGATGCTGGGGGAGGACACCCGGCTGCCCAAGCGGCTCATCAAGAAGGGCAAGAAGCTGAAGGACGACAAACAAGAGAAGCCGCCGGACACTCCCATCGTGGACCCCACCGTCAAGTTCGACAAGCAGCCCTGGTACATCGACGCCACGGGCGGCACACTGCACCCGTACCAGCTGGAGGGCCTCAACTGGCTGCGCTTCTCCTGGGCGCAGGGCACCGACACCATCCTGGCCGATGAGATGGGCCTGGGCAAGACAGTGCAGACCATCGTGTTCCTCTACTCCCTGTACAAGGAGGGCCACTCCAAGGGGCCCTACCTGGTCAGCGCGCCCCTGTCCACCATCATCAACTGGGAGCGCGAGTTTGAGATGTGGGCGCCCGACTTCTACGTGGTCACCTACACGGGGGACAAGGAGAGCCGCTCCGTGATCCGTGAGAACGAGTTCTCCTTCGAGGACAACGCCATTCGGAGTGGGAAGAAGGTGTTCCGCATGAAGAAAGAAGTGCAGATCAAGTTCCACGTCCTGCTCACCTCGTACGAGCTCATCACCATCGACCAGGCCATCCTGGGCTCCATCGAGTGGGCCTGCCTCGTGGTGGACGAGGCCCACCGGCTTAAGAACAACCAGTCCAAGTTCTTCAGGGTCCTGAACAGCTACAAGATCGACTACAAGCTGCTGCTGACGGGGACCCCCCTTCAGAACAACCTGGAGGAGCTCTTCCACCTACTCAACTTCCTGACACCGGAGCGGTTCAACAACCTGGAGGGCTTCCTGGAGGAGTTTGCGGACATCTCCAAGGAGGACCAGATCAAGAAGCTGCACGACCTGCTGGGGCCACACATGCTGCGGCGGCTCAAGGCGGACGTGTTCAAGAACATGCCGGCCAAGACTGAGCTCATTGTGCGTGTGGAGCTGAGCCAGATGCAGAAGAAGTACTACAAGTTTATCCTCACTCGCAACTTCGAGGCGCTGAACTCCAAGGGGGGTGGGAACCAGGTGTCGCTGCTGAACATCATGATGGACCTGAAGAAGTGCTGCAACCACCCCTACCTCTTCCCCGTGGCCGCTGTGGAGGCCCCTGTCCTGCCCAACGGCTCCTACGATGGCAGCTCCCTGGTCAAGTCCTCAGGGAAACTCATGTTGCTGCAGAAGATGCTGAAGAAACTGCGGGATGAGGGGCACCGCGTGCTCATCTTCTCCCAGATGACCAAGATGCTGGACCTTCTGGAGGACTTCCTGGAGTATGAGGGTTATAAGTATGAGCGGATTGACGGTGGCATCACTGGGGGTCTCCGGCAGGAGGCGATCGACAGATTCAACGCCCCTGGGGCCCAGCAGTTCTGCTTCCTCCTCTCCACCCGTGCGGGTGGCCTGGGCATCAACCTGGCCACAGCAGACACAGTCATCATCTACGACTCGGACTGGAACCCGCACAATGATATCCAGGCCTTCAGCCGTGCCCACCGCATCGGGCAGAACAAGAAGGTGATGATCTACCGCTTCGTGACACGGGCCTCGGTGGAGGAGCGCATCACGCAGGTGGCCAAGCGCAAGATGATGCTGACCCACCTGGTGGTGCGGCCCGGCCTCGGCTCCAAGTCGGGCTCCATGACCAAACAGGAGCTGGACGACATCCTCAAGTTCGGCACCGAGGAGCTGTTCAAGGACGACGTGGAGGGCATGATGTCCCAGGGCCAGAGGCCGGCCACGCCCATCCCCGATGTGCAGTCCTCCAAGGGTGGCACCCTGGCGGCCGGCCTGAAGAAGAAGCACGGTAGCACGCCTCCAGGCGACAACAAGGACGTGGAGGACAGCAGCGTGATCCACTATGATGATGCAGCCATCTCTAAGCTGCTGGACCGGAACCAGGACGCTACGGACGACACGGAGCTACAGAACATGAACGAGTACCTGAGCTCCTTCAAGGTGGCGCAGTACGTGGTTCGCGAGGAGGACGGCGTGGAGGAGGTGGAGCGGGAGGTGATCAAGCAGGAGGAGAACGTGGACCCTGACTACTGGGAGAAGCTGCTGCGCCACCACTACGAGCAGCAGCAGGAGGACCTGGCCCGGAACCTGGGCAAGGGCAAGCGCATCCGGAAGCAGGTCAACTACAACGACGCCTCCCAGGAGGACCAAGAGTGGCAGGATGAGCTCTCGGACAACCAGTCTGAGTATTCCATTGGCTCTGAGGACGAGGACGAGGACTTCGAGGAGCGGCCAGAGGGCCAGAGTGGACGGCGACAGTCCAGGAGGCAGCTCAAGAGTGACAGGGACAAGCCCCTGCCACCTCTCCTTGCTCGAGTCGGTGGCAACATCGAGGTGCTGGGCTTCAATGCGCGGCAGCGGAAGGCCTTCCTGAACGCCATCATGCGCTGGGGCATGCCGCCCCAGGATGCCTTCAACTCCCACTGGCTTGTGCGGGACCTGCGCGGGAAGAGTGAGAAGGAGTTCAGAGCCTATGTGTCCCTCTTCATGCGACACCTGTGCGAACCTGGGGCCGATGGCGCCGAGACCTTCGCGGACGGTGTGCCGAGGGAGGGGCTGTCTCGGCAGCACGTGCTCACGCGCATCGGGGTCATGTCGCTGGTTAGGAAGAAGGTTCAAGAGTTTGAACACGTCAATGGGAAGTACAGCACCCCGGACCTGGTCCCCGAGGGGCCCGAGGGCAAGAAGCCGGGCGAGGTCATCTCAGACCCCAACACACCTGTGCCTGCCAGCCCTGCCCACCTGCCACCTGCCCCACTGGGCCTGTCAGACAAAGTGGATGCCCCACTGGGCTACGGAGATGAGAAGGAGCCAGGGCTGCAGAAGCCAAAGAAACCCCTGGAAATCCAGGTCCTGCCAGCTGCCCTGGACAGAGTGGAGGGGGAGGACAAGCAGGAGAGCTTAGACAGCAAGGACAGAGCCCGAGACGAGCGGCCGGAGGAGATGGAGAAGGCACAGGCCTCCCCGGAGCAGCTACCCAAAGAGGAGGCGCCCCTCGAGAAGGAGAAGGCCCCAGACAAGCTGGACCTCAGGCTCAGCCACAGCAGAGCGGACAGTGGGGACTTCAGGCCAGATGACACCAAGGCGGACGAGAAGGAGGCCATCGAGATGCAGCAGAATGGTGACAGAGAGGAAGACGAGGAGGGCAAGAAGGACGACAAGAATGGGAGATTCAAATTCATGTTCAACATTGCGGACGGTGGCTTCACAGAGCTGCACACGCTATGGCAGAACGAGGAGCGGGCTGCAGTGTCCTCGGGAAAAATCTATGACATCTGGCACCGGCGCCATGACTACTGGCTGCTGGCTGGCATCGTGACGCACGGCTATGCCCGCTGGCAGGACATCCAGAACGACCCCAGGTATCTGATCCTCAATGAGCCCTTCAAGTCTGAGATCCACAAGGGCAACTACCTGGAGATGAAGAACAAGTTCCTGGCCCGCAGGTTCAAGCTGCTGGAGCAGGCCCTGGTCATTGAGGAGCAGCTGCGGAGGGCCGCGTACCTCAACATGACCCAGGACCCCAACCACCCGGCCATGGCCCTCAATGCCCGCCTGGCTGAGGTGGAATGCCTGGCTGAGAGCCACCAGCACCTGTCCAAGGAGTCCCTGGCCGGGAACAAGCCGGCCAACGCCGTGCTGCACAAGGTACTGAACCAGCTGGAGGAGCTGCTGAGCGATATGAAGGCGGACGTGACGCGCTTGCCCTCCATGCTGTCCCGCATCCCCCCGGTGGCTGCCCGCCTGCAGATGTCAGAGCGCAGCATCCTGAGCCGCCTGACCAACCGTGCTGGGGACCCCACCATCCAGCAGGGCGCTTTCGGCTCCTCCCAGATGTACAACAGCAACTTTGGGCCCAACTTCCGGGGCCCTGGACCGGGAGGGATTGTGAACTACAACCAGATGCCCCTGGGGCCCTATGTGACCGACATCTAG

XM_004863736.1 Coding sequence

Chd5 chromodomain helicase DNA binding protein 5, transcript variant X5

High confidence: 4 potential gene matches
Length: 5862 bp    Location: 5203256..5248624   Strand: +
>XM_004863736.1
ATGCGGGGCCCGCTGGGCACCGAGGAGGCGCTGCCGCGGCTGTTCGCCGAGGAGATGGAGAACGAGGACGAGATGTCAGAGGAAGAAGATGGGGGCCTGGAAGGCTTCGATGACTTTTTCCCTACGGAGCCCATGAGCCTCCCCAAGAAGAAGAAAGCTAAGAAGCTGAAGGACAGCAAGTCCAAGGGGAAGCGGAAGAAGAAAGAGGGGAGCAATGACGAGCTGTCGGCCAATGACGAGGATCTGGAGGAGAGGTCGGAGAGTGAGGGGAGCGACTACTCCCCCAACAAGAAGAAGAAGAAGAAGCTCAAGGACAAGAAGGAGAAAAAAGCCAAGCGGAGAAAGAAGGACGAAGATGAGGAGGACAATGAAGACGGGTGCTTAAAGGAGCCCAAGTCCTCGGGGCAGCTCATGGCTGAGTGGGGCCTGGACGACGTGGACTACCTGTTCTCAGAGGAGGACTACCACACACTGACCAACTACAAGGCCTTCAGCCAGTTCCTCCGGCCGCTCATTGCCAAGAAGAACCCGAAGATCCCCATGTCCAAAATGATGACCGTGCTGGGGGCCAAGTGGCGGGAGTTCAGCGCCAACAACCCCTTGAAGGGCAGCTCCGCGGTGGCGGCAGCAGCGGCCGTGGCTGCAGCTGTGGAGACGGTCATCATCGCGCCTCCGCTGGCCGTCAGCCCCCAGCCGGTGCCCCAGCCTGTGCCCCTCCGCAAGGCCAAGACCAAAGAGGGCAAGGGGCCCGGAGTGAGGAAGAAGATGAAAGGCCCCAAAGACGGGAAGAAGAAGGGGAAGGGCAAGAAGGTGGCCGGGCTCAAGTTCCGCTTCGGGGGCATCAGCAACAAGAGGAAGAAAGGCTCCTCGAGTGAGGAGGACGAGCGGGAGGAGTCGGACTTGGACAGCGCCAGCATCCACAGCTCCTCAGTGCGCTCCGAGTGCTCTGCAGCCTTGGGCAAAAAGAGCAAGAGGAGGCGCAAGAAGAAGAGAATTGATGATGGTGACGGCTACGAGACTGACCACCAGGATTACTGCGAGGTGTGCCAGCAGGGCGGGGAGATCATCCTGTGTGACACCTGCCCGCGGGCCTACCACCTGGTGTGCCTGGACCCTGAGCTGGAGAAGGCTCCTGAGGGCAAGTGGAGCTGCCCGCACTGTGAGAAGGAAGGCATCCAGTGGGAGCCGAAGGATGACGACGACGAGGAGGAGGAGCCCGGCTGTGAGGAGGAGGAGGACGACCACATGGAGTTCTGCCGCGTGTGCAAGGATGGCGGCGAGCTGCTCTGCTGCGACGCCTGCCCGTCCTCCTACCACCTGCACTGCCTCAACCCGCCGCTGCCTGAGATTCCAAATGGTGAATGGCTCTGCCCGCGCTGTACTTGTCCCCCACTGAAGGGCAAAGTCCAGCGGATTCTACACTGGAGGTGGACCGAGCCCCCGGCACCCTTCATGGTTGGGCTGCCGGGACCGGACGTGGAGCCAGGTGTGCCTCCGCCCAAGCCACTGGAGGGCATCCCGGAGAGGGAGTTCTTTGTCAAGTGGGCTGGGCTGTCCTACTGGCACTGCTCCTGGGTGAAGGAGCTGCAGCTGGAGCTGTACCACACCGTGATGTACCGCAACTACCAAAGAAAGAACGACATGGACGAGCCGCCACCCTTCGACTACGGCTCTGGCGACGAGGATGGCAAGAGTGAGAAGAGGAAGAACAAGGACCCCCTCTATGCCAAGATGGAGGAGCGCTTCTACCGCTACGGCATCAAGCCCGAGTGGATGATGGTCCACCGCATCCTGAACCACAGCTTCGACAAGAAGGGGGACGTGCACTACCTGATCAAATGGAAAGACCTGCCCTACGACCAGTGCACCTGGGAGATCGACGACATCGACATTCCCTACTATGACAACCTGAAGCAGGCCTACTGGGGCCACAGGGAGCTGATGCTGGGGGAGGACACCCGGCTGCCCAAGCGGCTCATCAAGAAGGGCAAGAAGCTGAAGGACGACAAACAAGAGAAGCCGCCGGACACTCCCATCGTGGACCCCACCGTCAAGTTCGACAAGCAGCCCTGGTACATCGACGCCACGGGCGGCACACTGCACCCGTACCAGCTGGAGGGCCTCAACTGGCTGCGCTTCTCCTGGGCGCAGGGCACCGACACCATCCTGGCCGATGAGATGGGCCTGGGCAAGACAGTGCAGACCATCGTGTTCCTCTACTCCCTGTACAAGGAGGGCCACTCCAAGGGGCCCTACCTGGTCAGCGCGCCCCTGTCCACCATCATCAACTGGGAGCGCGAGTTTGAGATGTGGGCGCCCGACTTCTACGTGGTCACCTACACGGGGGACAAGGAGAGCCGCTCCGTGATCCGTGAGAACGAGTTCTCCTTCGAGGACAACGCCATTCGGAGTGGGAAGAAGGTGTTCCGCATGAAGAAAGAAGTGCAGATCAAGTTCCACGTCCTGCTCACCTCGTACGAGCTCATCACCATCGACCAGGCCATCCTGGGCTCCATCGAGTGGGCCTGCCTCGTGGTGGACGAGGCCCACCGGCTTAAGAACAACCAGTCCAAGTTCTTCAGGGTCCTGAACAGCTACAAGATCGACTACAAGCTGCTGCTGACGGGGACCCCCCTTCAGAACAACCTGGAGGAGCTCTTCCACCTACTCAACTTCCTGACACCGGAGCGGTTCAACAACCTGGAGGGCTTCCTGGAGGAGTTTGCGGACATCTCCAAGGAGGACCAGATCAAGAAGCTGCACGACCTGCTGGGGCCACACATGCTGCGGCGGCTCAAGGCGGACGTGTTCAAGAACATGCCGGCCAAGACTGAGCTCATTGTGCGTGTGGAGCTGAGCCAGATGCAGAAGAAGTACTACAAGTTTATCCTCACTCGCAACTTCGAGGCGCTGAACTCCAAGGGGGGTGGGAACCAGGTGTCGCTGCTGAACATCATGATGGACCTGAAGAAGTGCTGCAACCACCCCTACCTCTTCCCCGTGGCCGCTGTGGAGGCCCCTGTCCTGCCCAACGGCTCCTACGATGGCAGCTCCCTGGTCAAGTCCTCAGGGAAACTCATGTTGCTGCAGAAGATGCTGAAGAAACTGCGGGATGAGGGGCACCGCGTGCTCATCTTCTCCCAGATGACCAAGATGCTGGACCTTCTGGAGGACTTCCTGGAGTATGAGGGTTATAAGTATGAGCGGATTGACGGTGGCATCACTGGGGGTCTCCGGCAGGAGGCGATCGACAGATTCAACGCCCCTGGGGCCCAGCAGTTCTGCTTCCTCCTCTCCACCCGTGCGGGTGGCCTGGGCATCAACCTGGCCACAGCAGACACAGTCATCATCTACGACTCGGACTGGAACCCGCACAATGATATCCAGGCCTTCAGCCGTGCCCACCGCATCGGGCAGAACAAGAAGGTGATGATCTACCGCTTCGTGACACGGGCCTCGGTGGAGGAGCGCATCACGCAGGTGGCCAAGCGCAAGATGATGCTGACCCACCTGGTGGTGCGGCCCGGCCTCGGCTCCAAGTCGGGCTCCATGACCAAACAGGAGCTGGACGACATCCTCAAGTTCGGCACCGAGGAGCTGTTCAAGGACGACGTGGAGGGCATGATGTCCCAGGGCCAGAGGCCGGCCACGCCCATCCCCGATGTGCAGTCCTCCAAGGGTGGCACCCTGGCGGCCGGCCTGAAGAAGAAGCACGGTAGCACGCCTCCAGGCGACAACAAGGACGTGGAGGACAGCAGCGTGATCCACTATGATGATGCAGCCATCTCTAAGCTGCTGGACCGGAACCAGGACGCTACGGACGACACGGAGCTACAGAACATGAACGAGTACCTGAGCTCCTTCAAGGTGGCGCAGTACGTGGTTCGCGAGGAGGACGGCGTGGAGGAGGTGGAGCGGGAGGTGATCAAGCAGGAGGAGAACGTGGACCCTGACTACTGGGAGAAGCTGCTGCGCCACCACTACGAGCAGCAGCAGGAGGACCTGGCCCGGAACCTGGGCAAGGGCAAGCGCATCCGGAAGCAGGTCAACTACAACGACGCCTCCCAGGAGGACCAAGAGTGGCAGGATGAGCTCTCGGACAACCAGTCTGAGTATTCCATTGGCTCTGAGGACGAGGACGAGGACTTCGAGGAGCGGCCAGAGGGCCAGAGTGGACGGCGACAGTCCAGGAGGCAGCTCAAGAGTGACAGGGACAAGCCCCTGCCACCTCTCCTTGCTCGAGTCGGTGGCAACATCGAGGTGCTGGGCTTCAATGCGCGGCAGCGGAAGGCCTTCCTGAACGCCATCATGCGCTGGGGCATGCCGCCCCAGGATGCCTTCAACTCCCACTGGCTTGTGCGGGACCTGCGCGGGAAGAGTGAGAAGGAGTTCAGAGCCTATGTGTCCCTCTTCATGCGACACCTGTGCGAACCTGGGGCCGATGGCGCCGAGACCTTCGCGGACGGTGTGCCGAGGGAGGGGCTGTCTCGGCAGCACGTGCTCACGCGCATCGGGGTCATGTCGCTGGTTAGGAAGAAGGTTCAAGAGTTTGAACACGTCAATGGGAAGTACAGCACCCCGGACCTGGTCCCCGAGGGGCCCGAGGGCAAGAAGCCGGGCGAGGTCATCTCAGACCCCAACACACCTGTGCCTGCCAGCCCTGCCCACCTGCCACCTGCCCCACTGGGCCTGTCAGACAAAGTGGATGCCCCACTGGGCTACGGAGATGAGAAGGAGCCAGGGCTGCAGAAGCCAAAGAAACCCCTGGAAATCCAGGTCCTGCCAGCTGCCCTGGACAGAGTGGAGGGGGAGGACAAGCAGGAGAGCTTAGACAGCAAGGACAGAGCCCGAGACGAGCGGCCGGAGGAGATGGAGAAGGCACAGGCCTCCCCGGAGCAGCTACCCAAAGAGGAGGCGCCCCTCGAGAAGGAGAAGGCCCCAGACAAGCTGGACCTCAGGCTCAGCCACAGCAGAGCGGACAGTGGGGACTTCAGGCCAGATGACACCAAGGCGGACGAGAAGGAGGCCATCGAGATGCAGCAGAATGGTGACAGAGAGGAAGACGAGGAGGGCAAGAAGGACGACAAGAATGGGAGATTCAAATTCATGTTCAACATTGCGGACGGTGGCTTCACAGAGCTGCACACGCTATGGCAGAACGAGGAGCGGGCTGCAGTGTCCTCGGGAAAAATCTATGACATCTGGCACCGGCGCCATGACTACTGGCTGCTGGCTGGCATCGTGACGCACGGCTATGCCCGCTGGCAGGACATCCAGAACGACCCCAGGTATCTGATCCTCAATGAGCCCTTCAAGTCTGAGATCCACAAGGGCAACTACCTGGAGATGAAGAACAAGTTCCTGGCCCGCAGGTTCAAGCTGCTGGAGCAGGCCCTGGTCATTGAGGAGCAGCTGCGGAGGGCCGCGTACCTCAACATGACCCAGGACCCCAACCACCCGGCCATGGCCCTCAATGCCCGCCTGGCTGAGGTGGAATGCCTGGCTGAGAGCCACCAGCACCTGTCCAAGGAGTCCCTGGCCGGGAACAAGCCGGCCAACGCCGTGCTGCACAAGGTACTGAACCAGCTGGAGGAGCTGCTGAGCGATATGAAGGCGGACGTGACGCGCTTGCCCTCCATGCTGTCCCGCATCCCCCCGGTGGCTGCCCGCCTGCAGATGTCAGAGCGCAGCATCCTGAGCCGCCTGACCAACCGTGCTGGGGACCCCACCATCCAGCAGGGCGCTTTCGGCTCCTCCCAGATGTACAACAGCAACTTTGGGCCCAACTTCCGGGGCCCTGGACCGGGAGGGATTGTGAACTACAACCAGATGCCCCTGGGGCCCTATGTGACCGACATCTAG

XM_004863602.1 Coding sequence

Dffa DNA fragmentation factor, 45kDa, alpha polypeptide, transcript variant X1

High confidence: 4 potential gene matches
Length: 996 bp    Location: 2225836..2235860   Strand: +
>XM_004863602.1
ATGGAGGTGACCGGGGGTGCCGGTGTTGCGGACCCCGGCGAGATCCGGCCTCTGAAGCCTTGTTTAGTGCGTCGCAACCACAGCCGCGAACAGCACGGCGTGGCGGCCTCTTCCGTCGAAGAGCTGAGGAACAAGGCCTGTGACATTCTGACCATTGACAAGTCCCTAACACCAGTCACCCTGGTCCTAGCAGAGGATGGCACCATAGTTGATGATGATGACTACTTCCTGTGTCTCCCTTCCAACACTAAGTTTGTGGCCTTGGCTAGTAACGAGAAGTGGACATACAGCAATTCAGATGGAGGCACAGCTTGGATTTCCCAAGAGTCCTTTGACGTAGATGAAACAGACAGCGGGGCAGGGGTGAAGTGGAAGAATGTGGCCAGGCAGCTGAAAGAAGATCTGTCCAGCATCATCCTGCTGTCAGAGGAGGAGCTCCAGGTGCTCACTGGCGTGCCATCTTCAGACCTGGCGCAGGAGCTGTGCCAGACCCATGCCGCCGCTCAGGGGCTCCAGAACACGCTGCAGCGGGTGCTCGACCAGCGAGAGGAGGCCCGGCAGTCCAGACAGCTCCTGGAGCTTTACCTGCGGGCTCTGGACAAGAAGGACGGCGTCTTGTCAAGGCCGGAAGAGTCCAAAGCTGCCTTTGGGGAAGAGGTGGATGCAGTTGACACAGGCATCGACAGAGAGAGCACCTCCAAAATCGCGCTTAGGAGCCAGGTCCTCTCGGCGCTGCAGGAGAAGCCCGCTCCAGAGCTGAGCTTGTGTAGTCAAGATCTGGAGTTGGTCACCAAGGAGGACCCCCAAGCCCTGGCCTCTGCTCTGAACTGGGACATAAAGAAGACAGAAGCGGCTCAGCAGGCCTGCGCCCAGGAGCTCGCCCGGCGCCTGCAGCAGACCCAGAGCTTGCGTTCGCTCAGGACTCTGTCAGCCAGGAGGAACTCCCTGCCCAGAGGATCGCAGGGAGCTAAACGAGCCAAGCAAGGCCCCACCTAG

XM_004863609.1 Coding sequence

LOC101702498 centromere protein S-like, transcript variant X3

Length: 495 bp    Location: 2256855..2244114   Strand: -
>XM_004863609.1
ATGGAGGAGGAGACGGAGGCCGAGGAACAGGAGCGATTCTCTTACCAGCAGAGGCTCAAGGCAGCAGTCCACTACACGGTCGGCTGTCTGTGCCAGGAAGTCGAAGCGGACAAAGAGGTGCAGTTCAGCAAGCAAACCATCGCAGCAATTTCGGAGATGACCTTCCAGCAGTGTGAAAATTTTGCCAGAGACCTTGAAATGTTTGCCAGACATGCTAAAAGAAGCACGATTAACACTGAAGATGTGAAGCTCTTGGCCAGGAGGAGTAATTCACTGCATATGCAGGAGATGGCAGAAATAAAGAAAGACAGCCTCCTGACTTTGCTCACGTGGTGGGATGAGTGGACCTCCCAGGCCAGTACTGGGGACCTCGTCGGGGGGCACAGCAGAAAGGTGGCCAAGCGACAGGAAGGCGCACCCCTCCAACAGCCCCCTCGCCGAGACAAAACACGCTGTAAAAACTTCTTCTGGAAGACCTTCTCCTCCTGCAAATAG

XM_004863627.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X12

Length: 3462 bp    Location: 2428563..2343101   Strand: -
>XM_004863627.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATACATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACGCGGATTCTGATAGCGGGGACGATTCTGACAAGAGGTCCTGTGAAGAGAGCTGGAAACTGATTACTTCTCTGAGAGAAAAGCTACCTCCTAGCAAGTTACAAACGATTGTTAAAAAATGTGGCCTCCCCAGCAGTGGGAAGAAACGAGAACCAATTAAAATGTATCAGATCCCTCAAAGAAGGCGCCTGAGTAAAGATTCTAAGTGGGTCACCATCTCAGACCTTAAGATCCAGGCCGTTAAAGAGATTTGCTATGAGGTTGCTCTCAATGATTTCCGACACAGTCGACAGGAGATTGAAGCCTTGGCCATTGTGAAGATGAAAGAGCTGTGTGCCATGTACGGGAAGAAAGATCCCAATGAGCGGGACTCTTGGAGGGCAGTGGCCAGGGACGTGTGGGACACTGTTGGCGTCGGGGACGAGAAGATTGAAGACATGATGGCCGTTGGTAAAGGCATAACAGATGTGGATGACCTTAAGGTCCACATAGACAAGCTGGAAGATATTTTGCAAGAAGTCAAAAAACAAAATAATATGAAAGATGAGGAGATTAAAGTCTTAAGAAATAAAATGCTCAAAATGGAGAAAGTCTTGCCGCTGATTGGATCTCAGGAACAGAAAAGCCAAGGAAACCACAAAGCAAAGGAGCCCATTGGTGCTGGTGTTAGTGGCAGCCCTGAGAATGATGGCAGCAAAGGAGACAGCAGAGAACTTGGCAGAGAAGAACGTGTTTCCCAGCTAATGAATGGGGATCCAGCTTTCAGACGGGGTCGGCTGCGCTGGATGAGACAAGAGCAAATCCGATTTAAGAACCTGCAACAGCAGGAGATAACAAAGCAGCTTCGTCGGCAGAATGTGCCTCATAGGTTCATCCCTCCTGAGAACCGGAAGCCCCGCTTCCCCTTTAAGAGCAACCCTAAACACAGAAACTCTTGGAGCCCTGGGACACATATCATCATCACAGAAGATGAGGTCATTGAGCTTAGGGTTCCCAAGGATGAAGAAGGAAGGAAAGCAGGTAAAGAGGAGGGCCAAGAAAAAGGGGGTAGAGCATCTTCCAAGGGTCCCCAGTCACCATGGGGCCCTCAGGGCACACGAAGTCAAGATCACATCCAAGTTAGCAAGCAGCATATTAGTAATCAACAGCAACCACCTCAGCTACGCTGGAGAAGCAATTCTCTCACTCATGGGCAGCCAAAAAGCACACGCTGCCTGGCATCTGCCTCCTCAGAACCCTTACCCTCCCACCCTGGCCACCCCACTGCTGACCTGCAGACTTTCCAGGCCAAGCGTCACATCCACCAGCACCGGCAGGCTTACTGTAGTTACCACACTGGAGGTCAGGCCGAGGGTGGTGCGGCTGGGCCCTGTCAGAAGCAGACTGACAAGCCCAGCCACTGTAGCCAGCTTGTGACACCCCCGAGGATGCGGAGACAGTTCTCAGCGCCCAACCTCAAAGCGGGTCGAGAAACCACAGTATAA

XM_004863630.1 Coding sequence

Ube4b ubiquitination factor E4B, transcript variant X3

High confidence: 4 potential gene matches
Length: 3525 bp    Location: 2561930..2449480   Strand: -
>XM_004863630.1
ATGGAGGAGCTGAGCGCTGATGAGATTCGCCGGAGGCGCCTGGCACGACTTGCGGGTGGACAGACCTCCCAGCCCACCACCCCGCTCACCTCACCCCAGAGGGAGAACCCTCCGGGGGCCCCGATTGCAGCATCAGCCCCGGGCCCTTCCCACAGTCTCGGCCTCAACGTCCACAACATGACCCCAGCTACCTCCCCAATAGGCGCCGCAGGAGTCGCCCACCAGAGCCAGAGCAGTGAGGGTGTCAGCTCTTTGAGCAGCTCACCTTCCAACAGCCTGGAGACACAGTCTCAGTCCCTGTCACGCTCCCAGAGCATGGATATTGATGGTGTCTCCTGTGAGAAAAGCATGTCACAGGTGGATGTGGATTCAGGGATCGAAAACATGGAGGTTGACGAAAACGACCGACGAGAGAAGAGGAGCCTTGGTGACAAGGAGCCTGCCCCAGGCCCAGAAGTGTCTGAAGAGCAGGCCTTGCAGCTGGTCTGTAAGATCTTCCGTGTTTCCTGGAAGGACCGGGACAGAGACGTCATCTTCCTGTCTTCTCTCTCTGCGCAGTTCAAGCAGAACCCAAAAGAAGTGTTCTCTGATTTTAAGGACTTGATTGGCCAGATCTTAATGGAAGTGCTCATGATGTCCACTCAGACCCGAGACGAAAACCCATTCGCCAGTCTCACCGCCACGTCCCAGCCCATCACCGCGGCAGCTCGGTCTCCGGACCGAAATCTCACGCTGAATACCGGCTCCAACCCAGGGACCAGCCCCATGTTCTGCAGCTTGGGCTCCTTCGGTGCCAGCTCTCTGTCTAGTTTGGGAGCCTCCGGCGGTGGAGCAAGTAGCTGGGATTCCTATAGCGACCATTTCACCATTGAAACCTGCAAGGAGACAGACATGCTGAACTACCTCATTGAGTGTTTTGACCGAGTTGGAATAGAGGAAAAAAAAGCACCAAAGATGTGCAGCCAGCCAGCAGCCAGCCAGCTTCTGAGCAACATCCGCTCACAGTGCATCTCCCACACCGCGCTCGTGCTGCAGGGCTCGCTGACACAGCCGAGGTCCATGCAGCAGCCGTCCTTCCTCGTGCCGTACATGCTGTGCAGGAATCTCCCTTACGGCTTCATCCAGGAGCTGGTGAGGACGACTCACCAGGACGAGGATGTCTTCAGACAGATCTTTATCCCCGTTTTGCAAGGCCTGGCTCTTGCTGCCAAAGAATGCTCCCTCGATAGTGACTACTTTAAATACCCCCTCATGGCATTAGGTGAACTCTGTGAAACCAAGTTTGGGAAGACACACCCTGTGTGCAATCTGGTTGCCTCTCTGCCCTTGTGGCTGCCGAAACCCTTAAGCCCCGGCTCCGGGAGGGAGCTGCAGAGACTCTCTTACTTGGGAGCCTTCTTCAGCTTCTCGGTCTTTGCTGAAGACGACATTAAAGTGGTCGAAAAATACTTCTCGGGGCCTGCCATTACCCTGGAGAACACTCGAGTGGTCAGCCAGTCCCTGCAGCACTACTTGGAGCTGGGAAGGCAAGAGCTCTTCAAGATTCTGCATAGTATTTTGTTAAATGGGGAGACCCGGGAGGCGGCCCTTGGTTACATGGCAGCTGTCGTCAATGCCAACATGAAGAAGGCGCAGATGCAGACAGACGATCGACTAGTATCTACAGATGGATTTATGCTGAATTTCCTCTGGGTACTGCAGCAGCTGAGTACCAAGATCAAGTTAGAGACAGTTGACCCCACGTATATATTCCACCCGCGCTGCCGGATTACACTGCCCAACGATGAGACGCGCGTGAACGCGACGATGGAGGACGTGAACGAGTGGCTGGCCGAGCTCTATGGAGATCAGCCTCCATTCTCGGAGCCCAAGTTCCCCACCGAGTGCTTCTTCCTCACGCTGCAAGCGCACCACCTCTCCATCCTGCCCAGCTGCCGCCGCTACATCCGCAGGCTCCGCGCCATCCGGGAGCTCAACAGAACTGTGGAAGATCTGAAAAATAATGAAAGCCAGTGGAAAGATTCCCCCCTGGCAACTAGACACCGCGAGATGCTGAAGCGCTGTAAAACTCAGCTTAAGAAACTGGTACGGTGCAAGGCCTGTGCTGACGCTGGCTTACTTGACGAGAGCTTCCTGAGAAGATGTCTGAATTTTTATGGCCTTCTCATTCAGCTGCTGCTCCGCATCCTGGACCCTGCATATCCCGACATAACACTGCCTTTAAGTTCAGATGTCCCCAAGGTATTTGCAGCATTGCCGGAGTTTTATGTAGAAGATGTTGCTGAATTTTTATTTTTTATTGTACAATACTCGCCTCAGGTGCTCTATGAGCCCTGTACTCAGGATATCGTGATGTTCCTTGTCGTGATGCTGTGCAACCAGAATTACATCCGGAATCCGTACCTAGTGGCCAAACTCGTAGAAGTCATGTTCATGACCAACCCTGCTGTTCAGCCTCGAACCCAGAAGTTTTTCGAAATGATTGAGAACCACCCACTCTCCACCAAATTGCTGGTACCTTCCCTGATGAAGTTCTACACAGATGTTGAGCATACTGGAGCCACCAGCGAGTTCTATGACAAGTTTACCATTCGCTATCACATCAGCACCATCTTTAAAAGCCTTTGGCAAAATATAGCTCACCATGGCACTTTCATGGAGGAGTTCAATTCTGGGAAGCAGTTTGTTCGCTATATAAACATGTTGATAAACGACACAACATTCTTGCTCGACGAAAGTCTGGAGTCGCTGAAGCGGATCCACGAGGTGCAAGAAGAGATGAAGAACAAAGAACAGTGGGACCAGCTGCCGAGGGATCAGCAGCAGGCCCGGCAGTCTCAGCTGGCTCAGGACGAGCGCGTCTCCCGCTCCTACCTCGCCCTGGCGACAGAAACCGTGGACATGTTCCACATCCTCACCAAGCAGGTCCAGAAGCCGTTCCTCAGACCGGAACTCGGACCCCGATTGGCTGCCATGCTGAACTTCAATCTTCAGCAGCTCTGCGGCCCCAAGTGCCGTGACCTGAAAGTTGAAAACCCTGAGAAGTATGGCTTTGAACCAAAGAAGCTATTGGACCAGCTGACGGATATTTACCTGCAGCTGGACTGTGCTCGCTTTGCTAAAGCCATCGCCGACGACCAGAGATCCTACAGCAAGGAACTGTTTGAAGAAGTCATTTCAAAGATGCGGAAGGCAGGGATCAAGTCCACCATAGCAATAGAGAAGTTTAAACTCCTCGCTGAGAAAGTCGAGGAGATCGTGGCCAAGAACGCACGCGCAGAAATCGACTACAGCGATGCCCCGGATGAGTTCAGAGACCCCCTGATGGACACCCTGATGACCGACCCTGTGCGCCTGCCCTCCGGCACCATCATGGACCGCTCCATCATCCTCCGGCACCTGCTGAACTCGCCAACTGACCCGTTCAACCGGCAGACGCTGACCGAGAGCATGCTGGAGCCAGTGCCAGAACTAAAAGAACAGATCCAGGCGTGGATGCGAGAGAAACAGAACAGCGATCATTAA

XM_004863631.1 Coding sequence

Nmnat1 nicotinamide nucleotide adenylyltransferase 1, transcript variant X1

High confidence: 4 potential gene matches
Length: 843 bp    Location: 2591379..2575815   Strand: -
>XM_004863631.1
ATGGACAAAGTGGAGAAGACAGAAGTGGTTCTCCTGGCATGTGGCTCCTTTAACCCCATCACCAACATGCACCTCAGGCTGTTCGAGCTGGCCAAGGACTACATGGACGGAACAGGAAAATACAGAGTGATCAAAGGCATCATTTCACCCGTGGGCGACGCGTATAAGAAGAAGGGACTCATCCCAGCACACCACCGGGTCATCATGGCGGAGCTGGCCACCAAGACCTCCTGCTGGGTGGAGGTGGACACGTGGGAGAGCCTGCAGAAGGAGTGGGTGGAGACTGTGAAGGTGCTGAGACACCATCAAGAGAAGCTGGAGGCTGGCCACTATAATCAGCAGCAGAACTCCCCTGTGCAGGAAAAGCCTGGCCGGAAGCGGAAGTGGACTGAACAAAGACAAAATTCCACTCAAAAGAAACCCCCGGAGCCAAACCCAAAAGGTGTGCCCAAGGTGAAGCTGCTGTGCGGGGCGGACATGCTGGAGTCCTTTGGGGTGCCCAGCCTCTGGAAGAGCGAGGATGTCACGCACATCGTGGCGGACTACGGGCTCATCTGTGTCACCCGGGCCGGCAGCAATGCTCAGAAGTTCATCTACGAATCGGACGTGCTGTGGCAGCATCAGGGCAACATCCACCTGGTGACCGAGTGGATCTCCAACGACATCTCCTCTACCAAGATCCGAAGGGCACTGCGCCGTGGCCAGAGCATCCGCTACCTGGTGCCGGACCTGGTGCAGGACTACATCCAGAAGCACGACCTCTACAGCACTGAGAGCGAGGATAGGAACCTGGGGGTGACCCTGGCGCCCCTGCAGCGAAACACCGGGGAGGCCGAGTCCTAG

XM_004863633.1 Coding sequence

Lzic leucine zipper and CTNNBIP1 domain containing, transcript variant X1

Length: 825 bp    Location: 2591508..2602685   Strand: +
>XM_004863633.1
ATGGTCCGGGGCCGGACGCTTTTCCAGGCGGGAAGAGGTGTGCTCTGGGCTGTACAGTGCCCTGAAGTGGACGGTCCCCAGAACTTCGGGAATAGGAGGTTTGTGCAGTTTGAGAGCGGTCCACAGGGCGCAGAAGTTCCGAGCTCTAGCACAGGTTCATTGTTCTACATAGAGATTAAAATGGCTTCCAGAGGAAAGACAGAGACAAGCAAATTGAAGCAGAATTTAGAAGAACAGCTGGATAGGCTCATGCAGCAGTTACAAGACCTGGAGGAATGCAGAGAGGAACTTGATACAGATGAATATGAAGAGACCAAAAAGGAAACTCTGGAGCAGCTGAGTGAATTTAATGATTCACTGAAGAAAATTATGTCTGGAAATATGACGTTGGTGGATGAACTAAGTGGAATGCAACTGGCTATTCAGGCAGCCATCAGCCAGTCCTTCAGAACCCCAGAGGTCATCAGATTGTTTGCAAAGAAGCAACCCGGTCAGCTTCGTACAAGGTTAGCAGAGATGGACAGAGACCTGATGGTGGGCAAGCTGGAGCGAGACCTGTACACCCAGCAGAAAGTGGAGATCCTCACAGCGCTCCGGAAGCTCGGAGAGAAGGTGCTGTCCTCAGCCAGTTTGAGAAAGTCTCCTCGGACCTCGGCTCTGGAGACAAAGTCCTGGCTCTGGCAAGTTGTGAGGTTGAAAAAGCAAAAAAATGACAGTTTGGCAGCTGGTGACATCAATTACCTTCTTACTGTAAATGGTGGTTTTCTTCTGAGGATTTTGAGTCATTGCAAAGAAACAGAGTCTCGACATGTATTTACATCCTAA

XM_004863634.1 Coding sequence

Lzic leucine zipper and CTNNBIP1 domain containing, transcript variant X2

Length: 753 bp    Location: 2591508..2602482   Strand: +
>XM_004863634.1
ATGGTCCGGGGCCGGACGCTTTTCCAGGCGGGAAGAGGTGTGCTCTGGGCTGTACAGTGCCCTGAAGTGGACGGTCCCCAGAACTTCGGGAATAGGAGGTTTGTGCAGTTTGAGAGCGGTCCACAGGGCGCAGAAGTTCCGAGCTCTAGCACAGGTTCATTGTTCTACATAGAGATTAAAATGGCTTCCAGAGGAAAGACAGAGACAAGCAAATTGAAGCAGAATTTAGAAGAACAGCTGGATAGGCTCATGCAGCAGTTACAAGACCTGGAGGAATGCAGAGAGGAACTTGATACAGATGAATATGAAGAGACCAAAAAGGAAACTCTGGAGCAGCTGAGTGAATTTAATGATTCACTGAAGAAAATTATGTCTGGAAATATGACGTTGGTGGATGAACTAAGTGGAATGCAACTGGCTATTCAGGCAGCCATCAGCCAGTCCTTCAGAACCCCAGAGGTCATCAGATTGTTTGCAAAGAAGCAACCCGGTCAGCTTCGTACAAGGTTAGCAGAGATGGACAGAGACCTGATGGTGGGCAAGCTGGAGCGAGACCTGTACACCCAGCAGAAAGTGGAGATCCTCACAGCGCTCCGGAAGCTCGGAGAGAAGCTGACTGCTGATGACGAGGCCTTCCTGTCCGCAAACGCAGGTGCTGTCCTCAGCCAGTTTGAGAAAGTCTCCTCGGACCTCGGCTCTGGAGACAAAGTCCTGGCTCTGGCAAGTTGTGAGGTTGAAAAAGCAAAAAAATGA

XM_004863647.1 Coding sequence

Pik3cd phosphatidylinositol-4,5-bisphosphate 3-kinase, catalytic subunit delta, transcript variant X2

Length: 3138 bp    Location: 2779999..2751724   Strand: -
>XM_004863647.1
ATGCCCCCCGGGGTCGACTGCCCCATGGAGTTCTGGACCAAGGAGGAAAATCAGAACGTGGTGGTGGACTTCCTGCTCCCCACGGGGATCTACCTCAACTTCCCTGTGTCCCTCAATGCCAACCTCAGGACCATCAAGCAGGTGCTGTGGTATCGGGCACAGTATGAGCCGCTCTTCCACATGCTCAGCGGTCCTGAGGCCTACGTGTTCACCTGCGTCAACCAGACAGCAGAGCAGCAGGAGCTGGAGGACGAGCAGCGGCGGCTGTGCGACATTCGGCCCTTCCTGCCGGTGCTGCGCGTGGTGGCCCGGGAGGGCGATCGAGTCAAGAAGCTCATCAACTCCCAGATCAGCCTCCTCATCGGCAAAGGCCTCCACGAGTTCGACTCCCTGGGTGACCCAGAAGTGAACGACTTCCGTGCCAAGATGCGCCAGTTCTGCGAGGAGGCGGCTGCAAGGCGCCAGCAGCTGGGCTGGGAGGACTGGCTGCAGTATAGCTTCCCCCTGCAGCTCGAGCCCTCGGCCGGGAGCTGGGGGCCCAGCACCCTGAGGCTCCCCAACCGGGCCCTGCTGGTCAACGTCAAATTCGAGGGCAGCGAGGAGAGCTTCACCTTCCAGGTGTCCACCAAGGACATGCCGCTGGCGCTCATGGCCTGCGCCCTGCGCAAGAAGGCCACAGTCTTCCGGCAGCCGCTGGTGGAGCAGCCGGAGGACTACGTGCTGCAGGTGAACGGGCGGCTCGAGTACCTATACGGCAGCTACCCGCTGTGCCAGTTCCAGTATGTCTGCAGCTGCCTGCACAGTGGACTGACCCCCCACCTCACCATGGTGCACTCCTCTTCTATCCTGGCCATGCGGGATGGGCAGGGCAACCCTGACCCCCAGGTCCAGAAGCCCCACCCCAAGCCGCCCCCCGTTCCCACCAAGAAGCCCTCCTCCGTGTCCCTGTGGTCGCTGGAGCAGCTGTTCTGCATCGAGCTCATCCAGGGCAGCAAGGTGAATGCGGATGAGCGCATGAAGCTCGTGGTGCAGGCCGGGCTCTTCCACGGCCATGAGATGCTATGCAAGACAGTGTCCAGCTCAGAGGTCAGCGTGTGCTCCGAGCCTGTGTGGAAGCAGCGGCTGGAGTTTGACATCAGCATCTGCGACCTGCCGCGCATGGCCCGGCTCTGCTTCGCGCTCTATGCCGTGGTGGAGAAAGCCAAGAAGGCGCGCTCCACCAAGAAGAAGTCTAAGAAGGCGGACTGCCCGATCGCCTGGGCCAACATCATGCTGTTCGACTACCGGGACCAGCTGAAGACTGGCGAGCGCCGCCTGTACATGTGGCCCTCGGTCCCAGATGAGAAAGGTGAGCTGCTGAACCCCGCGGGGAGCGTGCACGGAAACCCCAACACAGAGAGCGCTGCTGCCCTGGTCATCTTCCTGCCCGAGGTGGCCCCCCACCCCGTGTACTACCCTGCCCTGGAGAAGATCCTGGAGCTGGGGAGACACGGGGAGCAGCGCGGACAAGGCACGGAGGAGGAGCAGCTGCAGCTGAGGGAGATCCTGGAGCGGCGGGGCTCGGGCGAGCTGTACGAGCATGAGAAGGACCTGGTGTGGAAGATGCGGCATGAGGTCCAGGAGCACTTCCCAGACGCGCTGGCCCGCCTGCTGCTGGTCACCAAGTGGCACAAGCACGAGGATGTGGCCCAGATGCTCTACCTCCTGTGCTCCTGGCCCGAGCTGCCCATCCTGAGTGCCCTGGAGCTGCTGGACTTCAGCTTCCCTGACTGTCACGTGGGCTCCTTTGCCATCAGGTCCCTGCGGAAACTGACGGATGATGAGCTCTTCCAGTACCTGCTGCAGCTGGTCCAGGTGCTCAAGTATGAGTCCTACCTGGACTGCGAGCTGACCAAGTTCTTGCTGGACCGGGCGCTGGCCAACCGCAAGATCGGCCACTTCCTCTTCTGGCATCTCCGCTCTGAGATGCACGTGCCGTCAGTGGCCCTGCGCTTTGGCCTCATCATGGAGGCCTATTGCAGGGGCAGCACCCACCACATGAAGGTGCTGATGAAGCAGGGGGAAGCACTGAACAAGCTGAAGGCGCTGAATGACTTCGTGAAGGTGAGCTCCCAGAAGACCACCAAGCCCCAGACCAAGGAGCTCATGCACCTGTGCATGCGGCAGGAGACCTATCTGGAGGCACTCTCCCACCTGCAGTCCCCACTGGACCCAAGCACACTGCTGGAGGAAGTGTGCGTGGAGCAGTGCACCTTCATGGACTCCAAGATGAAGCCGCTGTGGATCATGTACAGCAGCAAGGAGGCGGGCACCACTGGCAGCGTGGGCATCATCTTCAAGAACGGGGATGACCTCCGCCAGGACATGCTGACCCTGCAGATGATCCAGCTCATGGATGTGCTATGGAAGCAGGAGGGCCTGGACCTGAGGATGACGCCCTACGGCTGCCTCCCCACCGGGGACCGCACGGGCCTCATCGAGGTGGTGCTGCACTCGGACACCATCGCCAACATCCAGCTGAACAAGAGCAACATGGCAGCCACGGCCGCCTTCAACAAGGACGCCCTGCTCAACTGGCTCAAGTCCAAGAACCCTGGGGAGGCCCTGGAGCGAGCCATTGAAGAGTTCACCCTGTCCTGTGCTGGCTACTGTGTGGCCACCTACGTGCTGGGCATCGGTGACCGGCACAGCGACAACATCATGATCCGTGAGAGTGGGCAGCTGTTCCACATTGATTTTGGCCACTTCCTGGGAAATTTCAAGACCAAGTTTGGAATCAACCGTGAGCGGGTCCCGTTCATCCTCACCTATGACTTCGTCCACGTGATTCAGCAGGGAAAGACGAATAACAGCGAGAAATTTGAAAGGTTCCGGGGCTACTGCGAACGAGCCTACACCATCCTGCGGCGCCATGGCCTCCTCTTCCTCCACCTCTTTGCACTGATGCGGGCAGCGGGCCTGCCTGAGCTCAGCTGCTCCAAAGACATCCAGTACCTCAAGGACTCCCTGGCGCTGGGGAAAACAGAGGAGGAGGCGCTGAAGCACTTCCGGGTGAAGTTCAACGAAGCCCTCAGGGAGAGCTGGAAGACCAAAGTGAACTGGCTGGCACACAACGTGTCCAAAGATAACAGGCAGTAG

XM_004863652.1 Coding sequence

Tmem201 transmembrane protein 201, transcript variant X2

Length: 1788 bp    Location: 2835443..2817104   Strand: -
>XM_004863652.1
ATGGAGGGACTGAGCGCGCTGCTAGCCCGCTGCCCCACGGCCGGCCTGGCCGGTGGCCTGGGGGTCACAGCGTGCGCCGCTGCCGGCGTGCTACTCTACCGGATCGCGCGGAGGGCAAAGCCGACGCACATGGTGGTCAACTGCTGGTTCTGCAACCACGACACGCACGTGCCCTACGGAAACCGCAACTGCTGGGACTGTCCCCACTGCGAGCAGTACAACGGCTTCCAGGAGAACGGCGACTACAACAAGCCCATCCCTGCCCAGTACCTCGAGCACCTGAACCACGTGGTGAGCAGCATGCCCAGCCCCCATGACCCTGCGCAGCCACAGCAGTGGGTGAGCAGCCAGGTGCTTCTGTGCCGCAAGTGCAACCACCACCAGACCACCAAGATCAAGCAGCTGGCCGCCTTCACGCCCAGGGAAGAGGGCAAGTATGACGAGGAGATCGAGGTGTACCGCCACCACCTGGAGCAGATGTACAAGTTGTGTCGGCCGTGCCAGGTGGCCGTGGAGTACTACATCAAGCACCAGAACCGCCAGCTGCGCGCCCTGCTGCTCAGCCACCAGTTCCGGCGCCGGGAGGCAGACCAGGCCCAGAGCTTCAGCTCCTCTGTGGTGAAGGCCCCGGTCCAGGTCATCCTGCTCCGCGCCCTGGCCTTCCTGGCCTGCACCTTCCTGTTGACAACAGCGCTATACGGGCCCAGCAACCCCTTCACCCTGGGTGTCGCACTGCCCCCAGCCCTGCCACCTGGCACCAACAGCTCGGCCGCACCAGACAACAGCACTGCCCCAGGGACCAAGGGCTGGCAACAGCTGCTGGACCTGTTGCCCGAGCACACGGCAGAGACACTGCTGGAGGCCTGGGCCTTCGGGCAGAGCCACCAGATGGGCATCGTGGCCATGGGCCTGCTCACCTGCCTGCTGGCCATGCTGCTGGCCGGCCGCATCAGGTGCTTTCCCGGAGATGCCGTGGGCTTCCTCCCCGCCAGCCCCAGCCTTACAGTGCCCAGCCCCAGTGTCACGGGCTCCTCGCCGGCCCTGTTCGTGCCCACCCCACCCGGCTTCCTGCCGCTCACCAACCAGCAGCTGTTCCGGCCGCCCCGACGGGCCTCGCCCTCCTCACTGCCAGGCCGCCTCAGCCGGGCCCTCTCGCTGGGCACCATCCCCTCTCTGACTCGAGCAGATTCGGGGTACCTGTTCAGCGGGAGCCGCCCACCATCCCGGGCATCTCGCCCCCAGGAGGTTCCCCTTTCGGATTACTTCTCTTTGCTGTCGGGCCGCCACCTGTCCTCCCCTCTCCCATCTCCAGCGCCCTCCGTGGCCAGCTCAGTGGCCTCCAGCTACGGCTCTCTGCGCCACCGCAGGCCCCTCATCAGCCCCGCCCGGCTCAACCTGAAGGGCCAGAAGCTGCTGCTGTTCCCAGCCACCCCCGGGGAGCTGCCCAGCACCCCCAGCAGCTCGGAGGAGCACTCCCCACACAGCGGGAACCTCTTCACCCCGGGGCCACCCCTGCCACCCGCAAGGCAGCCCGTTCCCGACAGGGACACCATGCACAGCGCCGATGTGCGCGCCAGACCGGAGAGCGGCAGCCGCTCCATCAAGAAGGAGGATGACGCTTCCCAGTCGTCCATGTGTGTGGTGGACACCACCACCCGGGGGTGCTCGGAGGAGGCCGCCGCCTGGAAGGGGCGACTCGGTCCCTCCTTGACCCAGGGCCTCCTGGCGGTGAGCTTGGCTGCCAATGCTGTATTCACCTCCGCCTACCTGTACCAGAGCCTGCGCTGA

XM_004863650.1 Coding sequence

Pik3cd phosphatidylinositol-4,5-bisphosphate 3-kinase, catalytic subunit delta, transcript variant X5

High confidence: 4 potential gene matches
Length: 3138 bp    Location: 2772843..2751724   Strand: -
>XM_004863650.1
ATGCCCCCCGGGGTCGACTGCCCCATGGAGTTCTGGACCAAGGAGGAAAATCAGAACGTGGTGGTGGACTTCCTGCTCCCCACGGGGATCTACCTCAACTTCCCTGTGTCCCTCAATGCCAACCTCAGGACCATCAAGCAGGTGCTGTGGTATCGGGCACAGTATGAGCCGCTCTTCCACATGCTCAGCGGTCCTGAGGCCTACGTGTTCACCTGCGTCAACCAGACAGCAGAGCAGCAGGAGCTGGAGGACGAGCAGCGGCGGCTGTGCGACATTCGGCCCTTCCTGCCGGTGCTGCGCGTGGTGGCCCGGGAGGGCGATCGAGTCAAGAAGCTCATCAACTCCCAGATCAGCCTCCTCATCGGCAAAGGCCTCCACGAGTTCGACTCCCTGGGTGACCCAGAAGTGAACGACTTCCGTGCCAAGATGCGCCAGTTCTGCGAGGAGGCGGCTGCAAGGCGCCAGCAGCTGGGCTGGGAGGACTGGCTGCAGTATAGCTTCCCCCTGCAGCTCGAGCCCTCGGCCGGGAGCTGGGGGCCCAGCACCCTGAGGCTCCCCAACCGGGCCCTGCTGGTCAACGTCAAATTCGAGGGCAGCGAGGAGAGCTTCACCTTCCAGGTGTCCACCAAGGACATGCCGCTGGCGCTCATGGCCTGCGCCCTGCGCAAGAAGGCCACAGTCTTCCGGCAGCCGCTGGTGGAGCAGCCGGAGGACTACGTGCTGCAGGTGAACGGGCGGCTCGAGTACCTATACGGCAGCTACCCGCTGTGCCAGTTCCAGTATGTCTGCAGCTGCCTGCACAGTGGACTGACCCCCCACCTCACCATGGTGCACTCCTCTTCTATCCTGGCCATGCGGGATGGGCAGGGCAACCCTGACCCCCAGGTCCAGAAGCCCCACCCCAAGCCGCCCCCCGTTCCCACCAAGAAGCCCTCCTCCGTGTCCCTGTGGTCGCTGGAGCAGCTGTTCTGCATCGAGCTCATCCAGGGCAGCAAGGTGAATGCGGATGAGCGCATGAAGCTCGTGGTGCAGGCCGGGCTCTTCCACGGCCATGAGATGCTATGCAAGACAGTGTCCAGCTCAGAGGTCAGCGTGTGCTCCGAGCCTGTGTGGAAGCAGCGGCTGGAGTTTGACATCAGCATCTGCGACCTGCCGCGCATGGCCCGGCTCTGCTTCGCGCTCTATGCCGTGGTGGAGAAAGCCAAGAAGGCGCGCTCCACCAAGAAGAAGTCTAAGAAGGCGGACTGCCCGATCGCCTGGGCCAACATCATGCTGTTCGACTACCGGGACCAGCTGAAGACTGGCGAGCGCCGCCTGTACATGTGGCCCTCGGTCCCAGATGAGAAAGGTGAGCTGCTGAACCCCGCGGGGAGCGTGCACGGAAACCCCAACACAGAGAGCGCTGCTGCCCTGGTCATCTTCCTGCCCGAGGTGGCCCCCCACCCCGTGTACTACCCTGCCCTGGAGAAGATCCTGGAGCTGGGGAGACACGGGGAGCAGCGCGGACAAGGCACGGAGGAGGAGCAGCTGCAGCTGAGGGAGATCCTGGAGCGGCGGGGCTCGGGCGAGCTGTACGAGCATGAGAAGGACCTGGTGTGGAAGATGCGGCATGAGGTCCAGGAGCACTTCCCAGACGCGCTGGCCCGCCTGCTGCTGGTCACCAAGTGGCACAAGCACGAGGATGTGGCCCAGATGCTCTACCTCCTGTGCTCCTGGCCCGAGCTGCCCATCCTGAGTGCCCTGGAGCTGCTGGACTTCAGCTTCCCTGACTGTCACGTGGGCTCCTTTGCCATCAGGTCCCTGCGGAAACTGACGGATGATGAGCTCTTCCAGTACCTGCTGCAGCTGGTCCAGGTGCTCAAGTATGAGTCCTACCTGGACTGCGAGCTGACCAAGTTCTTGCTGGACCGGGCGCTGGCCAACCGCAAGATCGGCCACTTCCTCTTCTGGCATCTCCGCTCTGAGATGCACGTGCCGTCAGTGGCCCTGCGCTTTGGCCTCATCATGGAGGCCTATTGCAGGGGCAGCACCCACCACATGAAGGTGCTGATGAAGCAGGGGGAAGCACTGAACAAGCTGAAGGCGCTGAATGACTTCGTGAAGGTGAGCTCCCAGAAGACCACCAAGCCCCAGACCAAGGAGCTCATGCACCTGTGCATGCGGCAGGAGACCTATCTGGAGGCACTCTCCCACCTGCAGTCCCCACTGGACCCAAGCACACTGCTGGAGGAAGTGTGCGTGGAGCAGTGCACCTTCATGGACTCCAAGATGAAGCCGCTGTGGATCATGTACAGCAGCAAGGAGGCGGGCACCACTGGCAGCGTGGGCATCATCTTCAAGAACGGGGATGACCTCCGCCAGGACATGCTGACCCTGCAGATGATCCAGCTCATGGATGTGCTATGGAAGCAGGAGGGCCTGGACCTGAGGATGACGCCCTACGGCTGCCTCCCCACCGGGGACCGCACGGGCCTCATCGAGGTGGTGCTGCACTCGGACACCATCGCCAACATCCAGCTGAACAAGAGCAACATGGCAGCCACGGCCGCCTTCAACAAGGACGCCCTGCTCAACTGGCTCAAGTCCAAGAACCCTGGGGAGGCCCTGGAGCGAGCCATTGAAGAGTTCACCCTGTCCTGTGCTGGCTACTGTGTGGCCACCTACGTGCTGGGCATCGGTGACCGGCACAGCGACAACATCATGATCCGTGAGAGTGGGCAGCTGTTCCACATTGATTTTGGCCACTTCCTGGGAAATTTCAAGACCAAGTTTGGAATCAACCGTGAGCGGGTCCCGTTCATCCTCACCTATGACTTCGTCCACGTGATTCAGCAGGGAAAGACGAATAACAGCGAGAAATTTGAAAGGTTCCGGGGCTACTGCGAACGAGCCTACACCATCCTGCGGCGCCATGGCCTCCTCTTCCTCCACCTCTTTGCACTGATGCGGGCAGCGGGCCTGCCTGAGCTCAGCTGCTCCAAAGACATCCAGTACCTCAAGGACTCCCTGGCGCTGGGGAAAACAGAGGAGGAGGCGCTGAAGCACTTCCGGGTGAAGTTCAACGAAGCCCTCAGGGAGAGCTGGAAGACCAAAGTGAACTGGCTGGCACACAACGTGTCCAAAGATAACAGGCAGTAG

XM_004863653.1 Coding sequence

Slc25a33 solute carrier family 25 (pyrimidine nucleotide carrier), member 33

High confidence: 4 potential gene matches
Length: 966 bp    Location: 2868642..2838681   Strand: -
>XM_004863653.1
ATGGCGACCGGCAGCCAGCAGAAGGAGAACACGCTGCTTCACCTCTTCGCCGGCGGGTGTGGGGGCACAATCGGTGCCATCTTCACGTGTCCACTGGAAGTCATCAAGACCAGGCTGCAGTCCTCGCGGCTGGCTCTGCGGACTGTCTATTACCCACAAGTTCACCTGGGGACCATCAGTGGGGCCGGGGTGGTGAGACCAGCCTCCGTGACACCTGGGCTCCTGCAGGTTCTCAAGTCGATCCTGGAGAAGGAGGGACCAAGGTCACTTTTTAGAGGCTTGGGTCCAAACTTGGTCGGAGTTGCACCCTCAAGGGCTGTGTACTTTGCATGTTACTCCAAAGCCAAAGAGCAATTTAATGGCATTTTCGTGCCTAACAGCAATACTGTGCATATTTTCTCCGCTGGTTCTGCAGCTTTTGTCACAAATTCCTTAATGAACCCTATATGGATGGTCAAGACTCGGATGCAGCTAGAGCAGAAAGTGCGAGGCTCCAAGCAGATGAACACACTCCAATGTGCACGGTACGTGTACCAGACCGAGGGCATCCGAGGCTTCTACAGAGGGCTGACCGCCTCCTACGCCGGGATCTCGGAAACCATCATCTGTTTTGCCATCTACGAGAGTTTAAAGAAGTACCTGAAAGAAGCCCCATTAGCTTCTCCTGCAAATGGAACTGAGAAAAATTCCACCAGTTTTTTTGGACTCATGGCAGCTGCTGCTATTTCTAAGGGATGTGCTTCTTGCATTGCTTATCCACATGAGGTCATAAGGACAAGGCTCCGGGAGGAGGGCACCAAGTACAAGTCCTTCGTGCAGACAGCACGCCTGGTGCTCCGTGAGGAGGGCTACCTCGCCTTCTACAGGGGGCTCTTCGCCCAGCTCGTGCGGCAGATCCCGAACACGGCCATCGTGCTGTCCACCTACGAGCTCATCGTGTACCTGCTGGAGGACCATGGGCAGTGA

XM_004863665.1 Coding sequence

H6pd hexose-6-phosphate dehydrogenase (glucose 1-dehydrogenase), transcript variant X11

Length: 2370 bp    Location: 3046339..3029187   Strand: -
>XM_004863665.1
ATGCTCACGGTGGCCATGTGCGTGGCCCTCGTGGGCTGCCTGCAGGCCCAGGAGCTCCGGGGACACGTCTCCATCGTCCTGCTGGGAGCGACCGGGGACCTGGCTAAGAAGTACTTGTGGCAGGGACTGTTCCAGCTCTACCTGGACGAGGTGGGGAAGGACCATAGTTTTAGCTTCCATGGGGCTGCTCTGACGGCACCCGAGCAGGGCTGGAAGCTGATGGCCAAGGCCCTGGAATCCCTCTCCTGCCCCAGTGACATGGCACCTAGTCACTGTGCTGAACTCAAGGATCAGTTCCTGCGCCTGAGCCAGTACCGCCAGCTGAAGACAGCCGAAGACTATCGGACACTGAGCAAGGACATTGAGGCACAGGTCAAGCAAGAGGACCTCCGGGAGGCTGGCAGGATTTTCTACTTCTCCGTGCCACCCTTTGCCTATGTGGACATTGCCCGCAACATCAACAGCAGCTGCCGGCCAGGCCCGGGTGCCTGGCTGCGGGTTGTCTTTGAGAAACCCTTTGGCCATGACCACCTCTCTGCCCAGCAGCTGGCCACTGAACTTGGGAGCTTTTTCCAGGAGGAGGAGATGTACCGGGTGGACCATTACCTGGGCAAGCAGGCTGTGGCTCAGATCCTGCCCTTCCGAGACCAGAACCGCAAGGCCCTGGATGGCCTCTGGAACCGGCACCATGTGGAGCGGGTGGAGATCATCATGAAGGAGACCGTGGATGCAGAAGGTCGCATCAGCTTCTACGAGGAGTACGGCGTCATCCGAGATGTCCTGCAGAACCACCTGACCGAGATCCTCATGCTGGTGGCCATGGAGCTGCCGCTCAATGTCAGCAGCTCGGCGGCCGTGCTGCAGCACAAGCTCGAAGCCTTCCGTGGCCTGAGGGGCCTGAACAAGGGCAGCGCCGTGGTGGGCCAGTACCAGGCCTATAGCGCGCAGGCACGCAGGGAGCTGCAGAAGCCCGAGGGCTTCCACAGCCTGACTCCCACCTTCGCAGGTGTCCTCGTGCATGTGGACAGCCTGCGCTGGGAGGGTGTGCCCTTCACCCTGATGTCTGGCAAGGCCCTGGACGAGAGAGTGGGCTATGTGCGGGTCCTGTTCAAAAACCAGGCGTTCTGCATCCAGCACGAGAGGCACTGGGCCCCAGAGCAGAGCCCGTGTCTTCCCCGGCAGATCATCTTCCACATCGGACATGGTGAGCTGAGCCACCCAGCCATCCTGGTCAGCCGGAACCTGTTCAGGCCCTCCCTGCCTGCACACAGCTGGGCGGAAGTGCAGGAGAGGCCCGGGCTCCGAGTGTTGGGTCGCCCCCTGTCTGATTTCTATGCCTACAGCCCCTTGAGGGAGCGAGACGCCTACTCCATCCTCCTGTCCCACATCTTCCACGGCCGGAAAGAATCCTTCATCACCACAGAGAACTTGCTGGCTTCCTGGGATTTCTGGACCCCGTTGCTGGACAGCCTGGCCCATGAGGTCCCGCGCCTCTACCCGGGGGGAGCAGACACCGGCTGTCTGTTGGACCTGGAGTTAAATGGGGGCCACCTGTCCTTCTCCCAGCAGCAGCCCGAGCAGCTGGTCCCAGGGCCGGGGTCGGCCCCCAAGCCCAGTGACTTCCAGGTCCTCAGGGCCAGGTACCGAGAGAGCCCGCTGATCTCGGCCTGGCCTGAGGAGCTGATCTCCAGGCTGGCCAGCGACATTGAGGCCTCTGCCCTGCAGGCCGTGCAGCACTTCGGCAAGTTCCACCTGGCGCTGTCGGGTGGCTCCAGCCCCATCGCCCTGTTCCAGCAGCTGGCCATGGGCCACTACAGCTTCCCCTGGGCCCACACACACCTCTGGCTGGTGGACGAGCGCTGCGTCCCGCTGTCGGACCCTGACTCCAACTTCCAGGGCCTGCAGGCTCACCTGCTGCAGCACATCCGCTTGCCCTACTACAATATCCACCCCATGCCGGTGCACCTGCACCAGCGGCTGTGCGCGGAAGAGGACCAGGGTGCCCAGACCTATGCCGGGGAGATCTCGGCCCTGGTGGCCAACAGCAGCTTCGACCTGGTGCTGCTGGGCATGGGCACCGATGGGCACACGGCCTCCCTCTTCCCGCAGTCGCCCACGGGCCTGGACGGCGAGCAGCTGGTGGTGCTGACGCAGAGCCCCTTCAGGCCGCACCAGCGCATGAGCCTCAGCCTGCCGCTCATCAACAGGGCCAAGAAGGTGGCCGTCCTGGTCATGGGCCGGACAAAGCGTGACATCACCATGCTGGTGAGCCGTGTGGGCCAGGAGCCCAGGAAGTGGCCCATCTCAGGCGTGCTTCCCAGCTCCGGCCAGCTGGTTTGGTACATGGACTACGAAGCCTTCCTGGGGTGA

XR_206039.1 Non-coding sequence

LOC101718530 PREDICTED: Heterocephalus glaber uncharacterized LOC101718530 (LOC101718530), misc_RNA.

Length: 1604 bp     
>XR_206039.1
GTAGCCCAGGCTGGCCTGGAACTCACATTGATCCTCCTGCCTCAGGCTCCTGAGTGCTGGGACCCCAGGCCTGCGCCACTACACCGTTCCTGCCTCTAGTAGCTTTGAGGCAGAGTCTGTCAGCATCGACTCATTCCTGAATGAGCAATCTGATTCGGAGGGCAGAGGAGAGCGGAAACAACACCGCAGGAGCTGCAGAGACGCCAGACTCGTCCCATTCTGGGCAGAGGGGACCGATGGCCGAGCAGAGGCCCCGCATCCAGATGGCCACACTCAGGTTCCACATGGCAAGACATAAGCACAGGACGGGCACTCAGCCCACAGCAGGGGCCTTCTGGACCTTCACAAGCAGACCCTGGCCGCCTGGCGCAGCCTATGGACGCTTGCATCACAAACAAGGAGAGGACGTGGGGTCCCAAAGCCAGCGGGTTCTGGTGACCGGATCGATGAAGAGCCTGATAAAGCCAGATGAGGGGTAGATGCCTGCGCGCCTCTTCTTAGCACATGCTAGATCCAAGCTTTTGGGCCCAAGGGATCCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACCCCAGGCACATCCAGCCCCAGCTCGTGATGCCTGTTAACAGAATCTCAGGTGCTGCTGAAGGAAAAACTGAAAGCACACAAGATGCACTGCCTGCGTCCCTAACCAGAGGAAAAGAAGGCGGTGACCCACGGAGCCAGGCCGCCCCCCGGGGTGGGTGCCAGGCTGGCACCTCGCCCGGCTCCTCCACAGTCCCTTGTTCCAGCCACAGATGGTCACTGAGGCACCTGCACGTGTGGGGATGCCTGTGGATGGCCAGGTCCTGTCAGAAGCTGAATGAGGGACAGAGGGAGGACACCCAGGCACCCACTGCCTGGGGCAAGGCCCCGCCACCTCCCAGTGGTGCCGATGCTGGACCCGTTGAGGATTCATCTGCTCAGACGTAGGACTCTTGCAACCTTATCACTCCCGAAATGCCCACCATACCTTTACTAGCTGATTCCTGTGTTTGTGTTGCAGCACTGGGGATTGACCCCAGGGCCTTTGCACCGAGCTACATTCCTGGACCTTTTATTTTTTATTCTGAAACAAGATCCCGCTAAATTGCTCAAGCAGTGGGGACACCAATCTACAATCCTCCTGCCTCAGCCTCCCAAGTGCTGGGATTACAACCACATACCACAATAGGGGGCTGCAGCCGAGCCTTTATTTAGTGTGTGGTCTCAGGGAGCATTTTAGACCCCAACCCTAGCAGCAGCTCCCAGTTTAGGGAAGACATTCCTACCAAGGACACTGTAACACACAGTCATGTTTTGTGCGTCACTGGTACCTAATTCTTTATTGAAAGGTTTCTTTTAATCTGATTTGCTTTAGGACCAGGTTTTGCAGCTGAGGTTAGCTCACACTCCCCTTTTATAAGGCCAAGGAAATCCCAGTCCTCGGGGGGATTGTGAACGGCTTCAAGGGAGGAGAGGTGTCCACAGCCTGTACCTCCTCCCCCAACCCATACCAACAGTCAAGGCTTGGGCCAGATCCCAGCCCTGAGGAGGCTGAGGCAGGAGGACAGCCTGAGCTATATGGTGAGTTCAACGTACTCTG

XM_004863664.1 Coding sequence

H6pd hexose-6-phosphate dehydrogenase (glucose 1-dehydrogenase), transcript variant X10

Length: 2370 bp    Location: 3052101..3029187   Strand: -
>XM_004863664.1
ATGCTCACGGTGGCCATGTGCGTGGCCCTCGTGGGCTGCCTGCAGGCCCAGGAGCTCCGGGGACACGTCTCCATCGTCCTGCTGGGAGCGACCGGGGACCTGGCTAAGAAGTACTTGTGGCAGGGACTGTTCCAGCTCTACCTGGACGAGGTGGGGAAGGACCATAGTTTTAGCTTCCATGGGGCTGCTCTGACGGCACCCGAGCAGGGCTGGAAGCTGATGGCCAAGGCCCTGGAATCCCTCTCCTGCCCCAGTGACATGGCACCTAGTCACTGTGCTGAACTCAAGGATCAGTTCCTGCGCCTGAGCCAGTACCGCCAGCTGAAGACAGCCGAAGACTATCGGACACTGAGCAAGGACATTGAGGCACAGGTCAAGCAAGAGGACCTCCGGGAGGCTGGCAGGATTTTCTACTTCTCCGTGCCACCCTTTGCCTATGTGGACATTGCCCGCAACATCAACAGCAGCTGCCGGCCAGGCCCGGGTGCCTGGCTGCGGGTTGTCTTTGAGAAACCCTTTGGCCATGACCACCTCTCTGCCCAGCAGCTGGCCACTGAACTTGGGAGCTTTTTCCAGGAGGAGGAGATGTACCGGGTGGACCATTACCTGGGCAAGCAGGCTGTGGCTCAGATCCTGCCCTTCCGAGACCAGAACCGCAAGGCCCTGGATGGCCTCTGGAACCGGCACCATGTGGAGCGGGTGGAGATCATCATGAAGGAGACCGTGGATGCAGAAGGTCGCATCAGCTTCTACGAGGAGTACGGCGTCATCCGAGATGTCCTGCAGAACCACCTGACCGAGATCCTCATGCTGGTGGCCATGGAGCTGCCGCTCAATGTCAGCAGCTCGGCGGCCGTGCTGCAGCACAAGCTCGAAGCCTTCCGTGGCCTGAGGGGCCTGAACAAGGGCAGCGCCGTGGTGGGCCAGTACCAGGCCTATAGCGCGCAGGCACGCAGGGAGCTGCAGAAGCCCGAGGGCTTCCACAGCCTGACTCCCACCTTCGCAGGTGTCCTCGTGCATGTGGACAGCCTGCGCTGGGAGGGTGTGCCCTTCACCCTGATGTCTGGCAAGGCCCTGGACGAGAGAGTGGGCTATGTGCGGGTCCTGTTCAAAAACCAGGCGTTCTGCATCCAGCACGAGAGGCACTGGGCCCCAGAGCAGAGCCCGTGTCTTCCCCGGCAGATCATCTTCCACATCGGACATGGTGAGCTGAGCCACCCAGCCATCCTGGTCAGCCGGAACCTGTTCAGGCCCTCCCTGCCTGCACACAGCTGGGCGGAAGTGCAGGAGAGGCCCGGGCTCCGAGTGTTGGGTCGCCCCCTGTCTGATTTCTATGCCTACAGCCCCTTGAGGGAGCGAGACGCCTACTCCATCCTCCTGTCCCACATCTTCCACGGCCGGAAAGAATCCTTCATCACCACAGAGAACTTGCTGGCTTCCTGGGATTTCTGGACCCCGTTGCTGGACAGCCTGGCCCATGAGGTCCCGCGCCTCTACCCGGGGGGAGCAGACACCGGCTGTCTGTTGGACCTGGAGTTAAATGGGGGCCACCTGTCCTTCTCCCAGCAGCAGCCCGAGCAGCTGGTCCCAGGGCCGGGGTCGGCCCCCAAGCCCAGTGACTTCCAGGTCCTCAGGGCCAGGTACCGAGAGAGCCCGCTGATCTCGGCCTGGCCTGAGGAGCTGATCTCCAGGCTGGCCAGCGACATTGAGGCCTCTGCCCTGCAGGCCGTGCAGCACTTCGGCAAGTTCCACCTGGCGCTGTCGGGTGGCTCCAGCCCCATCGCCCTGTTCCAGCAGCTGGCCATGGGCCACTACAGCTTCCCCTGGGCCCACACACACCTCTGGCTGGTGGACGAGCGCTGCGTCCCGCTGTCGGACCCTGACTCCAACTTCCAGGGCCTGCAGGCTCACCTGCTGCAGCACATCCGCTTGCCCTACTACAATATCCACCCCATGCCGGTGCACCTGCACCAGCGGCTGTGCGCGGAAGAGGACCAGGGTGCCCAGACCTATGCCGGGGAGATCTCGGCCCTGGTGGCCAACAGCAGCTTCGACCTGGTGCTGCTGGGCATGGGCACCGATGGGCACACGGCCTCCCTCTTCCCGCAGTCGCCCACGGGCCTGGACGGCGAGCAGCTGGTGGTGCTGACGCAGAGCCCCTTCAGGCCGCACCAGCGCATGAGCCTCAGCCTGCCGCTCATCAACAGGGCCAAGAAGGTGGCCGTCCTGGTCATGGGCCGGACAAAGCGTGACATCACCATGCTGGTGAGCCGTGTGGGCCAGGAGCCCAGGAAGTGGCCCATCTCAGGCGTGCTTCCCAGCTCCGGCCAGCTGGTTTGGTACATGGACTACGAAGCCTTCCTGGGGTGA

XR_206040.1 Non-coding sequence

LOC101719111 PREDICTED: Heterocephalus glaber uncharacterized LOC101719111 (LOC101719111), misc_RNA.

Length: 934 bp     
>XR_206040.1
TCAAGCTCTGCAATGATCCTTTTGCCTCAGCCTCAAGAGTGCTGAGATTGCAGGCGTGTGCCACCGCCGGCTATTTGACCTTTGTGTTGAATCGATACAGGTGTTTAGTGCATGCTGATTACACTCCTTTCGGGGAGCGGGTCCATGTACACAATATATCTCAACTCTCTTTATTTCCCTTCCGCTGCCCTCTCCCCCTTGCATCTCTACAGAGGTCTGTCTACCTATTCCTATTGCCCATCTTTTTGTTGTTGTTCCTCTTTAAATTATTTATACTTTGGGTTTCTCATATAAGAGAAACCATGCGCTATTTCTGCTCGTGTGTCCAAGGAAGAGCAGAAGTGTAGGCCCTGGGCCCTCTTCCTTCCCTGGCCCTGCCTGGGTGTGGTTCATCACGGGCATCACACTGGTGCATGGAGCTGTGGCGGATGAACACCCGCGTGCTGAAGGGTCATGCCCTTTCTCACTGGTGGGAAGAAAGGCATGAAGACTGTCCGAGGCCACACAGAGGGATCAGAGAAAACCCAGCAGAAATGCCATGGGAGAAAGGAAACCAGCTCACCCAAGGGCTCTTGGCAAGAATCCAGGCGCTCTTGACTTGTGGCGGCATCTCAGAGAAAGGCAGGGCACACGGCGTTCCGTGGAGGATGTAGAGTACTTGTGGCCCTGCGACCTAACCCACAGGACGCAGAACCGGCTGATCTCGAGGAACAAACATGAAGATAACTGGTTGGCAGAATACTGGCTTTTCGAACGTGTCCACCTCTAATCCCCGGAATCTGAGCGTATGCAGTGTGACCAAAATATACAGTGCATGTTTAAATTTTTTAAATAATTTATCATATTTTATTAGCTATTCAGGATGGACATGTGCGTTGTTTCCATTTTTTACCACGTGCCAGTATCTTTATGAGGTGTGATCAAAACTGCGGTG

XM_004863925.1 Coding sequence

Ca6 carbonic anhydrase VI

Length: 1467 bp    Location: 3193699..3180356   Strand: -
>XM_004863925.1
ATGCCCTTCCGCCTGGGCTCTGTGTGCCAGCAAGGCCGGTCCTTGGCACCTGACGGCGTGGCGCGTGCGCGCGGGAGCCCTGCCTGCCCTTTGCCCTGCCTGAAGGGCACGGACGCTGCTGCCAGCGCTCTGAACGCCGGCTTCCCCGTACTGCCCGAGCAGTCACGTCGGCGGCGTGGTTGGCCCCGATGTGCCCAGGCGTCAGAGTCAGAGCGATCAGGCCGAATCCGGGGAGCCCCCGCCCGCCCGGCCTCTGGCCACGTGCTCGGGCGTCTCCGCAGGGGCCCCCAGATCAGCAGTGTCTGCCTGGGCCTGGGACCCCCAGTCCTGCACAGACCCTGTGCCGGGCCATCTCCCTTGCAGTCGCTGCTGGCAGCACAGGCTGCCCTGGTCCCCGCGAGACAGGCCGGAAATGCCAACCTCAGTGCCATGGGGACCCTGGCGACTCTAGTGACCCTGCTCCTCCTGTGGGCCCAGGCCCCGCGCTGGTCCCACTCTTCTGAGTGGACCTACTCAGTGCCCTGCCGAAGCTTCAGGCTGCAGGAAGAGGAGGGTCCCGAGGATGAAGGCCCCATCCTCCTGGGCTTGGCCCAGCTGCAAGGCGGGGAGCTGGACAAGGAGCACTGGCCGCGGGAGTTCCCTGAGTGCGCGGGCAGGCGGCAGTCGCCCATCGACCTGCAGAGGCGGAAGGTGCGCTTCAACCCGGCCCTGACGGCGCTGGACCTTGAGGGCTACGGGGACAACCAGGCTGGCCAGTTCCCCATGACCAACAACGGCCACACGGTGCAGATTAGCCTGCCCTCCAGCATGCGCATGACAGCCTCCGACGGCACGGAGTACCTCGCCGTGCAGATGCACTACCACTGGGGCGGCGCGTCCTCCGAGGTCAGCGGCTCCGAGCACACCGTCGACGGGATCCGCCGGGCCATGGAGATTCACGTGGTTCACTACAATGCCAAATATGAGAGCTACGATGTGGCCAAAGACGCCCCAGGTGGCCTGGCGGTGCTGGCCGCCTTTGTGGAGATTGAGGACTACGCTGAAAACACGTACTACAGCAACTTCATCTCCCACCTGGACCGCGTCAAGTACGCAGGACAAAGCACGGTGCTCAGCAGCCTCACTGTCCTGGACATGCTGCCCGAGGACCTCCTCCACTACTACAGCTACGAGGGCTCCCTCACCACGCCGCCCTGCACGCAGAACGTGCGCTGGTTCGTGCTGGCCAACTCCGTGAAACTCTCGAGGACTCAGGTCTGGAAGATCGAGAACACGCTGCTGACGCACCGCAATCGGACGCTGCACAACGGGTACCGCAGCGCCCAGCCGCTGCACGGCAGGGTGGTGGAGGCCAACTTCCGCTACTTCCCCGACCCCCGCTCCGAGTACAAGTTTTACCTGGACAGGATAGAGAACAACATCCAGTACTTGGTTGGCTCTCTGGAGGAAGCGAAGCGCCGGCTCTAA

XM_004863666.1 Coding sequence

Slc2a5 solute carrier family 2 (facilitated glucose/fructose transporter), member 5

High confidence: 4 potential gene matches
Length: 1509 bp    Location: 3135376..3156184   Strand: +
>XM_004863666.1
ATGGAGCAGCCGCCCGACCCACAGAAGAAGAAAGGGAGGCTGACACTGGTGCTCTCCCTGGCCACCCTGATCGCCGCCTTCGGATCGTCCTTCCAGTATGGGTACAACGTGTCCGCGGTCAACTCACCTTCGGAGTTCATGAAGCAGTTTTACAATGAGACTCACTACACCCGCACCGGGGAGCCCATGGCGTCCTTCTCCCTGACCCTGCTGTGGTCTGTGACCGTGTCCATGTTCCCGTTTGGGGGCTTCATCGGCTCCCTCCTGGTCGGCCCCTTGGTGAATAAATTCGGCAGGAAAGGGGCCCTGCTGTTCAACAACATATTTTCCATCGTGCCCGCAATCTTGATGGGGTGCAGCAAGGTAGCCAAGTCCTTCGAGCTCATCATAGTCTCCCGGCTCCTGGTGGGCATCTGTGCAGGTGTGTCTTCCAATGTGGTCCCCATGTACTTAGGGGAGCTGGCCCCCAAAAACCTGCGGGGGGCCCTGGGGGTGGTGCCCCAGCTCTTCATCACCGTCGGCATCCTGGTGGCCCAGCTGTTCGGTTTTCGGAACGCCCTGGCAAGTGAGAATGGCTGGCCCATCCTCCTGGGGCTGACCGGGGTCCCCGCGGCGCTGCAGCTGGTCCTGCTGCCCTTCTTCCCTGAGAGCCCGAGGTACCTGCTGATTGAGAAGCGGGATGAAGATGCCACCAGGAAGGCCCTGCGGAGGCTGCGTGGCCGCGCCGATGTGGCCGAGGACATGGAGGAGATCCGGCAGGAGGACCAGGCCGAGAAGGCGGCCGGCTCTGTGTCCGTGTGGATGCTGTTCCGCCTGCGCAGCCTGCGCTGGCAGCTCATCTCCGTCGTGGTGCTCATGGCCGGGCAGCAGCTGTCGGGCGTGAACGCGATCTACTACTACGCAGACCAGATCTACCTGAGCGCTGGCGTCGGGGCCAATGACGTGCAGTACGTGACAGCCGGCACAGGCGCCGTCAACGTGCTCATGACCGTCTGCACCGTGTTCGTGGTGGAGCTCTGGGGCCGGCGCCTGCTGCTCCTCCTTGGCTTCTCCACCTGCCTCTTGGCCTGCGTGGTGCTCACAGTGGCCCTGGCGCTGCAGGACCAGCTGTCCTGGATGCCCTACGTCAGCATCGCCTGCGTCATCATCTACGTCATAGGACATGCCGTTGGGCCCAGCCCCATCCCAGCGCTGCTCATCACTGAGATCTTCCTGCAGTCCTCGAGGCCGGCCGCCTTCATGGTCGGGGGCAGCGTGCACTGGCTGTCCAACTTCACCGTGGGCCTCGTCTTCCCGTTCATCCAGGAGGGCCTGGGCCCCTACAGCTTCATCATCTTCGCGGTGATCTGCCTGCTCACCACCATCTACATCTCCCTGATCATCCCCGAGACCAAGAAAAAGACCTTCATCGAGATCAACCAGACCTTCGCCAAGATGAACAAGGTGTCCCAGGTCCACGCCGAGAAGGAGGAGCTGGCCGACTTCCCTCCGGCCGCCTCTCGGCAGTGA

XM_004863668.1 Coding sequence

Eno1 enolase 1, (alpha), transcript variant X2

High confidence: 1 potential gene match
Length: 1305 bp    Location: 3223307..3235128   Strand: +
>XM_004863668.1
ATGTCTATTCTCAAGATCCATGCCCGAGAGATCTTTGACTCTCGTGGGAACCCCACTGTTGAAGTTGATCTCTACACAGACAAAGGTCTCTTCCGAGCTGCTGTCCCCAGCGGCGCCTCCACTGGCATCTATGAGGCCCTGGAGCTGCGTGACAATGACAAGACCCGCTACATGGGCAAGGGTGTGTCAAAGGCTGTTGAGCACATCAATAAAACTATTGCACCTGCCCTGGTTAGCAAGAAACTGAATGTGGTGGAGCAGGAGAAGATCGACAAGCTGATGATCGAGATGGACGGGACGGAGAACAAATCTAAGTTCGGGGCCAATGCCATCCTGGGGGTGTCACTCGCCGTATGCAAGGCTGGTGCCGTGGAGAAGGGGGTGCCCTTGTACCGCCACATCGCCGACCTGGCCGGCAACGCTGAGGTCATCCTGCCTGTCCCGGCCTTCAACGTGATCAACGGCGGCTCCCACGCGGGCAACAAGCTGGCCATGCAGGAGTTCATGATCCTGCCCGTGGGGGCGGCGAGCTTCCAGGAGGCCATGCGCATTGGCGCCGAGGTCTACCACAGCCTGAAGGGCGTCATCAAGGACAAGTACGGGAAGGACGCCACCAACGTGGGCGACGAGGGGGGCTTCGCGCCCAACATCCTGGAGAACAAGGAAGCCCTGGAGCTGCTGAAGAACGCCATCGGGAAGGCCGGCTACACGGACAAGGTGGTGATCGGCATGGACGTGGCCGCGTCTGAGTTTTTCCGTTCCGGGAAGTATGACCTGGACTTCAAGTCCCCCGACGACCCCAGCAGGTACATCTCGCCTGACCAGCTGGCCGACCTCTACAAGTCCTTCATCAGGGACTACCCAGTGGTGTCCATCGAGGACCCCTTCGACCAGGACGACTGGCAGGCCTGGCAGAAGTTCACAGGCAGCGCGGGCATCCAGGTGGTGGGTGATGACCTCACGGTGACCAACCCCAAGCGCATCGCCAAGGCCGTGAGCGAGAAGGCCTGCAACTGCCTGCTGCTGAAGGTCAACCAGATTGGCTCGGTGACCGAGTCCCTGCAGGCGTGCAAGCTTGCCCAGTCCAACGGCTGGGGCGTCATGGTGTCCCACCGCTCTGGGGAGACGGAGGACACCTTCATTGCTGACCTGGTGGTGGGACTCAGCACCGGGCAGATCAAGACTGGTGCACCATGCCGATCCGAGCGCCTGGCCAAGTACAACCAGATCCTCAGAATCGAGGAGGAGCTGGGCAGCAAGGCCAAGTTCGCCGGCAGGAACTTCAGAAACCCCATGGCCAAGTAG

XM_004863672.1 Coding sequence

Rere arginine-glutamic acid dipeptide (RE) repeats, transcript variant X4

High confidence: 4 potential gene matches
Length: 4632 bp    Location: 3256345..3648634   Strand: +
>XM_004863672.1
ATGACAGCTGATAAAGACAAAGACAAAGACAAAGAGAAGGACCGGGACCGAGATCGGGACCGAGAAAGAGATAAAAGAGATAAAGCAAGAGAGAGTGAGAATTCAAGGCCACGCAGGAGCTGCACCTTGGAAGGAGGAGCCAAAAATTATGCTGAGAGCGATCACAGTGAAGATGAGGACAATGACAACAATGGTGCCACCACTGAAGAGTCCACCAAGAAGAACAAGAAGAAACCACCCAAAAAAAAATCTCGTTACGAAAGGACAGACACTGGTGAGATAACATCCTACATCACTGAGGATGATGTTGTCTACAGACCAGGAGACTGTGTGTATATCGAGAGTCGGAGGCCAAACACACCGTATTTCATCTGTAGCATTCAAGACTTCAAACTGGTCCACAACTCCCAGGCCTGTTGCAGATCTCCAACTCCTGCTTTGTGTGACCCCCCAGCATGCTCTCTGCCGGTGGCATCACAGCCACCACAACATCTTTCTGAAGCCGGGAGAGGGCCTGTAGGGAGTAAGAGGGACCATCTACTCATGAACGTCAAATGGTACTACCGTCAGTCTGAAGTTCCAGATTCTGTGTATCAGCATTTGGTTCAGGATCGGCATAATGAAAATGACTCTGGAAGAGAACTTGTCATTACAGACCCCGTTATCAAGAACCGAGAGCTCTTCATTTCTGATTACGTTGACACATACCATGCTGCTGCTCTTAGAGGGAAGTGTAACATCTCCCATTTTTCTGACATATTCGCTGCTAGAGAATTCAAAGCCCGAGTGGACTCATTTTTCTACATATTAGGCTACAACCCTGAGACAAGGAGGCTGAACAGTACTCAGGGGGAAATTCGCGTTGGTCCTAGCCATCAGGCCAAACTTCCAGATTTGCAGCCATTTCCTTCTCCAGATGGGGATACTGTGACCCAGCATGAGGAGTTGGTCTGGATGCCTGGAGTGAATGACTGTGACCTCCTTATGTACTTGAGGGCAGCAAGGAGCATGGCAGCATTTGCAGGGATGTGTGATGGCGGCTCCACGGAGGACGGCTGTGTCGCTGCGTCTCGTGATGACACCACCCTCAATGCGCTGAACACACTACATGAGAGCAGTTACGACGCTGGCAAAGCCCTGCAGCGCCTGGTAAAGAAGCCTGTGCCCAAGCTGATCGAGAAGTGCTGGACTGAAGATGAAGTGAAACGCTTCGTTAAGGGACTCAGGCAGTACGGGAAGAACTTCTTCAGAATTAGAAAGGAGCTGCTTCCCAATAAGGAAACAGGGGAGCTGATCACCTTCTATTACTACTGGAAGAAAACCCCCGAAGCAGCCAGCTCCCGAGCCCATCGCCGGCACCGCAGGCAGGCTGTGTTCAGGAGGATTAAGACCCGGACTGCGTCCACACCGGTCAACACGCCCTCCAGACCACCCTCCAGTGAATTCTTGGACCTGAGTTCAGCCAGCGAAGATGACTTCGACAGTGAGGACAGCGAGCAGGAGTTGAAGGGGTACGCCTGCCGCCACTGCTTCACCACCACCTCCAAAGACTGGCACCACGGGGGCCGGGAGAACATCCTGCTCTGCACCGACTGCCGCATCCACTTCAAGAAGTACGGCGAGCTGCCACCCATCGAGAAGCCGGTGGACCCCCCGCCGTTCATGTTCAAGCCTGTCAAGGAGGAGGACGATGGGCTCGGTGGGAAGCATAGCATGAGGACGCGGCGGAGTCGGGGCTCGATGTCTACACTACGTAGTGGTCGGAAGAAGCAGCCCGCCAGCCCCGATGGTCCTGCCTCTCCCATCAATGAAGACATCCGCTCCAGCGGTCGCACCTCCCCCAGCGCTGCCAGCACCTCCAGCAATGACAGCAAAACAGAGACAGTGAAGAAGTCTGCCAAGAAGGTGAAGGAGGAGGCCTCGTCGCCTCTCAAGAGCACCAAGCGCCAGCGGGAGAAGGTGGCGTCTGACACAGAGGAGGCCGACAGGAACAGCTCCAAGAAGACAAAAACCCAGGAGCTCAGCCGGCCCAACTCGCCCTCCGAAGGGGAGGGAGAGAGCTCGGATAGTCGCAGTGTCAACGATGAGGGTAGCAGTGACCCCAAAGACATCGACCAGGACAATCGCAGCACGTCCCCCAGCATCCCCAGCCCTCAGGACAATGAGAGTGACTCAGACTCCTCTGCTCAGCAGCAGATGCTGCAGGCCCAGCCCCCAGCCTTGCAGGCTCCCCCAACAGCGCCCCCAGGAACCGCCCAGCTCCCCACCCCAGGACCCACGCCCTCCACTACTGCAGCCCCTCCACAGGGCTCCCTGGCAGCCGCACAGCCCCCGAACCAGTCTCAAGCACCCGCGGCGCAGGCCACCCTCAGCCACATCCAGCAGGCGCCCGTGCTGCACCCTCCGAGGCTGCCCTCGCCACACCCCCCGCTGCAGCCGCTGAGTGGGCCCGTGGGCCAGACTCCTGCGGCCCACACCCAGCCGGGTCTGCACAGCCAGGGCCCGCCTGGCCCTCATGGCCTGCAGGCAGGGTCACTGCTGCAGCACCCTGGCCCCCCGCAGCCCTTCGCCCTCCCTCCCCAGGCTGCCCAGGCACAGGCCCCTCTGGGGGCTGTCGCAGCCACAGCTCACCCCCATGCCGCCCTGCAGCTCCCGGCCTCTTCGGGGCTGCAGCCTCAACAGCCCCCCCGCGAGCAGCCCCTGCCGCCGGCGCCCCTGGCCATGCCTCACATCAAGCCCCCTCCCACCACGCCCATCCCCCAGCTCCCGGCCCCGCAGGCCCACAAGCACCCGCCACACCTCTCCGGGCCCTCCCCCTTCTCCATGAATGCCAACCTGCCGCCCCCTCCCGCTCTGAAGCCCCTCAGCTCCCTGTCCACACACCACCCGCCCTCAGCCCACCCCCCGCCACTGCAGCTCATGCCGCAGAGCCAGCCCCTACCCTCCTCCCCGGCCCAGCCCCCTGGGCTGACCCAGAGCCAGGGTCTTGCACCCCCTGCCCCTGCCCATGCCCCTGCCAGCCTCCACCAGGGGCCCCCGCAGGCCCCCTTCACCCAGCACCCCTTTGGCCCAGGTGGCACCCCACCCATCTGTCCACCCACCTCTACCCCGCCTGCGGGCCCCAGCACCTCTGCCCAGCCTCCCTGCTCTGCTGCCCTGTCTTCAGGGGGGACCACGCCAGGGGGGGCGCCCTGCCCACTCCCCGCTGTCCAGATCAAGGAGGAGGCTCTGGATGATGCCGAAGAGCCCGAGAGCCCCCCGCCCGCACCGCGGAGCCCGTCCCCTGAGCCCACTGTGGTGGACACCCCCAGCCACGCCAGCCAGTCTGCCAGGTTCTACAAGCACCTGGACCGGGGTTACAACTCGTGCGCACGGACAGACCTGTACTTCATGCCTCTGGCTGGGTCCAAGCTATCCAAGAAGAGGGAGGAGGCCATCGAGAAGGCCAAACGGGAGGCAGAGCAGAAAGCCCGAGAGGAGCGCGAGCGGGAGAAGGAGAAGGAGCGGGAGCGCGAGCGGGAGCGCGAGCGGGAGGCTGAGCGGGCAGCTAAAGCATCCAGCTCTGCACACGAAGGCCGCCTCAGTGACCCTCAGCTCAGCGGTCCAGGCCACATGCGGCCCTCCTTCGAGCCGCCTCCAACCACCATCGCCGCCGTGCCCCCCTACATCGGGCCCGACACCCCGGCGCTGCGGACACTGAGCGAGTACGCTCGGCCCCACGTCATGTCTCCCACCAACCGCAACCACCCCTTCTATATGCCCCTGAACCCCACTGATCCCCTGCTGGCCTACCACATGCCCGGCCTCTACAACGTGGACCCCACCATCCGGGAGCGGGAGCTCCGGGAGCGGGAGATCCGGGAGCGGGAGATCCGGGAGCGGGAGCTGCGAGAGCGCATGAAGCCGGGCTTCGAGGTGAAGCCCCCGGAGCTGGACCCCCTGCACCCAGCCACCAACCCCATGGAGCACTTCGCACGGCACAGTGCCCTCACCATCCCGCCCTCGGCCGGCCCCCATCCTTTCGCCTCTTTCCACCCGGGCCTGAACCCCTTGGAGCGGGAGAGACTGGCCTTGGCAGGCCCCCAGCTGCGGCCCGAAATGAGCTACCCCGACAGACTGGCCGCCGAGCGCATCCACGCCGAGCGCATGGCGTCGCTTACCAGTGACCCCCTGGCCCGGCTGCAGATGTTCAATGTGACTCCGCACCACCACCAGCACTCCCACATCCACTCGCACCTCCACCTCCACCAGCAGGACCCCCTCCACCAAGGCTCAGCAGGCCCAGTTCATCCCTTGGTTGACCCCCTGACTGCTGGCCCTCACCTGGCTCGCTTCCCCTACCCACCCGGCACCCTCCCCAGCCCTCTGCTGGGTCAGCCCCCCCACGAGCACGAGATGCTGCGCCACCCTGTCTTCGGCACCCCCTATCCCCGAGACCTGCCTGGGGCCATCCCACCCCCCATGTCGGCAGCCCACCAGCTGCAGGCCATGCACGCCCAGTCAGCTGAGCTGCAGAGACTGGCCATGGAGCAGCAGTGGCTGCATGGACACCCCCACATGCATGGTGGCCATCTACCGAGTCAGGAGGATTATTACAGTCGACTGAAGAAAGAAGGTGACAAGCAGTTATAA

XM_004863673.1 Coding sequence

Rere arginine-glutamic acid dipeptide (RE) repeats, transcript variant X5

Length: 4509 bp    Location: 3256345..3648634   Strand: +
>XM_004863673.1
ATGACAGCTGATAAAGACAAAGACAAAGACAAAGAGAAGGACCGGGACCGAGATCGGGACCGAGAAAGAGATAAAAGAGATAAAGCAAGAGAGAGTGAGAATTCAAGGCCACGCAGGAGCTGCACCTTGGAAGGAGGAGCCAAAAATTATGCTGAGAGCGATCACAGTGAAGATGAGGACAATGACAACAATGGTGCCACCACTGAAGAGTCCACCAAGAAGAACAAGAAGAAACCACCCAAAAAAAAATCTCGTTACGAAAGGACAGACACTGGTGAGATAACATCCTACATCACTGAGGATGATGTTGTCTACAGACCAGGAGACTGTGTGTATATCGAGAGTCGGAGGCCAAACACACCGTATTTCATCTGTAGCATTCAAGACTTCAAACTGAGTAAGAGGGACCATCTACTCATGAACGTCAAATGGTACTACCGTCAGTCTGAAGTTCCAGATTCTGTGTATCAGCATTTGGTTCAGGATCGGCATAATGAAAATGACTCTGGAAGAGAACTTGTCATTACAGACCCCGTTATCAAGAACCGAGAGCTCTTCATTTCTGATTACGTTGACACATACCATGCTGCTGCTCTTAGAGGGAAGTGTAACATCTCCCATTTTTCTGACATATTCGCTGCTAGAGAATTCAAAGCCCGAGTGGACTCATTTTTCTACATATTAGGCTACAACCCTGAGACAAGGAGGCTGAACAGTACTCAGGGGGAAATTCGCGTTGGTCCTAGCCATCAGGCCAAACTTCCAGATTTGCAGCCATTTCCTTCTCCAGATGGGGATACTGTGACCCAGCATGAGGAGTTGGTCTGGATGCCTGGAGTGAATGACTGTGACCTCCTTATGTACTTGAGGGCAGCAAGGAGCATGGCAGCATTTGCAGGGATGTGTGATGGCGGCTCCACGGAGGACGGCTGTGTCGCTGCGTCTCGTGATGACACCACCCTCAATGCGCTGAACACACTACATGAGAGCAGTTACGACGCTGGCAAAGCCCTGCAGCGCCTGGTAAAGAAGCCTGTGCCCAAGCTGATCGAGAAGTGCTGGACTGAAGATGAAGTGAAACGCTTCGTTAAGGGACTCAGGCAGTACGGGAAGAACTTCTTCAGAATTAGAAAGGAGCTGCTTCCCAATAAGGAAACAGGGGAGCTGATCACCTTCTATTACTACTGGAAGAAAACCCCCGAAGCAGCCAGCTCCCGAGCCCATCGCCGGCACCGCAGGCAGGCTGTGTTCAGGAGGATTAAGACCCGGACTGCGTCCACACCGGTCAACACGCCCTCCAGACCACCCTCCAGTGAATTCTTGGACCTGAGTTCAGCCAGCGAAGATGACTTCGACAGTGAGGACAGCGAGCAGGAGTTGAAGGGGTACGCCTGCCGCCACTGCTTCACCACCACCTCCAAAGACTGGCACCACGGGGGCCGGGAGAACATCCTGCTCTGCACCGACTGCCGCATCCACTTCAAGAAGTACGGCGAGCTGCCACCCATCGAGAAGCCGGTGGACCCCCCGCCGTTCATGTTCAAGCCTGTCAAGGAGGAGGACGATGGGCTCGGTGGGAAGCATAGCATGAGGACGCGGCGGAGTCGGGGCTCGATGTCTACACTACGTAGTGGTCGGAAGAAGCAGCCCGCCAGCCCCGATGGTCCTGCCTCTCCCATCAATGAAGACATCCGCTCCAGCGGTCGCACCTCCCCCAGCGCTGCCAGCACCTCCAGCAATGACAGCAAAACAGAGACAGTGAAGAAGTCTGCCAAGAAGGTGAAGGAGGAGGCCTCGTCGCCTCTCAAGAGCACCAAGCGCCAGCGGGAGAAGGTGGCGTCTGACACAGAGGAGGCCGACAGGAACAGCTCCAAGAAGACAAAAACCCAGGAGCTCAGCCGGCCCAACTCGCCCTCCGAAGGGGAGGGAGAGAGCTCGGATAGTCGCAGTGTCAACGATGAGGGTAGCAGTGACCCCAAAGACATCGACCAGGACAATCGCAGCACGTCCCCCAGCATCCCCAGCCCTCAGGACAATGAGAGTGACTCAGACTCCTCTGCTCAGCAGCAGATGCTGCAGGCCCAGCCCCCAGCCTTGCAGGCTCCCCCAACAGCGCCCCCAGGAACCGCCCAGCTCCCCACCCCAGGACCCACGCCCTCCACTACTGCAGCCCCTCCACAGGGCTCCCTGGCAGCCGCACAGCCCCCGAACCAGTCTCAAGCACCCGCGGCGCAGGCCACCCTCAGCCACATCCAGCAGGCGCCCGTGCTGCACCCTCCGAGGCTGCCCTCGCCACACCCCCCGCTGCAGCCGCTGAGTGGGCCCGTGGGCCAGACTCCTGCGGCCCACACCCAGCCGGGTCTGCACAGCCAGGGCCCGCCTGGCCCTCATGGCCTGCAGGCAGGGTCACTGCTGCAGCACCCTGGCCCCCCGCAGCCCTTCGCCCTCCCTCCCCAGGCTGCCCAGGCACAGGCCCCTCTGGGGGCTGTCGCAGCCACAGCTCACCCCCATGCCGCCCTGCAGCTCCCGGCCTCTTCGGGGCTGCAGCCTCAACAGCCCCCCCGCGAGCAGCCCCTGCCGCCGGCGCCCCTGGCCATGCCTCACATCAAGCCCCCTCCCACCACGCCCATCCCCCAGCTCCCGGCCCCGCAGGCCCACAAGCACCCGCCACACCTCTCCGGGCCCTCCCCCTTCTCCATGAATGCCAACCTGCCGCCCCCTCCCGCTCTGAAGCCCCTCAGCTCCCTGTCCACACACCACCCGCCCTCAGCCCACCCCCCGCCACTGCAGCTCATGCCGCAGAGCCAGCCCCTACCCTCCTCCCCGGCCCAGCCCCCTGGGCTGACCCAGAGCCAGGGTCTTGCACCCCCTGCCCCTGCCCATGCCCCTGCCAGCCTCCACCAGGGGCCCCCGCAGGCCCCCTTCACCCAGCACCCCTTTGGCCCAGGTGGCACCCCACCCATCTGTCCACCCACCTCTACCCCGCCTGCGGGCCCCAGCACCTCTGCCCAGCCTCCCTGCTCTGCTGCCCTGTCTTCAGGGGGGACCACGCCAGGGGGGGCGCCCTGCCCACTCCCCGCTGTCCAGATCAAGGAGGAGGCTCTGGATGATGCCGAAGAGCCCGAGAGCCCCCCGCCCGCACCGCGGAGCCCGTCCCCTGAGCCCACTGTGGTGGACACCCCCAGCCACGCCAGCCAGTCTGCCAGGTTCTACAAGCACCTGGACCGGGGTTACAACTCGTGCGCACGGACAGACCTGTACTTCATGCCTCTGGCTGGGTCCAAGCTATCCAAGAAGAGGGAGGAGGCCATCGAGAAGGCCAAACGGGAGGCAGAGCAGAAAGCCCGAGAGGAGCGCGAGCGGGAGAAGGAGAAGGAGCGGGAGCGCGAGCGGGAGCGCGAGCGGGAGGCTGAGCGGGCAGCTCAGAAAGCATCCAGCTCTGCACACGAAGGCCGCCTCAGTGACCCTCAGCTCAGCGGTCCAGGCCACATGCGGCCCTCCTTCGAGCCGCCTCCAACCACCATCGCCGCCGTGCCCCCCTACATCGGGCCCGACACCCCGGCGCTGCGGACACTGAGCGAGTACGCTCGGCCCCACGTCATGTCTCCCACCAACCGCAACCACCCCTTCTATATGCCCCTGAACCCCACTGATCCCCTGCTGGCCTACCACATGCCCGGCCTCTACAACGTGGACCCCACCATCCGGGAGCGGGAGCTCCGGGAGCGGGAGATCCGGGAGCGGGAGATCCGGGAGCGGGAGCTGCGAGAGCGCATGAAGCCGGGCTTCGAGGTGAAGCCCCCGGAGCTGGACCCCCTGCACCCAGCCACCAACCCCATGGAGCACTTCGCACGGCACAGTGCCCTCACCATCCCGCCCTCGGCCGGCCCCCATCCTTTCGCCTCTTTCCACCCGGGCCTGAACCCCTTGGAGCGGGAGAGACTGGCCTTGGCAGGCCCCCAGCTGCGGCCCGAAATGAGCTACCCCGACAGACTGGCCGCCGAGCGCATCCACGCCGAGCGCATGGCGTCGCTTACCAGTGACCCCCTGGCCCGGCTGCAGATGTTCAATGTGACTCCGCACCACCACCAGCACTCCCACATCCACTCGCACCTCCACCTCCACCAGCAGGACCCCCTCCACCAAGGCTCAGCAGGCCCAGTTCATCCCTTGGTTGACCCCCTGACTGCTGGCCCTCACCTGGCTCGCTTCCCCTACCCACCCGGCACCCTCCCCAGCCCTCTGCTGGGTCAGCCCCCCCACGAGCACGAGATGCTGCGCCACCCTGTCTTCGGCACCCCCTATCCCCGAGACCTGCCTGGGGCCATCCCACCCCCCATGTCGGCAGCCCACCAGCTGCAGGCCATGCACGCCCAGTCAGCTGAGCTGCAGAGACTGGCCATGGAGCAGCAGTGGCTGCATGGACACCCCCACATGCATGGTGGCCATCTACCGAGTCAGGAGGATTATTACAGTCGACTGAAGAAAGAAGGTGACAAGCAGTTATAA

XM_004863674.1 Coding sequence

Rere arginine-glutamic acid dipeptide (RE) repeats, transcript variant X6

Length: 3831 bp    Location: 3509794..3648634   Strand: +
>XM_004863674.1
ATGGATGACCCACTCGGCCCCTGCAGGAGGCTGAACAGTACTCAGGGGGAAATTCGCGTTGGTCCTAGCCATCAGGCCAAACTTCCAGATTTGCAGCCATTTCCTTCTCCAGATGGGGATACTGTGACCCAGCATGAGGAGTTGGTCTGGATGCCTGGAGTGAATGACTGTGACCTCCTTATGTACTTGAGGGCAGCAAGGAGCATGGCAGCATTTGCAGGGATGTGTGATGGCGGCTCCACGGAGGACGGCTGTGTCGCTGCGTCTCGTGATGACACCACCCTCAATGCGCTGAACACACTACATGAGAGCAGTTACGACGCTGGCAAAGCCCTGCAGCGCCTGGTAAAGAAGCCTGTGCCCAAGCTGATCGAGAAGTGCTGGACTGAAGATGAAGTGAAACGCTTCGTTAAGGGACTCAGGCAGTACGGGAAGAACTTCTTCAGAATTAGAAAGGAGCTGCTTCCCAATAAGGAAACAGGGGAGCTGATCACCTTCTATTACTACTGGAAGAAAACCCCCGAAGCAGCCAGCTCCCGAGCCCATCGCCGGCACCGCAGGCAGGCTGTGTTCAGGAGGATTAAGACCCGGACTGCGTCCACACCGGTCAACACGCCCTCCAGACCACCCTCCAGTGAATTCTTGGACCTGAGTTCAGCCAGCGAAGATGACTTCGACAGTGAGGACAGCGAGCAGGAGTTGAAGGGGTACGCCTGCCGCCACTGCTTCACCACCACCTCCAAAGACTGGCACCACGGGGGCCGGGAGAACATCCTGCTCTGCACCGACTGCCGCATCCACTTCAAGAAGTACGGCGAGCTGCCACCCATCGAGAAGCCGGTGGACCCCCCGCCGTTCATGTTCAAGCCTGTCAAGGAGGAGGACGATGGGCTCGGTGGGAAGCATAGCATGAGGACGCGGCGGAGTCGGGGCTCGATGTCTACACTACGTAGTGGTCGGAAGAAGCAGCCCGCCAGCCCCGATGGTCCTGCCTCTCCCATCAATGAAGACATCCGCTCCAGCGGTCGCACCTCCCCCAGCGCTGCCAGCACCTCCAGCAATGACAGCAAAACAGAGACAGTGAAGAAGTCTGCCAAGAAGGTGAAGGAGGAGGCCTCGTCGCCTCTCAAGAGCACCAAGCGCCAGCGGGAGAAGGTGGCGTCTGACACAGAGGAGGCCGACAGGAACAGCTCCAAGAAGACAAAAACCCAGGAGCTCAGCCGGCCCAACTCGCCCTCCGAAGGGGAGGGAGAGAGCTCGGATAGTCGCAGTGTCAACGATGAGGGTAGCAGTGACCCCAAAGACATCGACCAGGACAATCGCAGCACGTCCCCCAGCATCCCCAGCCCTCAGGACAATGAGAGTGACTCAGACTCCTCTGCTCAGCAGCAGATGCTGCAGGCCCAGCCCCCAGCCTTGCAGGCTCCCCCAACAGCGCCCCCAGGAACCGCCCAGCTCCCCACCCCAGGACCCACGCCCTCCACTACTGCAGCCCCTCCACAGGGCTCCCTGGCAGCCGCACAGCCCCCGAACCAGTCTCAAGCACCCGCGGCGCAGGCCACCCTCAGCCACATCCAGCAGGCGCCCGTGCTGCACCCTCCGAGGCTGCCCTCGCCACACCCCCCGCTGCAGCCGCTGAGTGGGCCCGTGGGCCAGACTCCTGCGGCCCACACCCAGCCGGGTCTGCACAGCCAGGGCCCGCCTGGCCCTCATGGCCTGCAGGCAGGGTCACTGCTGCAGCACCCTGGCCCCCCGCAGCCCTTCGCCCTCCCTCCCCAGGCTGCCCAGGCACAGGCCCCTCTGGGGGCTGTCGCAGCCACAGCTCACCCCCATGCCGCCCTGCAGCTCCCGGCCTCTTCGGGGCTGCAGCCTCAACAGCCCCCCCGCGAGCAGCCCCTGCCGCCGGCGCCCCTGGCCATGCCTCACATCAAGCCCCCTCCCACCACGCCCATCCCCCAGCTCCCGGCCCCGCAGGCCCACAAGCACCCGCCACACCTCTCCGGGCCCTCCCCCTTCTCCATGAATGCCAACCTGCCGCCCCCTCCCGCTCTGAAGCCCCTCAGCTCCCTGTCCACACACCACCCGCCCTCAGCCCACCCCCCGCCACTGCAGCTCATGCCGCAGAGCCAGCCCCTACCCTCCTCCCCGGCCCAGCCCCCTGGGCTGACCCAGAGCCAGGGTCTTGCACCCCCTGCCCCTGCCCATGCCCCTGCCAGCCTCCACCAGGGGCCCCCGCAGGCCCCCTTCACCCAGCACCCCTTTGGCCCAGGTGGCACCCCACCCATCTGTCCACCCACCTCTACCCCGCCTGCGGGCCCCAGCACCTCTGCCCAGCCTCCCTGCTCTGCTGCCCTGTCTTCAGGGGGGACCACGCCAGGGGGGGCGCCCTGCCCACTCCCCGCTGTCCAGATCAAGGAGGAGGCTCTGGATGATGCCGAAGAGCCCGAGAGCCCCCCGCCCGCACCGCGGAGCCCGTCCCCTGAGCCCACTGTGGTGGACACCCCCAGCCACGCCAGCCAGTCTGCCAGGTTCTACAAGCACCTGGACCGGGGTTACAACTCGTGCGCACGGACAGACCTGTACTTCATGCCTCTGGCTGGGTCCAAGCTATCCAAGAAGAGGGAGGAGGCCATCGAGAAGGCCAAACGGGAGGCAGAGCAGAAAGCCCGAGAGGAGCGCGAGCGGGAGAAGGAGAAGGAGCGGGAGCGCGAGCGGGAGCGCGAGCGGGAGGCTGAGCGGGCAGCTCAGAAAGCATCCAGCTCTGCACACGAAGGCCGCCTCAGTGACCCTCAGCTCAGCGGTCCAGGCCACATGCGGCCCTCCTTCGAGCCGCCTCCAACCACCATCGCCGCCGTGCCCCCCTACATCGGGCCCGACACCCCGGCGCTGCGGACACTGAGCGAGTACGCTCGGCCCCACGTCATGTCTCCCACCAACCGCAACCACCCCTTCTATATGCCCCTGAACCCCACTGATCCCCTGCTGGCCTACCACATGCCCGGCCTCTACAACGTGGACCCCACCATCCGGGAGCGGGAGCTCCGGGAGCGGGAGATCCGGGAGCGGGAGATCCGGGAGCGGGAGCTGCGAGAGCGCATGAAGCCGGGCTTCGAGGTGAAGCCCCCGGAGCTGGACCCCCTGCACCCAGCCACCAACCCCATGGAGCACTTCGCACGGCACAGTGCCCTCACCATCCCGCCCTCGGCCGGCCCCCATCCTTTCGCCTCTTTCCACCCGGGCCTGAACCCCTTGGAGCGGGAGAGACTGGCCTTGGCAGGCCCCCAGCTGCGGCCCGAAATGAGCTACCCCGACAGACTGGCCGCCGAGCGCATCCACGCCGAGCGCATGGCGTCGCTTACCAGTGACCCCCTGGCCCGGCTGCAGATGTTCAATGTGACTCCGCACCACCACCAGCACTCCCACATCCACTCGCACCTCCACCTCCACCAGCAGGACCCCCTCCACCAAGGCTCAGCAGGCCCAGTTCATCCCTTGGTTGACCCCCTGACTGCTGGCCCTCACCTGGCTCGCTTCCCCTACCCACCCGGCACCCTCCCCAGCCCTCTGCTGGGTCAGCCCCCCCACGAGCACGAGATGCTGCGCCACCCTGTCTTCGGCACCCCCTATCCCCGAGACCTGCCTGGGGCCATCCCACCCCCCATGTCGGCAGCCCACCAGCTGCAGGCCATGCACGCCCAGTCAGCTGAGCTGCAGAGACTGGCCATGGAGCAGCAGTGGCTGCATGGACACCCCCACATGCATGGTGGCCATCTACCGAGTCAGGAGGATTATTACAGTCGACTGAAGAAAGAAGGTGACAAGCAGTTATAA

XM_004863677.1 Coding sequence

Slc45a1 solute carrier family 45, member 1, transcript variant X3

Length: 2250 bp    Location: 3669062..3654007   Strand: -
>XM_004863677.1
ATGAACCCCCCGGCCACCCCTCCGGGAGAGGCACTCTTGCCCAGCGTGGCTCCTCAGGACTTCTGGAGGTCACAGGTCTCGGCTTACTCGGGCTCAGTGACCCGTCACATCAGCCACCGGGCCAACAACTTCAAACGCCACCCCAAGAGGAGGAAGTGCATCCGGCCCTCCCCACCCCCACCCCCCAACACCCCCTGTCCCATTGAGCGGGTGGACTTTGGGGACCTGCACCCCCAGAGGTCCTTCCGGGAGCTGCTCTTCAACGGCTGTGTCCTGTTCGGCATCGAGTTCAGCTATGCCATGGAGACAGCATATGTGACACCTGTGCTGCTGCAGATGGGCCTGCCCGACCAGCTCTACAGCCTGGTGTGGTTCATCAGCCCCATCCTCGGGTTCCTGCTGCAGCCTCTGTTGGGTGCTTGGAGTGACCGGTGTACCTCAAGGTTTGGAAGGAGACGCCCTTTCATTCTTGTCCTGGCGATAGGGGCGCTGCTGGGCCTCTCGCTCCTGCTGAATGGCAGGGACATCGGCGCAGCCCTGGCTGACACCGCCACCAGCCACAAGTGGGGCATCTTGCTGACCGTGTGCGGCGTGGTGCTGATGGACGTCAGCGCCGACTCTGCTGACAACCCCAGCCACGCCTACATGATGGACGTGTGCGGCCCGGCGGACCAGGACCGCGGCCTGAACATCCACGCCCTCCTGGCGGGTCTGGGAGGAGGGTTCGGTTACGTGGTCGGCGGGATCCACTGGGACAGAACCGGCTTTGGGAGAGTGCTGGGGGGCCAGCTCCGCGTCATCTACATCTTCACCGCGGTCACCCTGAGCGTCACCACCGTGCTGACGCTGATCAGCATCCCCGAGCGGCCCCTGCGGCCCCCTGGAGAGAAGAGGCCGGCCCTGAAGAGCCCCAGCCTCGCTCTGCCCCCGTCCCCGCCTGCCCTGCAGGAGGAGGCCGCGGGCGACACTCTCCCCGCCCAGGCAGCCCCCAGCCTGTATGCCAGCTTCTCCACGCCCATCTCCCCACCCAGCCCGCTCACGCCCAAGTATGGCAGCTTCGTCAGCCGGGACAGCTCCCTGACAGGCATCAGCGAGTTCGCGTCCTCCTTCGGCACCTCCAACATAGACAGCGTCCTCATCGACTGCTTCACGGGGGACCCCGACAACTACCTGGCCCTCCCCGGCAGCATCCCCCGACCGCCCATCAGTGTCAGCTTCCCCCGGGCCCCTGAAGGCTTCTATCACCAGGACCGGGGCCTGCTGGACAGGAGGGACAGCAGCCTGGCCTCCAGCGATGGGGACGTGCTGAGGGTGGGCTCCCTGGACGCCCCCAAGCCACAGGCCTCTGGCATCCTGAAGAGACCCCAGACCTTGGCTCTCCCTGATGCAGCCGGGGGAGGCGGCCCTGAAACTAGCAGGAGAAGGAACGTGACCTTCAGCCAACAGGTGGCAAACATCCTGCTCAACGGTGTGAAGTTTGAGAGCGAGCTGACGGGCTCCAGGGAGCAGTGGGAGCAGCCACTGTCCCCGGGCCGCCTGTGCGCCACCATCTGCCACATGCCCAAGGCACTGCGTAACCTGTGTGTCAACCACTTCCTGGGCTGGCTGTCCTTCGAGGGGATGCTGCTCTTCTACACTGACTTCATGGGCGAGGTGGTGTTCCAGGGCGACCCCAAGGCCCCGCACTCGTCTGAGGAGTACCAGAGGTACAGCAGTGGCGTGACCATGGGCTGCTGGGGCATGTGCATCTACGCCTTCAGCGCCGCGCTCTACTCAGCCCTGCTGGAGAAGCTGGAGGGCTGCCTGAGCACCCGCACCCTCTACTTCATCGCCTACCTCGCCTTCGGCCTGGGCACCGGGCTGGCCACGCTGTCCAGGAACCTCTACGTGATCCTGTCGCTCTGCACCACCTACGGGGTCCTGTTCTCCACGCTGTGCACGCTGCCCTACTCGCTGCTCTGCGACTACTACCAGAGCAAGGCGTTTGCAGGATCCGGCACAGATGGGAGCCGGCGCGGAATGGGCATGGACATCTCCCTGCTGAGCTGCCAGTACTTTCTGGCCCAGATCCTGGTCTCCCTGGTCCTGGGGCCACTGACCTTGGCCGTGGGCAGTGCCAGCGGCGTGATGTACTTCTCCAGCCTCATGTCCTTCCTGGGCTGTGTTTACTCCTCCCTGTTCGTCATCTACGAGATCCCCGCTGGGGACGCAGGAGACGAGGAGCACCAGCCCCTCTTGCTGAATGTCTGA

XM_004863675.1 Coding sequence

Slc45a1 solute carrier family 45, member 1, transcript variant X1

Length: 2328 bp    Location: 3669062..3654007   Strand: -
>XM_004863675.1
ATGAACCCCCCGGCCACCCCTCCGGGAGAGGCACTCTTGCCCAGCGTGGCTCCTCAGGACTTCTGGAGGTCACAGGTCTCGGCTTACTCGGGCTCAGTGACCCGTCACATCAGCCACCGGGCCAACAACTTCAAACGCCACCCCAAGAGGAGGAAGTGCATCCGGCCCTCCCCACCCCCACCCCCCAACACCCCCTGTCCCATTGAGCGGGTGGACTTTGGGGACCTGCACCCCCAGAGGTCCTTCCGGGAGCTGCTCTTCAACGGCTGTGTCCTGTTCGGCATCGAGTTCAGCTATGCCATGGAGACAGCATATGTGACACCTGTGCTGCTGCAGATGGGCCTGCCCGACCAGCTCTACAGCCTGGTGTGGTTCATCAGCCCCATCCTCGGGTTCCTGCTGCAGCCTCTGTTGGGTGCTTGGAGTGACCGGTGTACCTCAAGGTTTGGAAGGAGACGCCCTTTCATTCTTGTCCTGGCGATAGGGGCGCTGCTGGGCCTCTCGCTCCTGCTGAATGGCAGGGACATCGGCGCAGCCCTGGCTGACACCGCCACCAGCCACAAGTGGGGCATCTTGCTGACCGTGTGCGGCGTGGTGCTGATGGACGTCAGCGCCGACTCTGCTGACAACCCCAGCCACGCCTACATGATGGACGTGTGCGGCCCGGCGGACCAGGACCGCGGCCTGAACATCCACGCCCTCCTGGCGGGTCTGGGAGGAGGGTTCGGTTACGTGGTCGGCGGGATCCACTGGGACAGAACCGGCTTTGGGAGAGTGCTGGGGGGCCAGCTCCGCGTCATCTACATCTTCACCGCGGTCACCCTGAGCGTCACCACCGTGCTGACGCTGATCAGCATCCCCGAGCGGCCCCTGCGGCCCCCTGGAGAGAAGAGGCCGGCCCTGAAGAGCCCCAGCCTCGCTCTGCCCCCGTCCCCGCCTGCCCTGCAGGAGGAGGCCGCGGGCGACACTCTCCCCGCCCAGGCAGCCCCCAGCCTGTATGCCAGCTTCTCCACGCCCATCTCCCCACCCAGCCCGCTCACGCCCAAGTATGGCAGCTTCGTCAGCCGGGACAGCTCCCTGACAGGCATCAGCGAGTTCGCGTCCTCCTTCGGCACCTCCAACATAGACAGCGTCCTCATCGACTGCTTCACGGGGGACCCCGACAACTACCTGGCCCTCCCCGGCAGCATCCCCCGACCGCCCATCAGTGTCAGCTTCCCCCGGGCCCCTGAAGGCTTCTATCACCAGGACCGGGGCCTGCTGGACAGGAGGGACAGCAGCCTGGCCTCCAGCGATGGGGACGTGCTGAGGGTGGGCTCCCTGGACGCCCCCAAGCCACAGGCCTCTGGCATCCTGAAGAGACCCCAGACCTTGGCTCTCCCTGATGCAGCCGGGGGAGGCGGCCCTGAAACTAGCAGGAGAAGGAACGTGACCTTCAGCCAACAGGTGGCAAACATCCTGCTCAACGGTGTGAAGTTTGAGAGCGAGCTGACGGGCTCCAGGGAGCAGTGGGAGCAGCCACTGTCCCCGGGCCGCCTGTGCGCCACCATCTGCCACATGCCCAAGGCACTGCGTAACCTGTGTGTCAACCACTTCCTGGGCTGGCTGTCCTTCGAGGGGATGCTGCTCTTCTACACTGACTTCATGGGCGAGGTGGTGTTCCAGGGCGACCCCAAGGCCCCGCACTCGTCTGAGGAGTACCAGAGGTACAGCAGTGGCGTGACCATGGGCTGCTGGGGCATGTGCATCTACGCCTTCAGCGCCGCGCTCTACTCAGGGCTGAGCCAGCGCCCCAGGTCCCAGGGGTGGCGCAGGAGCCCGGCCACTCACTGCCCACCTGCCTGCCCGCCCGCAGCCCTGCTGGAGAAGCTGGAGGGCTGCCTGAGCACCCGCACCCTCTACTTCATCGCCTACCTCGCCTTCGGCCTGGGCACCGGGCTGGCCACGCTGTCCAGGAACCTCTACGTGATCCTGTCGCTCTGCACCACCTACGGGGTCCTGTTCTCCACGCTGTGCACGCTGCCCTACTCGCTGCTCTGCGACTACTACCAGAGCAAGGCGTTTGCAGGATCCGGCACAGATGGGAGCCGGCGCGGAATGGGCATGGACATCTCCCTGCTGAGCTGCCAGTACTTTCTGGCCCAGATCCTGGTCTCCCTGGTCCTGGGGCCACTGACCTTGGCCGTGGGCAGTGCCAGCGGCGTGATGTACTTCTCCAGCCTCATGTCCTTCCTGGGCTGTGTTTACTCCTCCCTGTTCGTCATCTACGAGATCCCCGCTGGGGACGCAGGAGACGAGGAGCACCAGCCCCTCTTGCTGAATGTCTGA

XR_206042.1 Non-coding sequence

Park7 PREDICTED: Heterocephalus glaber parkinson protein 7 (Park7), transcript variant X8, misc_RNA.

Length: 2934 bp     
>XR_206042.1
AAGCGGCGTGAGTCTGCGCAGTGCGGCGCCGAGTGTGGGTGGAGGGTGCGCGCGCGTTCCGCTGGAGTGTGCTGGGTCTTTTAAAGGTACATAAAAATGGCTTCGAAGAGAGCCCTGGTCATCCTGGCCAAAGGCGCGGAGGAGATGGAGACGGTCATCCCCGTGGATGTCATGAGGCGCGCCGGGATTAGGGTCACCGTTGCAGGTCTGGCTGGGAACGACCCGGTACAGTGTAGCCGTGACGTGGTCATTTGTCCTGACACAAGTCTGGAAGAGGCAAAAAAGCAGTCCCCGGCCGTGAGGGAGATCCTGAAGGAGCAGGAGAGCCGGAAGGGCCTCATCGCAGCCATCTGTGCAGGTAAAGCGGTGCACCTGTGCACTGCCCTCCCGGGAGCTCCTCCCCAGAAGGCCCGGGGCACCTGCGGGGTTACTCGGGCGCCGTGCAGTCGTGTTGTCTCAGCAGCCAGTCCTGCTGCTCTGCTGTCTGCCTCTCTGTGCCCTTTGCATACTGTGAAGCCACTGTTATGCGCGTCTGACCCCGGAGGCCCTCGGAATTCAGTAAACAGCCTGTTCCAGCAGACCTCACTGCCAGGAAGCGCGTCTGCCAGCATAGCAGTCAGCAAGAACCCGGCAGACGTAAACATGACCTCCTGCCCTGTGCTTGCCCTGCAGACTCAGAGCCAGGCCCTTCTGCCTGCCTCCCTCTTCTCAGTGCTGAGACCCTGGCCGTCATGTAGTGTAAGGTCTTCGGGCTTCACAGATGTCCCTGTGTCTGAGCTTAGTCACACTCTGTTTTCTGGTACCATTTGAATCTGCCTGTTGCTTTAATGTTAGCACAACAGGATTTTAAAGGAAGCTGTGGGCCGGGGACTGCATCTGAGCACAGTGCTGAGTCCTGGCAGGGTCAGAGCAGACACTGCCTGGGGCCGCATGCCGGGCCCTTGACAGTCTCCCAGGACCACTCTCAGGGCTGGAGCTGTCACCTGGGCAGGGCGTCAGGCTCTGGCATTCTCAGGCTTAAAACTTGCCAGTTCTGGGCTGGGGCAGAGCTCAGTGGGGAGTGTGAGCGCAGCACGCGAGAGGCCCTGGGCTCCATCCGCATTGCCCTTCCCGCAGAAGGCCCAGGTTTCACGTCTAGGAGCGGAAAGGACGGGATCCGAGGCCTCCGTGTTTGAGAAGGGCTATGTTGGGCCCTGAGGAGTCCTGAGAAGGCCACCCTGGCCCCCCTGGCCAGTGGCCTCTTGCTGTGCCAAGGGCCCTGTGGCCAGGTCCCGCCCCTCTCTGGAGAGTCCTGACTGGCTTCTGCCTGGTCTGCTGCTGGAGAAGCGGCCTCCTTGCAGATGCTTCGACCACAGGAAGAGAACGAGGCTTTGCCTGGGCCGCTTCCCCTACAATCCTGTCGAAACAAAGACTAAGGTCATCTTGTCCCTGAGATAGCAAGGTTACCATCCTGTGGCCAGGCAGCCGTGGGCCGTGCTGAGGACCTGGACCTGGCTGGAGCTGAAGCACACAGGAAGAAGAAAGGAGACTTGCAGCGTGTTGGTCCAGGGGCTGCCCAGAGCTGGCATCCTGGGAGGAGAGGGGATGCTGGGGGTGCCGGGCATGCGGACAGTGGAGGGCGGCGCAGAGCAGCCGGAAGAGATTCAGTGGTGGCAGTTGCCTGAGTCTTCTGCCGTCTTGCCCTGGGAATTAGAAACAGTTCTGCACTCAAAAGAACGTCAGGCGCTGATACTGAGGGAATTCGAGACAAATCAGAAGGGAGGCTTTCCTGAGCAGAAAGTAGAATGAGCTTCCTTTTGCTGGAGGAGCCACTGTCATAGGATGCTGGGTCCTGGAAGGGTTCCAAGCCAGGGCCACCTGCAGGAGCTGAGTCGGCCGGGGTACTCTTTCCCCGCATGTCCACTGGGTGGCGCTGCGGGACGAGGATTCTGCCCCTCTGGCTCTGGAGGGCCCTGTTCATCCATCAGGCCCTCCTCAAGTGACCGGGCCCAGAGTCTGACTCTCCAAATACGGTTCTTAGGCCTCAGCATGCAGCAGCTAGGAGCTCACATGGTAAGGGCATCAGTAAATCCTGCGTCCAGCTACCGCGCACATTAACATCGCTGTAGGCAACAGCGTTACCATCATGAAGGGGGCAGCCTGAGAATTCCTCCCTCGCTGTGGTGCCCTCCTCGCTGCACAGCCGACGCCTGGCTCAGTGTGAGTGTGAGGTCCCACAGCACTGTTGGCTCACGAGATAGGCTTTGGAAGCAAAGTTACAACACACCCACTTGCTAAAGACAAAATGATGAATGGGAGTAAGTATATGCTTGTGTTTTTGTGCTCGCAGAGCCCTGGTCAGAACACTCCTTTAGTGTGCCGTCTCCCGAGTAGTATAAGGCAACTGGTGGGCTCCCCAGGGGCGCCCTCCTCGGGCTCAGCCTGGCTGGGTGGGGCGGCCACCCCCGACTGTTGCGGATGGAAGGCGATGGTCCAGTGCCAGTTTAATCAGTGTTCTTTCTAAACACTTTGCCAGCAGCCTAGGGTAAATTTTCTACCCAGACAGCGATTCAGAAAGTGCCCTTTTACCCGAAGTCCAAAGAAAAGGCCCAGGTACCCAGCAGGGCCTGCTCCCTGTGGACACATAGCCCTCACACATGCCAGCAAGGCCTGCAGATCTCATTAATTATCTTTATAAAAAGCACGTTCAGTTCATGGTGACACCTGCGAACAGTGTAGCACGGGTGGCGTGAAAGGCTGCACTCTTCCCTCCCCTGCCATCCCTCCTGTCAGAGGTGACGTCTGTGAAGTGTCTTGTAGAGCTCTAGAACTTTCTCTGCACTTGCTGCGCTTCCTTTTTGATATTTTTACTCAGATGAGGTCCACTAAGTGCATTGTTCTGCAGCTTGCTTTTGTTGTTTTCTAGATGGGCTGTCACCGTGTTGCCCAGGCTGG

XM_004863678.1 Coding sequence

Errfi1 ERBB receptor feedback inhibitor 1, transcript variant X1

Length: 1374 bp    Location: 3868814..3882960   Strand: +
>XM_004863678.1
ATGTCCACAGCAGGAGTTGCTGCTCAGGAGATTCGAGTCCCATTAAAGCCGGGATTTCTGCACAATGGCCAGGCCCTGGGGAATAGGAAGACCTGCTGGGGCAGTCGCAGTGAGTTTGAAAATACCTTCCTAAACATCGACCCCATCAGCATGGCCTACAGTCTGAACTCGCGGGCTCCGGAGCCCCTGCCACCTGTCAGGCACGCCACACAGCCTGCAGCGATGAATGGCCAGCACTTTGCAGAAACGGGGCCCTCCCACAAGCCCGGCCTGCCCCCTCTCATCATTCCCTCAGGTGACAGCCTGCGACAGGGTGAAGAGGATCAAGTTGTGTGTGGCTTTAAGAAACTCGCGGTGAACGGGGCCTGCACCTCCACTCCCCCACTTACCCCGATAAAGACCTGCCCTTCCTCGCTTTTCCCCTGTGAACGAGGCTCCAGGCCCCTGCCTCCGCTGCCCATCTCCGAAGCCCTCTCTCTGGATGAGGCAGACTGCGAGGTGGAATTCCTGACCAGCTCCGACACAGACTTCCTCTTGGAAGACTGCATGCTTTCCGATTTCAGATATGACCTTCCTGGCAGGCGAAGCTTCCGTGGGTGTGGACAGATCAACTATGCATATTTTGACACCCCCAGTGTTTCCGCAGCGGACCTCAGCTTCGAGTCCGACGAGAACGGAGGGCCCCCCAGTCCCAACCCTCCTCCTGCTCAGACCCACCGCCGGCTGAGGAGGTCTCACTCGGGCCCTGCTGGCTCCTTCAACAAGCCGGCCATCCGCATAGCCAGCTACACACACAGAGCCTCACCCAACTCTGATGAAGACAAGCCTGAGGTCCCCCCCAGGGTCCCCATCCCTCCCCGGCCAGTGAAGCCAGATTACAGAAGGTGGTCTGCAGAAGTGACTTCCAGCACCTACAGTGACGAGGACAGGCCTCCCAAAGTGCCCCCAAGAGAACCTCTGTCCCGGAGCAACTCCCGCACACCGAGCCCCAAAAGCCTTCCGTCTTACCTCAACGGGGTCATGCCCCCGACCCAGAGCTTTGCCCCAGACCCCAAGTACGTCAGCAGCAAGGCCCTGCAGAGACAGACCAGCGAGGGCTCCACCAACAAGGTTCCCTGCATCCTCCCCATCATTGAGAATGGGAAGAAGGTGAGCTCGACGCATTATTACCTGCTGCCCGAGAGGCCACCGTACCTGGACAAGTATGAGAAGTTCTTTAGGGAAGTGGAAGAAACAAACCCGAGCGCCCAAATCCAGCCGTTCCCTGCTGACTGCGGTGAGGCGTCGGCCACAGAAAAGATGGACTGTAAGACAGTAGCCGACCTGGGGGCCCACACGAAGCGCAAACACTTATCCCACGTGGTTTCTCCCTAG

XM_004863680.1 Coding sequence

Park7 parkinson protein 7, transcript variant X1

Length: 714 bp    Location: 3911409..3903102   Strand: -
>XM_004863680.1
ATGGCTTCGAAGAGAGCCCTGGTCATCCTGGCCAAAGGCGCGGAGGAGATGGAGACGGTCATCCCCGTGGATGTCATGAGGCGCGCCGGGATTAGGGTCACCGTTGCAGGTCTGGCTGGGAACGACCCGGTACAGTGTAGCCGTGACGTGGTCATTTGTCCTGACACAAGTCTGGAAGAGGCAAAAAAGCAGTCCCCGGCCGTGAGGGAGATCCTGAAGGAGCAGGAGAGCCGGAAGGGCCTCATCGCAGCCATCTGTGCAGGTAAAGCGGTGCACCTGTGCACTGCCCTCCCGGGAGCTCCTCCCCAGAAGGCCCGGGGCACCTGCGGGGTTACTCGGGCGCCGTGCAGTCGTGTTGTCTCAGCAGCCAGTCCTGCTGCTCTGCTGTCTGCCTCTCTGTGCCCTTTGCATACTGTGAAGCCACTGTTATGCGCGTCTGACCCCGGAGGCCCTCGGAATTCAGTAAACAGCCTGTTCCAGCAGACCTCACTGCCAGGAAGCGCGTCTGCCAGCATAGCAGTCAGCAAGAACCCGGCAGACGTAAACATGACCTCCTGCCCTGTGCTTGCCCTGCAGACTCAGAGCCAGGCCCTTCTGCCTGCCTCCCTCTTCTCAGTGCTGAGACCCTGGCCGTCATGTAGTGTAAGGTCTTCGGGCTTCACAGATGTCCCTGTGTCTGAGCTTAGTCACACTCTGTTTTCTGGTACCATTTGA

XM_004863684.1 Coding sequence

Park7 parkinson protein 7, transcript variant X5

Length: 714 bp    Location: 3911255..3903102   Strand: -
>XM_004863684.1
ATGGCTTCGAAGAGAGCCCTGGTCATCCTGGCCAAAGGCGCGGAGGAGATGGAGACGGTCATCCCCGTGGATGTCATGAGGCGCGCCGGGATTAGGGTCACCGTTGCAGGTCTGGCTGGGAACGACCCGGTACAGTGTAGCCGTGACGTGGTCATTTGTCCTGACACAAGTCTGGAAGAGGCAAAAAAGCAGTCCCCGGCCGTGAGGGAGATCCTGAAGGAGCAGGAGAGCCGGAAGGGCCTCATCGCAGCCATCTGTGCAGGTAAAGCGGTGCACCTGTGCACTGCCCTCCCGGGAGCTCCTCCCCAGAAGGCCCGGGGCACCTGCGGGGTTACTCGGGCGCCGTGCAGTCGTGTTGTCTCAGCAGCCAGTCCTGCTGCTCTGCTGTCTGCCTCTCTGTGCCCTTTGCATACTGTGAAGCCACTGTTATGCGCGTCTGACCCCGGAGGCCCTCGGAATTCAGTAAACAGCCTGTTCCAGCAGACCTCACTGCCAGGAAGCGCGTCTGCCAGCATAGCAGTCAGCAAGAACCCGGCAGACGTAAACATGACCTCCTGCCCTGTGCTTGCCCTGCAGACTCAGAGCCAGGCCCTTCTGCCTGCCTCCCTCTTCTCAGTGCTGAGACCCTGGCCGTCATGTAGTGTAAGGTCTTCGGGCTTCACAGATGTCCCTGTGTCTGAGCTTAGTCACACTCTGTTTTCTGGTACCATTTGA

XM_004863681.1 Coding sequence

Park7 parkinson protein 7, transcript variant X2

Length: 714 bp    Location: 3911242..3903102   Strand: -
>XM_004863681.1
ATGGCTTCGAAGAGAGCCCTGGTCATCCTGGCCAAAGGCGCGGAGGAGATGGAGACGGTCATCCCCGTGGATGTCATGAGGCGCGCCGGGATTAGGGTCACCGTTGCAGGTCTGGCTGGGAACGACCCGGTACAGTGTAGCCGTGACGTGGTCATTTGTCCTGACACAAGTCTGGAAGAGGCAAAAAAGCAGTCCCCGGCCGTGAGGGAGATCCTGAAGGAGCAGGAGAGCCGGAAGGGCCTCATCGCAGCCATCTGTGCAGGTAAAGCGGTGCACCTGTGCACTGCCCTCCCGGGAGCTCCTCCCCAGAAGGCCCGGGGCACCTGCGGGGTTACTCGGGCGCCGTGCAGTCGTGTTGTCTCAGCAGCCAGTCCTGCTGCTCTGCTGTCTGCCTCTCTGTGCCCTTTGCATACTGTGAAGCCACTGTTATGCGCGTCTGACCCCGGAGGCCCTCGGAATTCAGTAAACAGCCTGTTCCAGCAGACCTCACTGCCAGGAAGCGCGTCTGCCAGCATAGCAGTCAGCAAGAACCCGGCAGACGTAAACATGACCTCCTGCCCTGTGCTTGCCCTGCAGACTCAGAGCCAGGCCCTTCTGCCTGCCTCCCTCTTCTCAGTGCTGAGACCCTGGCCGTCATGTAGTGTAAGGTCTTCGGGCTTCACAGATGTCCCTGTGTCTGAGCTTAGTCACACTCTGTTTTCTGGTACCATTTGA

XM_004863686.1 Coding sequence

Park7 parkinson protein 7, transcript variant X7

Length: 555 bp    Location: 3911409..3903260   Strand: -
>XM_004863686.1
ATGGCTTCGAAGAGAGCCCTGGTCATCCTGGCCAAAGGCGCGGAGGAGATGGAGACGGTCATCCCCGTGGATGTCATGAGGCGCGCCGGGATTAGGGTCACCGTTGCAGGTCTGGCTGGGAACGACCCGGTACAGTGTAGCCGTGACGTGGTCATTTGTCCTGACACAAGTCTGGAAGAGGCAAAAAAGCAGTCCCCGGCCGTGAGGGAGATCCTGAAGGAGCAGGAGAGCCGGAAGGGCCTCATCGCAGCCATCTGTGCAGGTCCCACAGCACTGTTGGCTCACGAGATAGGCTTTGGAAGCAAAGTTACAACACACCCACTTGCTAAAGACAAAATGATGAATGGGAGTAAGTATATGCTTGTGTTTTTGTGCTCGCAGAGCCCTGGTCAGAACACTCCTTTAGTGTGCCGTCTCCCGAGTAGTATAAGGCAACTGGTGGGCTCCCCAGGGGCGCCCTCCTCGGGCTCAGCCTGGCTGGGTGGGGCGGCCACCCCCGACTGTTGCGGATGGAAGGCGATGGTCCAGTGCCAGTTTAATCAGTGTTCTTTCTAA

XM_004863696.1 Coding sequence

Camta1 calmodulin binding transcription activator 1, transcript variant X9

Length: 4710 bp    Location: 4798027..4022996   Strand: -
>XM_004863696.1
ATGTGGCGCGCGGAGGGGAAATGGCTGCCGAAAACAAGCCGGAAGAGCGTTTCCCAAAGTGTATTCTGCGGAACTAGCACCTACTGTGTTCTCAACACCGTGCCACCTATAGAAGATGATCATGGGAACAGCAATAGTAGTCATGTAAAAATCTTTTTACCGAAAAAGCTGCTTGAGTGTCTGCCGAAGTGTTCAAGTTTACCAAAAGAGAGGCACCGATGGAACACTAATGAGGAAATTGCAGCTTATTTAATAACATTTGAGAAACACGAAGAATGGCTAACCACATCCCCTAAGACAAGACCGCAGAATGGCTCAATGATACTCTACAACAGGAAGAAAGTGAAATACAGGAAAGATGGGTATTGCTGGAAAAAGAGGAAAGATGGGAAAACGACCAGAGAGGACCACATGAAACTCAAGGTCCAGGGAGTAGAGTGCTTGTACGGCTGCTATGTCCATTCCTCCATCATCCCCACCTTTCACCGGAGGTGCTACTGGCTCCTTCAGAACCCCGACATTGTCCTGGTGCACTACCTGAACGTGCCGGCCATTGAGGACTGCGGCAAGCCCTGCGGCCCCATCCTCTGCTCCATCAACACCGACAAGAAGGAGTGGGCGAAATGGACGAAGGAAGAGCTCATCGGGCAGCTGAAACCCATGTTCCACGGCATCAAGTGGACCTGCAGCAACGGCAACAGCAGCTCAGGCTTCTCCGTGGAGCAGCTGGTACAGCAGATCCTCGACAGCCACCAGACCAAGCCCCAGCCACGGACCCACAACTGCCTGTGCACCGGCAGCCTGGGAGCGGGCAGCAGCATGCACCACAAGTGTAACAGTGCCAAACACCGCATCATCTCGCCGAAGGTGGAGCCGCGGTCGGGGGGCTACGGGAGCCACTCGGAGGTGCAGCACAACGACGTGTCAGAGGGAAAGCACGAACCCAGCCACGGCAAGGGCGCCAGCCGCGAGAAGCGGAACGGCAAGGTGGCCAAGCCAGCCCTGCTGCACCAGAACAGCACCGAGGTGTCCTCCACCAACCAGGTGGAGGTGCCTGACACCACCCAGAGCTCCCCCGTGTCCATCAGCAGCGGGCTCAACAGCGACCCGGACATGGTGGACAGCCCCGTGGTCACAGGCGTGTCCAGCATGGCGGTGGCCTCCGTGATGGGGGGCTTGTCCCAGAGCGCCACGGTGTTCATGTCGGAGGTCACCAGCGAGGCCGTGTACACCATGTCCCCCACCTCGGGGCCCAATCACCACCTCCTCTCGCCCGACGCCTCTCAGGGCCTGGTCCTGGCCGTGAGCTCCGACGGCCACAAATTCGCCTTCCCCACCACGGGCAGCTCGGAGAGCCTGTCCATGCTGCCCACCAACGTGTCCGAAGAGCTGGTCCTCTCCACCACCCTCGACGGCGGCCGGAAGATCCCGGAGACCACCATGAACTTTGACCCCGACTGTTTCCTCAATAACCCAAAGCAGGGCCAGACGTACGGGGGCGGGGGCCTGAAGGCCGAGATGGTCAGCTCCAACATCCGGCACTCCCCGCCCGCTGCTGACAGGAGCTTCGGCTTCACCAGCGTCCTGGCCAAGGAGATAAAGACGGAGGACACCTCTTTCGAGCAGCAGATGGCCAAGGAGGCATACTCTTCCTCCGCAGTGGCCGCGGGCTCCGGCTCCCTCACCCTGACGGCTGGCTCCAGCCTCCTGCCATCGGGTGGCGGCCTGAGTCCCAGCACCACGCTGGAGCAGATGGACTTCAGCGCCATAGACTCCAACAAAGACTACACGTCCAGCTTCAGCCAGACAGGCCACAGCCCCCACATCCACCAGACCCCCTCCCCAAGCTTCTTCCTGCAGGACGCCAGCAAGCCCCTTCCCCTTGAGCAGACCGCCCACAGCAGCTTGAGCCACTCCGGGGGCACCTTCGTGATGCCCACGGTGAAAACCGAGGCCTCGTCCCAGACCAGCTCCTGCAGCGGCCACGTGGAGACTCGGATAGAGTCCACGTCCTCCCTGCACCTCATGCAGTTCCAGGCCAATTTCCAGGCCATGACAGCAGAAGGGGAGGTCACTATGGAGACCTCTCAGGCAGCCGAAGGGGGCGAGGTCCTCCTCAAGTCCGGGGAGCTGCAGGCCTGTGCCTCAGAGCACTACCTGCAGCCTGAAAGCAACGGGGTGATCCGAAGCGCTGGTGGGGTCCCCATCCTCCCGAGCAACGTGGTGCCGGGACTCTACCCAGTGGCCCAGCCCAGCCTGGGCAACACCTCCAACATGGAGCTCAGCCTGGACCACTTCGACATCTCCTTCAGCAACCAGTTCTCCGACCTCATCAATGACTTTATCTCCGTGGAGGGGGGCAGCGGCACCATCTACGGTCAGCAGCTGGTGTCGGGGGACAGTGCCGGGCTCTCGCAGTCGGAAGACGGGGCTCGCGCCCCCTTCACCCAGGCGGAGATGTGCATTCCCTGCTGCAGCCCCCAGCAAGGGACCCTGCAGCTGAGCAGCACTGAGGGCGGGGCCGGCACCATGGCCTACATGCACATCACAGACGTGGTCTCCGCCTCCTCAGCCCAGGGCTCGCTGGGGATGCTGCAGCCGAGCGGACGGGTGTTCATGGTGACCGACTACTCCCCCGAGTGGTCTTACCCAGAGGGAGGAGTGAAGGTCCTCATCACAGGCCCATGGCAAGAAGCCAGCAATAACTACAGCTGCCTGTTCGACCAGATCTCAGTGCCTGCATCCCTGATTCAGCCTGGGGTGCTGCGCTGCTACTGCCCAGCCCATGACACGGGTCTTGTGACCCTACAAGTTGCCTTCAACAACCAGATCATCTCCAACTCGGTGGTATTTGAGTACAAAGCTCGGGCTCTGCCCACGCTACCTTCCTCCCAACACGACTGGCTGTCATTGGACGATAACCAGTTCAGGATGTCCATCCTGGAACGGCTGGAGCAGATGGAGAGGAGGATGGCGGAGATGACGGGCTCCCAGCAGCACAAGCAGGCCAGTGGAGGCAGCGGGAGTGGAGGCGGTGGCGGCGTCAGTGGGAACGGAGGAAGCCAAGCTCAGTGCGCCTCTGGGCCTGGGACCTTGGGGAGCTGCTTCGAGAGTCGCGTGGTCATCGTGTGTGAGAAGATGATGAGCCGAGCCTGCTGGGCAAAGTCCAAGCATCTGATCCACTCGAAGACTTTCCGGGGGATGACCCTCTTACACCTGGCTGCTGCCCAGGGCTATGCCACCCTGATCCAGACCCTCATCAAGTGGCGCACAAAGCACGCGGATAGCATTGACTTGGAGCTGGAGGTCGACCCCTTGAATGTGGACCACTTCTCCTGCACGCCTCTGATGTGGGCGTGCGCCCTGGGGCACTTGGAAGCTGCTGTGGTACTGTACAAGTGGGACCGCCGGGCCATCTCCATCCCTGACTCCCTGGGCAGGCTGCCCTTGGGAATCGCCCGCTCAAGGGGCCATGTGAAATTAGCAGAGTGTCTGGAGCACCTGCAGAGAGACGAGCAGGTCCAACTGGGGCAGAACCCCAGGGCCCACGGTCCCCTGAGCCAGGAGCCAGGTACAGACAGCTGGATGGCCCAGTGGCACAGCGAAGCCATGAGCTCTCCAGAGATCCCCAAAGGCGTCACCGTTATTGCAAGTACCAATCCAGTACAGGTGACTGGAACTCCGAAGGGGACCAGTGTAGTAAAGGACACAGCACCTTCTCAGGTGCGCCCGCGGGAACCAATGAGTGTCCTGATGATGGCTAACAGAGAGGTGGTGAATACAGAGCTGGGGTCCTACCGTGATAGTGCAGAGAACGAGGAGTGTGCGCAGCCCATGGATGACATTCAGGTGAACATGATGACCCTGGCGGAACACATTATCGAGGCCATACCTGACCGGATCAAGCAGGAAAGCTTTGTGCCCATGGAGTCTCCAGCACTGGAAAGAACAGACCCTGCTGCTGTCAGCAGTACAATGAGCTGGCTGGCCAGTTACTTAGCGGATGCGGATCGTCTGCCGAATGCTGCCCAGATCAGAAGTGCGTATAACGAACCTCTGACCCCTTCTTCTAATACCAGCTTGAGCCCCGTCGGCTCGCCAGTCAGTGAAATAGCTTATGAGAAGCCTAACCTTCCCTCGGCTGCAGACTGGTCCGAATTCCTGAGTGCATCTACCAGTGAGAAGGTAGAGAATGAGTTTGCCCAGCTCACGCTGTCTGACCACGAGCAGAGAGAACTCTATGAGGCTGCCAGGCTTGTTCAGACAGCTTTCCGGAAATACAAGGGCCGACCCCTGCGGGAACAGCAGGAAGTGGCTGCTGCTGTCATCCAGCGTTGTTACAGAAAATATAAACAGCTGACATGGATAGCCTTGAAGTATGCACTTTATAAAAAGATGACCCAGGCGGCCATCCTTATCCAGAGCAAATTCCGAAGTTACTATGAACAAAAAAAGTTCCAGCAAAGCCGGCGTGCCGCCGTGCTGATCCAGAAGTACTACCGGAGTTACAAGAAATGTGGCAAGAGACTGCAGGCTCGCCGGACGGCGGTGATCGTGCAGCAGAAGCTCAGGAGCAGTTTGTTAACCAAAAAGCAGGACCAAGCTGCTCGGAAAATAATGAGGTTTCTACGTCGCTGCCGCCACAGCCCCCTGGTGGACCATAGGCTGTACAAAAGGAGTGAAAGAATTGAAAAAGGCCAAGGAACTTGA

XM_004863694.1 Coding sequence

Camta1 calmodulin binding transcription activator 1, transcript variant X7

Length: 4731 bp    Location: 4724160..4022996   Strand: -
>XM_004863694.1
ATGATACTCTACAACAGGAAGAAAGTGAAATACAGGAAAGATGGGTATTGCTGGAAAAAGAGGAAAGATGGGAAAACGACCAGAGAGGACCACATGAAACTCAAGGTCCAGGGAGTAGAGTGCTTGTACGGCTGCTATGTCCATTCCTCCATCATCCCCACCTTTCACCGGAGGTGCTACTGGCTCCTTCAGAACCCCGACATTGTCCTGGTGCACTACCTGAACGTGCCGGCCATTGAGGACTGCGGCAAGCCCTGCGGCCCCATCCTCTGCTCCATCAACACCGACAAGAAGGAGTGGGCGAAATGGACGAAGGAAGAGCTCATCGGGCAGCTGAAACCCATGTTCCACGGCATCAAGTGGACCTGCAGCAACGGCAACAGCAGCTCAGGCTTCTCCGTGGAGCAGCTGGTACAGCAGATCCTCGACAGCCACCAGACCAAGCCCCAGCCACGGACCCACAACTGCCTGTGCACCGGCAGCCTGGGAGCGGGCAGCAGCATGCACCACAAGTGTAACAGTGCCAAACACCGCATCATCTCGCCGAAGGTGGAGCCGCGGTCGGGGGGCTACGGGAGCCACTCGGAGGTGCAGCACAACGACGTGTCAGAGGGAAAGCACGAACCCAGCCACGGCAAGGGCGCCAGCCGCGAGAAGCGGAACGGCAAGGTGGCCAAGCCAGCCCTGCTGCACCAGAACAGCACCGAGGTGTCCTCCACCAACCAGGTGGAGGTGCCTGACACCACCCAGAGCTCCCCCGTGTCCATCAGCAGCGGGCTCAACAGCGACCCGGACATGGTGGACAGCCCCGTGGTCACAGGCGTGTCCAGCATGGCGGTGGCCTCCGTGATGGGGGGCTTGTCCCAGAGCGCCACGGTGTTCATGTCGGAGGTCACCAGCGAGGCCGTGTACACCATGTCCCCCACCTCGGGGCCCAATCACCACCTCCTCTCGCCCGACGCCTCTCAGGGCCTGGTCCTGGCCGTGAGCTCCGACGGCCACAAATTCGCCTTCCCCACCACGGGCAGCTCGGAGAGCCTGTCCATGCTGCCCACCAACGTGTCCGAAGAGCTGGTCCTCTCCACCACCCTCGACGGCGGCCGGAAGATCCCGGAGACCACCATGAACTTTGACCCCGACTGTTTCCTCAATAACCCAAAGCAGGGCCAGACGTACGGGGGCGGGGGCCTGAAGGCCGAGATGGTCAGCTCCAACATCCGGCACTCCCCGCCCGCTGCTGACAGGAGCTTCGGCTTCACCAGCGTCCTGGCCAAGGAGATAAAGACGGAGGACACCTCTTTCGAGCAGCAGATGGCCAAGGAGGCATACTCTTCCTCCGCAGTGGCCGCGGGCTCCGGCTCCCTCACCCTGACGGCTGGCTCCAGCCTCCTGCCATCGGGTGGCGGCCTGAGTCCCAGCACCACGCTGGAGCAGATGGACTTCAGCGCCATAGACTCCAACAAAGACTACACGTCCAGCTTCAGCCAGACAGGCCACAGCCCCCACATCCACCAGACCCCCTCCCCAAGCTTCTTCCTGCAGGACGCCAGCAAGCCCCTTCCCCTTGAGCAGACCGCCCACAGCAGCTTGAGCCACTCCGGGGGCACCTTCGTGATGCCCACGGTGAAAACCGAGGCCTCGTCCCAGACCAGCTCCTGCAGCGGCCACGTGGAGACTCGGATAGAGTCCACGTCCTCCCTGCACCTCATGCAGTTCCAGGCCAATTTCCAGGCCATGACAGCAGAAGGGGAGGTCACTATGGAGACCTCTCAGGCAGCCGAAGGGGGCGAGGTCCTCCTCAAGTCCGGGGAGCTGCAGGCCTGTGCCTCAGAGCACTACCTGCAGCCTGAAAGCAACGGGGTGATCCGAAGCGCTGGTGGGGTCCCCATCCTCCCGAGCAACGTGGTGCCGGGACTCTACCCAGTGGCCCAGCCCAGCCTGGGCAACACCTCCAACATGGAGCTCAGCCTGGACCACTTCGACATCTCCTTCAGCAACCAGTTCTCCGACCTCATCAATGACTTTATCTCCGTGGAGGGGGGCAGCGGCACCATCTACGGTCAGCAGCTGGTGTCGGGGGACAGTGCCGGGCTCTCGCAGTCGGAAGACGGGGCTCGCGCCCCCTTCACCCAGGCGGAGATGTGCATTCCCTGCTGCAGCCCCCAGCAAGGGACCCTGCAGCTGAGCAGCACTGAGGGCGGGGCCGGCACCATGGCCTACATGCACATCACAGACGTGGTCTCCGCCTCCTCAGCCCAGGGCTCGCTGGGGATGCTGCAGCCGAGCGGACGGGTGTTCATGGTGACCGACTACTCCCCCGAGTGGTCTTACCCAGAGGGAGGAGTGAAGGTCCTCATCACAGGCCCATGGCAAGAAGCCAGCAATAACTACAGCTGCCTGTTCGACCAGATCTCAGTGCCTGCATCCCTGATTCAGCCTGGGGTGCTGCGCTGCTACTGCCCAGCCCATGACACGGGTCTTGTGACCCTACAAGTTGCCTTCAACAACCAGATCATCTCCAACTCGGTGGTATTTGAGTACAAAGCTCGGGCTCTGCCCACGCTACCTTCCTCCCAACACGACTGGCTGTCATTGGACGATAACCAGTTCAGGATGTCCATCCTGGAACGGCTGGAGCAGATGGAGAGGAGGATGGCGGAGATGACGGGCTCCCAGCAGCACAAGCAGGCCAGTGGAGGCAGCGGGAGTGGAGGCGGTGGCGGCGTCAGTGGGAACGGAGGAAGCCAAGCTCAGTGCGCCTCTGGGCCTGGGACCTTGGGGAGCTGCTTCGAGAGTCGCGTGGTCATCGTGTGTGAGAAGATGATGAGCCGAGCCTGCTGGGCAAAGTCCAAGCATCTGATCCACTCGAAGACTTTCCGGGGGATGACCCTCTTACACCTGGCTGCTGCCCAGGGCTATGCCACCCTGATCCAGACCCTCATCAAGTGGCGCACAAAGCACGCGGATAGCATTGACTTGGAGCTGGAGGTCGACCCCTTGAATGTGGACCACTTCTCCTGCACGCCTCTGATGTGGGCGTGCGCCCTGGGGCACTTGGAAGCTGCTGTGGTACTGTACAAGTGGGACCGCCGGGCCATCTCCATCCCTGACTCCCTGGGCAGGCTGCCCTTGGGAATCGCCCGCTCAAGGGGCCATGTGAAATTAGCAGAGTGTCTGGAGCACCTGCAGAGAGACGAGCAGGTCCAACTGGGGCAGAACCCCAGGGCCCACGGTCCCCTGAGCCAGGAGCCAGGTACAGACAGCTGGATGGCCCAGTGGCACAGCGAAGCCATGAGCTCTCCAGAGATCCCCAAAGGCGTCACCGTTATTGCAAGTACCAATCCAGAGCTGAGAAGACCTCGGTCTGAACCCTCTAATTACTACAGCAGTGAGAGCCACAAAGATTATCCAGCTCCCAAAAAGCATAAATTGAACCCTGAGTACTTCCAGGCGAGGCAGGAGAAGCTGCTTTCCACTGCACTGAGTCTGGAACAGCCAAATATCAGGAAGCAGAGCCCTAGTTCTAAGCAGGCTGTCCCCGAGACAATCAGCCCCAGTGAAGGAGTGAGGGACTACAGCCGGGAGACCTCCCCTCCCACTCCAGAGACTGCAGCCTTCCACGCCTCTGGATCTCAGCCCGTAGTAAAGTGGAATTCCAAAGATCTTTACATTGGTGTGTCTACAGTACAGGTGACTGGAACTCCGAAGGGGACCAGTGTAGTAAAGGACACAGCACCTTCTCAGGTGCGCCCGCGGGAACCAATGAGTGTCCTGATGATGGCTAACAGAGAGGTGGTGAATACAGAGCTGGGGTCCTACCGTGATAGTGCAGAGAACGAGGAGTGTGCGCAGCCCATGGATGACATTCAGGTGAACATGATGACCCTGGCGGAACACATTATCGAGGCCATACCTGACCGGATCAAGCAGGAAAGCTTTGTGCCCATGGAGTCTCCAGCACTGGAAAGAACAGACCCTGCTGCTGTCAGCAGTACAATGAGCTGGCTGGCCAGTTACTTAGCGGATGCGGATCGTCTGCCGAATGCTGCCCAGATCAGAAGTGCGTATAACGAACCTCTGACCCCTTCTTCTAATACCAGCTTGAGCCCCGTCGGCTCGCCAGTCAGTGAAATAGCTTATGAGAAGCCTAACCTTCCCTCGGCTGCAGACTGGTCCGAATTCCTGAGTGCATCTACCAGTGAGAAGGTAGAGAATGAGTTTGCCCAGCTCACGCTGTCTGACCACGAGCAGAGAGAACTCTATGAGGCTGCCAGGCTTGTTCAGACAGCTTTCCGGAAATACAAGGGCCGACCCCTGCGGGAACAGCAGGAAGTGGCTGCTGCTGTCATCCAGCGTTGTTACAGAAAATATAAACAGCTGACATGGATAGCCTTGAAGTATGCACTTTATAAAAAGATGACCCAGGCGGCCATCCTTATCCAGAGCAAATTCCGAAGTTACTATGAACAAAAAAAGTTCCAGCAAAGCCGGCGTGCCGCCGTGCTGATCCAGAAGTACTACCGGAGTTACAAGAAATGTGGCAAGAGACTGCAGGCTCGCCGGACGGCGGTGATCGTGCAGCAGAAGCTCAGGAGCAGTTTGTTAACCAAAAAGCAGGACCAAGCTGCTCGGAAAATAATGAGGTTTCTACGTCGCTGCCGCCACAGAGTGAAAGAATTGAAAAAGGCCAAGGAACTTGAAGACATACAGCAGCATCCCTTAGCAATGTGA

XM_004863700.1 Coding sequence

Thap3 THAP domain containing, apoptosis associated protein 3, transcript variant X2

High confidence: 4 potential gene matches
Length: 687 bp    Location: 4912770..4905880   Strand: -
>XM_004863700.1
ATGCCGAAGTCGTGCGCGGCCCGGCAGTGCTGCAACCGCTACAGCAGCCGCAGGAAGCAGCTCACCTTCCACCGGTTCCCGTTCAGCCGGCCCGAGCTGCTGAAGGAATGGGTGCTCAACATCGGCCGGGCTGACTTCAAGCCCAAGCAGCACACGGTCATCTGCTCCGAGCACTTCCGGCCCGAGTGCTTCAGTGCCTTTGGGAACCGCAAAAACCTGAAGCACAATGCTGTGCCCACCGTGTTTGCCTTCCGGGAGCCGGCACAGCTGGTGCGGGAGGACACGGAGCCTGCGGGCAGCAGAGAGGCCGACTCTCAGGAGGAGGTCTGCCCCTCGGTGGGGGTTGGGGAGCCCAGCCCTGCCCAGGGCACGGACGCCAACCTTGAGGAGCAGCAGCTGCTGCCCAGTGCCAAGGGCCTGGTGTCACAGGCTGTGCCACTGAGGCTGGAAACCTCTGAAGCCCCCGGCGCACCTGCCAGCTGCTCGGGGCCAAGCAGACTCCACCCCAGGCAGGCGTGGGATCACAGCTACGCCCTGTTGGACTTGGACACCCTGAAAAAGAAGCTGTTCCTCACTCTGAGGGAGAACGAGAAGCTCCGCAAGCGTCTGAAGGCCCAGAGGCTGGTAATGCGCAGGATGTGCAGCCGCCTCCGAGCCCGAGGGGCCGGGCCTAGGCTGCAGAGCTGA

XM_004863701.1 Coding sequence

Thap3 THAP domain containing, apoptosis associated protein 3, transcript variant X3

Length: 588 bp    Location: 4908003..4905880   Strand: -
>XM_004863701.1
ATGCCAGGGGGTGGGAGAAGCTGGCAACAGGGCCCTGTGGCCACTGCTCCATCCCTGGCCTTCACCACTTTGTGGTGCCCCGCAGGGTGGGGTGACAGAGACCTGCTCATGAGCTCGGACCCATGGCTTGGGGATGTCTTGGAGAGGGGACACCAGGTGGACAGTGAGGCAGCTGGGCTGGGACCCAGGCTGGCTTCACTCATGGACGCTTGCTGGTGTCCTGGCCGGGCCACGGCTGGCTGGGCCCCACCACCCGAGCTGTCTGTCTTGCAGCTGGTGCGGGAGGACACGGAGCCTGCGGGCAGCAGAGAGGCCGACTCTCAGGAGGAGGCTGTGCCACTGAGGCTGGAAACCTCTGAAGCCCCCGGCGCACCTGCCAGCTGCTCGGGGCCAAGCAGACTCCACCCCAGGCAGGCGTGGGATCACAGCTACGCCCTGTTGGACTTGGACACCCTGAAAAAGAAGCTGTTCCTCACTCTGAGGGAGAACGAGAAGCTCCGCAAGCGTCTGAAGGCCCAGAGGCTGGTAATGCGCAGGATGTGCAGCCGCCTCCGAGCCCGAGGGGCCGGGCCTAGGCTGCAGAGCTGA

XM_004863699.1 Coding sequence

Thap3 THAP domain containing, apoptosis associated protein 3, transcript variant X1

Length: 693 bp    Location: 4908003..4905880   Strand: -
>XM_004863699.1
ATGCCAGGGGGTGGGAGAAGCTGGCAACAGGGCCCTGTGGCCACTGCTCCATCCCTGGCCTTCACCACTTTGTGGTGCCCCGCAGGGTGGGGTGACAGAGACCTGCTCATGAGCTCGGACCCATGGCTTGGGGATGTCTTGGAGAGGGGACACCAGGTGGACAGTGAGGCAGCTGGGCTGGGACCCAGGCTGGCTTCACTCATGGACGCTTGCTGGTGTCCTGGCCGGGCCACGGCTGGCTGGGCCCCACCACCCGAGCTGTCTGTCTTGCAGCTGGTGCGGGAGGACACGGAGCCTGCGGGCAGCAGAGAGGCCGACTCTCAGGAGGAGGTCTGCCCCTCGGTGGGGGTTGGGGAGCCCAGCCCTGCCCAGGGCACGGACGCCAACCTTGAGGAGCAGCAGCTGCTGCCCAGTGCCAAGGGCCTGGTGTCACAGGCTGTGCCACTGAGGCTGGAAACCTCTGAAGCCCCCGGCGCACCTGCCAGCTGCTCGGGGCCAAGCAGACTCCACCCCAGGCAGGCGTGGGATCACAGCTACGCCCTGTTGGACTTGGACACCCTGAAAAAGAAGCTGTTCCTCACTCTGAGGGAGAACGAGAAGCTCCGCAAGCGTCTGAAGGCCCAGAGGCTGGTAATGCGCAGGATGTGCAGCCGCCTCCGAGCCCGAGGGGCCGGGCCTAGGCTGCAGAGCTGA

XM_004863703.1 Coding sequence

Phf13 PHD finger protein 13, transcript variant X1

High confidence: 4 potential gene matches
Length: 948 bp    Location: 4919360..4913214   Strand: -
>XM_004863703.1
ATGGTAACAGCTCAGCTCCGGCGGTGTTTGTTGTCCCAGGCAGGAGCCTCCCTTCACACTGACCCCTTCTCTCCATCACAGGAGTACTCCCCCAGCTACAAGAGGCGCAGGACCGTGGAGGACTTCAACAAGTTCTGCACTTTCGTCTTGGCTTATGCTGGCTACATCCCATACCCGAAGGAGGAGCTCCCTCTGAGGAGCAGCCCCAGCCCTGCCAACAGCACCGCGGGCACTATTGATAGTGACGGCTGGGATGCAGGTTTCACCGACATCGCGTCCTCCGTGCCCCTGCCAGTGTCCGACCGCTGCTTTAGCCATCTGCAGCCCACCCTCCTGCAGCGGGCAAAGCCCAGCAACTTCCTGCTAGACAGAAAGAAGACAGATAAACTGAAGAAGAAGAAGAAGAGGAAGCGAAGGGACAGCGATGTCCCGGTGAAGGAGGCCTACCGAGGGGGCGTGCTGAAGCTGGAGGCTGCAGACCCATACTCTGAGACCCCCGAGAGCCCCGCCCTGCAGGGTCTGCCCCAAGCCCCCAGCGAGCCCTGCTCAGGCTGGGACTCCGACACTCCCTCGAGTGGCTCTTGTGCCACCACTGTGTCACCCGATCAGGTCAAAGAAATAAAACCTGAAGGCAAACGGACTATTGTCCGGCAGGGGAAGCAGGTGGTGTTCCGGGACGAGGACAGCACTGGCAACGATGAGGACATTATGGTGGACTCAGATGACGATTCCTGGGACCTAGTCACCTGCTTCTGCATGAAGCCATTTGCGGGCCGTCCCATGATAGAGTGTAACGAGTGCCACACCTGGATTCACCTGTCCTGTGCGAAGATCCGGAAGTCCAACGTTCCGGAAGTGTTCGTCTGCCAAAAGTGCCGGGACTCCAAGTTTGACATCCGCCGTTCCAACCGCTCCCGAATGGGCTCCCGCAAGCTGTTTCTGGACTGA

XM_004863707.1 Coding sequence

Zbtb48 zinc finger and BTB domain containing 48, transcript variant X2

Length: 1875 bp    Location: 4951230..4944093   Strand: -
>XM_004863707.1
ATGGACGGCTCCTTTGTCCAGCACAGTGTGAGGGTTCTGCAGGAGCTCAACAAGCAGCGGGAGAAGGGGCAGTATTGCGACGCCACCCTGGACGTGGGGGGCCTGGTGTTCAAGGCACACTGGAGCGTCCTTGCCTGCTGCAGTCACTTCTTCCAGAGCCTCTATGGGGATGGCTCAGGGGGCAGTGTTGTCCTTCCTGCTGGTTTCGCGGAGATCTTTGGCCTCCTTCTGGACTTTTTCTACACTGGTCACCTTGCCCTTACCTCAGGGAACCGGGATCAGGTGCTCCTGGCAGCCAGGGAGTTGCGAGTACCAGAGGTCGTGGAGCTGTGCCAGAGCTTCCAGTCCAAAACCTCCGTGGGACAGGCAGTGAGCGGCCAGAGTGGGCTGGGGAAACCTGCCTCTCGGGAAGTGAGCAGCCACCTCAAGGAGCCAACAGACTTGGAGGAAGAGGAAGGTTCGAGGACTCTGGGCCTGGTTCCCAGGGATCAGGACCCCAGAGATTGTCACAGCTCCCAGAGGCCCCAGCTCAGTCCCCCTGCTCAGACTGAGAGCCCCTCCTTCCTCTGTGGGAGACTCAAGCAGGCTGTGAAGCCTTGTCCCCCAGAGGACAAGGAGCCTGAGGACTGCAAAGTGCCCCCGAGGTCCTTCGAGGCTGAAGGTGCCCAGCTGCAGGGTGGGAGTAATGAGTGGGAAGTGGTGGTTCAAGTTGAGGACGACGGGGATGGTGATTGTGTTTCTGAGCTTGAGACTGTGCTGACCAGGAGGAAGTCAGAGGACATCAGAAAGCCCTGTGCTGCCGAGCCAGCCCTGGGTTCAGGGTCCCTGGCAGCTGAGCCCACTGAGAACAGAAAAGGGACAGCTGTGCCTGTTGAATGCCCTACGTGCCATAAAAAGTTCCTCAGCAAATACTATCTGAAGGTGCACAACAGGAAGCACACCGGGGAGAAACCCTTTGAGTGTCCCAAGTGTGGGAAGTGTTACTTCCGGAAGGAGAACCTCCTGGAGCATGAAGCCCGGAATTGCATGAACCGCTCGGAACAGGTCTTCACGTGCTCCGTGTGCCAGGAGACCTTCCGCCGGAGGACGGAGCTGCGGGTGCACATGGTGTCGCACACGGGGGAGATGCCCTACAAGTGCTCCTCCTGCTCCCAGCAGTTCATGCAGAAGAAGGATTTGCAGAGCCACATGATTAAGCTGCACGGAGCCCCCAAGCCCCACGCATGCCCCACCTGCGCCAAGTGCTTCCTGTCCCGGACTGAGCTACAGCTGCATGAGGCCTTCAAGCACCGCGGGGAGAAACTGTTTGTGTGCGAGGAGTGCGGGCACCGGGCCTCGAGCCGCAACGGGCTGCAGATGCACATCAAGGCCAAGCACAGGCACGAGCGGCCATACGTGTGCGAGTTCTGCAGCCACGCCTTCACACAGAAGGCCAACCTCAACATGCACCTACGCACACACACGGGTGAGAAGCCCTTCCAGTGCCACCTCTGTGGCAAGACTTTCCGTACCCAAGCCAGCCTGGACAAGCACAACCGCACCCACACGGGCGAGCGGCCCTTCAGCTGCGAGTTCTGTGAGCAGCGCTTCACGGAGAAGGGCCCCCTCCTGCGGCATGTGGCCAGCCGCCATCAGGAGGGCCGGCCCCACTTCTGCCAGATCTGTGGCAAGACCTTCAAAGGCCCTGCCAAGGCCTCCTGCTGTGTTTCCTGGCCCCCATCACAGTGGGCCCCCGGCACGCTCCCACCTGTCCTGATGCTGGTGGCCGTGTCCCTCCTGCAGCTGTGGAACAGTTACGCGTGCATGTCAGGCGGCACAAGGGGGTGCGGAAGTTCGAGTGCACTGAGTGTGGCTACAAATTCACACGGCAGGTAG

XM_004863709.1 Coding sequence

LOC101701597 taste receptor type 1 member 1-like, transcript variant X2

Length: 1764 bp    Location: 4959503..4951359   Strand: -
>XM_004863709.1
ATGTTGCTCTGGGTGACTCACCTGGTCCGTCTGCAGCTGGCCCTGACCTGCTGCTGGGCTCTCGACTGCCATGAAATGGCCTCTTCACCCGACTTCACTCTCCCGGGGGACTACCTCCTGTCAGGCCTGTTCCCCCTGCACAGCGACTGTCTGCAGGTGCGGCACAGCCCCCAGGTGACCCTCTGTGACAGGGCTAACAGCTTCAATGGCCACGGCTACCACCTCTTCCAGGCCATGCGGCTCAGCGTGGAGCAGATAAACAACTCCACGGCCCTGCTGCCCAACGTCACCCTGGGGTACGAGCTCCAGGACGTGTGCTCCGAGTCGGCCACTGTGTATGCAGTGCTGCACGCGCTGTCCCGGCAGGGCACGTACCACGTGGAGATGCAGGGAGACCTGTACCAATACTCTCCCCGGGCGATGGCTGTCATCGGGCCTGACACCACCAACAATGCGGGCACTGCCGCCGCCCTGCTGAGTCCCTTCCTAGTGCCCCTGCTTCTGGAGCAGATCTACAAGGTGAATTTCCTTCTACATGAGGACACTGTGGCGTTTGATAAGAATGGGGACCCCCTCGGTAGCTATGACATCATTGCCTGGGACTGGAGCGGGCCCATGTGGACCTTCAGGGTTGTTGGCTCCTCCACGTGGCCCCCTGTTCAGCTGGACATAAACAAGACCAATATTCGGTGGCCTGGAAAGGACAACCAGGTGCCCACGTCTGTGTGTACCAGAGACTGTGCGGAAGGGCACCATCGCGTGGTTGTGGGTTTCTACCATTGCTGCTTCGAATGCGTTCCCTGCGAGGCTGGGACCTTCCTCAACAAGAGTGACCTCTACCGCTGCCAGCCTTGTGGGAGAGAAGAGTGGTCACCTGAGGCCAGCCACACCTGCTTCCCACGCACGGAGGTGGTTCTGACTTGGCGTTGGCCCATCTCTTGGGTACTGTTGGCAGCTAATACACTGTTGCTGCTGCTGCTGGTAGGCACTACCGGCCTGTTTGCCTGGCATCTAGACACCCCTGTGGTGAAGTCAGCTGGGGGGAGGCTGTGCTTCCTCATGCTGGGGTCCCTGGCAGGGGGCAGCTGCAGCCTCTATGGCTTCTTTGTGGAGCCCACACTGCCCATGTGCCTGCTGCGACAAGCCCTCTTTTCCCTTGGTTTCGCCATCTTCCTGTCCTGCCTGATGATTCGCTCCTTCCACCTGGTCATCATCTTCAAGTTTGCCACCAAGGTGCCCACGTCCTACCATGCCTGGGTCCGAAACCATGGACCTGGCCTGTTTGTGATGCTCAGCTCAATGGCCCAGGTGCTCATCTGTCTAACCTGGCTTGTGGTGTGGACCCCACTGCCCACCAGGGAATACCGGCGCTTCCCCCAGCTGGTGGTGCTGGAGTGTACAGAGGCTATCTCGCCCGGCTTTCTGTTGGCTTTCACCTACAATGGCCTCCTCTCAGTCAGCGCCTTTGCCTGCAGCTACCTGGGCAAGGACCTGCCAGAGAACTACAACGAGGCCAAATGTGTCACCTTCAGCCTGCTCCTCAACTTTGTATCCTGGATCACCTTCTTCACCATGGCCAGCGTCTACCAGGGCCCGTTACTGTCCGTGATCAATGTGCTGGCCGCGCTGACCAGCCTGAGCGGCGGCTTCAGCGGCTATTTCCTCCCAAAGTGCTATGTAATCCTCTGCCGCCCAGACCTCAACAACACGGAGCACTTCCAGGCTTCCATCCAAGACTACTCGAGGCGCTGCGGGTCCACCTGA

XM_004863710.1 Coding sequence

Nol9 nucleolar protein 9

High confidence: 4 potential gene matches
Length: 2163 bp    Location: 4960678..4973939   Strand: +
>XM_004863710.1
ATGGCGGATTCCGTGTCTCCGGTCCGGAGGAATCCCGGCCGCTCCACGTGGGTGCGGGCCCGCAAGGCCCGGCCCCCGCTGATGCTGAGCCGCCGCTCCCGCCACCGGCTCAGGGCCCTGCGCTGGTGTGGCCGCCGGAGGCTGCGACGACGGGTGCTGCAGACCCAGGCGGCCGGTGCGGACTGGAGCGAGGGCGCCTGCCCGGGGCCTCGCGCCGAGGCACCCCAGAGGCCCAAGGCTGCGGCCCCCAGCCCGGCCCCGCGCCCGGTCCCAGGCCCGCTCCCTGCGCCCGCCCCGAGCGGCCCGGTCAGCCTCCCCATCCCGCCTGTGCGGGCGGCCGGCCCGGGCCGCGTGCTGCTGCTGCTGCCAGCGGACCAGGGTTTTACTTTTAGCGGGGTCTGTCGTATGACTTGCCTCTATGGCCAAGTGGAGGTGTTGGGTTTTGTCATCAGCCAAGGCCAGCCTGCCCACGATATCTTCTCTGCCTATACTCACTCTTACCTGACGATCAATGCAGTCCGTTACTCCATGCCTGAGAAGAGCAAGAAGGAGATCAAAAGGGAAGCCCGGGCTTGCCTCAGAGCGCATCTTAACCTGGAGGACAGATCTTGGGCAACGGGGAATTTTTCTCCTCTGTGTTCCATTGTGCTGCTGGAACATGTGAAGACCACCACCATAAACTTCATAGCCAGCCATCCGGGTTTATCTACCATTTTTGTGCAAGAGAAGGAAGCTTCCCAGGTTACTTCCGAGTGTTTAGTCTTGGGTTCTGTTGGCATCAAAAGAGAGAAGAGGAAGAGAGGCCTTCAGTTAACAGAGAGCACCCTGGTGGCCCTGGAGGAGTTAGTGAGTGTGTCCTGTGAGGACTCGGACGGCTGCCCCATTGTGCTGGTGTGTGGCGGTCAGGACGTGGGGAAGTCCACATTCAACAGGTACCTGATCAACCAGCTGTTGAACAGTATTTCCTGCGTGGACTACTTGGAATGTGATTTGGGGCAGACAGAATTCACTCCTCCTGGCTGCATTTCTCTGCTGAATATTACGGAACCAGTTCTGGGACCACCGTACACCCACCAGAGGACGCCGCAGAAGATGGTGTACTACGGGAAACTCTCCTGCAAAAACAGCTTCGAGAACTACATTGATATCATCAAATACGTGTTCAGTGCCTACAAAAGAGAGGCCCCGCTGATCATCAACACAATGGGCTGGGTGTCGGAGGAAGGCCTCCAGCTACTCATCGACCTCATCCGCCTGCTGTCCCCGAGCCACGTGGTGCAGTTCAGCTCCCCCAAGAGCAAGCACATGCCACCCCTCACCCCGGACTACGTGGCCGACCGGGACGGGCTGTACACCAAGAGCAAGTCCAGGCTCAGAAGCCAGGGCTTCTGCCTCCCGGAGTTCTCAGACAGCGTGGAGTTTGCCGATGAAGAGAAAGACAGCCCAGTTCTCTTTGCCGAACACAAACTGTTATCTGTGTTTTCAGAGTTTTCGTTCAGAAAAACTCCAAGGAATCGGGACTCACATAACAGGATTTTCCGAGACCTGACAGTGTTGGCTTACCTTGCCCAGCTGCTGCCCCCAGTGCCCAAGCCACTCAGTCCCCTGCATGGCCTGACGCCCTATCAGGTTCCTTTCAATGCCATTGCTCTGAGGATTACGCATTCTGACGTTGCCCCCACCCACATCCTGTACGCCGTCAATGGCAGCTGGCTGGGCCTGTGCCGGATCCTGGATGACATCCGAGGCTACTCGAGGGGGCCCATCCTGCTGGCCCAGACGCCCATCTGCGACTGCGTGGGGTTTGGGGTCTGCAGGGGCATAGACATGGAGAAGCGGCTGTACCACATCCTCACGCCCGTGCCCCCGGAGGAGTTACGGAGTGTGAACTGCCTGCTGGTCGGCGCCATCTCCATTCCACAGTGTGTCTTCAAGAGCCAGCATGGCCTGGAGGGGACAATTCCCTACATCACAATGGATTACAACTTTAAACTTCCCGGCGCATCAGAGAAAATCGGGGTAAGAGACAGTGAGAAAGAGCAGCTGCCCAAAGGGAAACTGCACCCCAGATCCAAGTTCTTCCGGAAAATGAAGTTTCTCAAGGGAAAAGACCATTCGTCCCAGCCTGGTGGCAGTGGAGAAGGCGGGGCTGGCGATGCATGA

XM_004863711.1 Coding sequence

Plekhg5 pleckstrin homology domain containing, family G (with RhoGef domain) member 5, transcript variant X1

Length: 3237 bp    Location: 4994521..5010747   Strand: +
>XM_004863711.1
ATGGCAGGAAGCCAGGCCTCCGCTTGGTCTGGGGCACAGACCGCGGCTTCCTCCAGCGAAATGGGGACTGGGCCCGGCGTCTCTGCCCGCCCAGCAGCCTCCGGGCTGGGCCCTAGGCCACTCTCCCTGGACCCGGAGCCCTTCGGGGCTCAGGGCAGCAGAGACCAGGTATGCCACCACACTGACTGCCAGCAGCTGCACTGCCGGGGTCCCCTCAACCTCTGCGAGGCCTGCGACAGCAAGTTCCACAGCACAGGGCATTATGACGGCCACGTCCGCTTCGACCTGCCCCCCCGGGGCTCTGTCCTGGCCCGGAATGTGTCCACCCGGTCGTGCCCACCCCGCACCAGCCCTGCGGTGGACTTGGAGGAAGAGGAGGAAAGTGCCACGGATGGCAGAGGGGATCGGAAGGCCACAGGCCTGAAACTCTCCAAGAAGAAGGCGAGGAGGAGACACACAGATGACCCGAGCAAGGAGTGCTTCACCTTGAAATTTGACCTGAACGTGGACATCGAGACGGAGTTTGTCCCAGCTGTGAAGAAGAAGTCGTTGGGGGAGGTGCTGCTGCCCGTGTTCGAAAGGAAGGGCATCACCCTGGGAGAAGTGGACATCTACCTGGACCAGTCCAGCACGCCACTGTCCCTCACCTTCGAGGCCTACAGGTTCGGTGGACACTACCTGAGGGTTAAAGCCAAGCCAGGGGACGAGGGCAAGGTGGAGCAGGGCGTGAAGGACGCTAAGTCACTGAGCCTCCCGATCCTGTGTCGGGCGGCCGGGGCCGGGGCCCCCGTGCTGGAGCGTGTGGACCCCCCGAGCCGCCGGGAGAACCTCGATGTCTTGGCCCCTGGCCGCAGGCGCAAGAACATGTCGGAGTTCCTGGGGGAGCCCAGCGTTCCGGGCCAGGAGCCCACCCCGCCCTCCAGCTGCTCTCTGCCCAGCAGCGGCCCCAGTGACAGCTGGAAGAACCGGGCAGCCAGTCGCTTCAGTGGCTTCTTCAGCTCCAGCCCCAGCACCAGCGGCCTGGGCCGGGAGGTGGACAAGATGGAGCAGCTGGAAGCCAAGCTGCACGCCTACAGCCTCTTCGGGCTGCCCCGGCTGCCCCACCAGCTGCGCTTCGATCATGACTCCTGGGAGGAGGAGGAGGAGGAAGAGGAGGAGGAGGATGAAGAGGAGGATCGTGCCTGCCCTCGGCTGGAGGACAACTGGCGGGAGCTCATTGATGGGCACGAGAAGCTGACCCGGCGGCAGTCCCACCAGCAGGAGGCGGTGTGGGAGCTCCTGCACACCGAGGCCTCCTACATCCGGAAACTGCGCGTCATCACCAACCTGTTCCTGTGCTGCCTCCTGAACTTGCAAGAGTCCGGGCTACTGTGCGAGGTGGAGGCGGAGCGGCTGTTCAGCAACATCCCCGAGATCGCGCGACTGCACCGCGCTCTGTGGAGCAGCGTGATGGCGCCGGTGCTGGACGAGGCGCGGCGCACGCGGACACTGCTGCAACCCGGAGACTTCCTCAAAGGCTTCAAGATGTTCGGCTCCCTGTTCAAGCCCTACATCCGCTACTGCATGGAGGAGGAGGGCTGCATGGAGTACATGCGTAGCCTGCTGCGCAACAACGAACTGTTCCGCGCCTACGTCACGTGGGCGGAGAAGCACCAGCAGTGCCAGAGGCTGAAGCTCAGCGACATGCTGGCCAAGCCCCACCAGCGCCTCACCAAATACCCGCTGCTGCTCAAGTCAGTGCTGAAGAAGACGGATGAGCCACGGGCCAAGGAGGCCGTTGTCACCATGATCAGCTCGGTGGAGTGCTTCATCCACCAAGTGAATGCGCGCATGCGGCAGGAGCAGGAGCGGCGGCGGCTGGCGGCCGTGGTGAGCCGCATCGATGCCTACGAGGTGGTGGAGGGCAGCAACGACGAGGTGGACAAGCTCCTGAAGGAGTTTCTGCACCTGGACCTCACAGCGCCCATCCCTGGAGCCTCGCCTGAGGAGACGCGGCAGCTGCTGCTGGAGGGCAGCCTGAGGATGAAGGAGGGGAAGGACAGCAAGATGGATGTGTACTGCTTCCTCTTCACCGATCTGCTCCTGGTGACCAAGGCAGTCAAGAAGGCCGAGAGGACCAAGGTCATCAGGCCACCGCTGCTGGTGGACAAGATCGTGTGCCGGGAGCTCCGGGACCCAGGCTCCTTCCTCCTCATCTACCTGAACGAGTTCCACAGTGCTGTGGCCGCCTACACGTTCCAGGCCAGCGGCCAGGCCTTGTGCCGTGGTTGGGTGGATGCCATTTACAATGCCCAGAACCAGCTGCAGCAGCTGCATGCCCAGGAGCAGCCCGGCAGCCAGCAGCAGCTGCAGAGCCTGGAGGAGGAGGAGGAGGAGGAAGAGGAGAGCAGCGCTTCGGCTGCCAGCTCCCCCACCATCCTGCGCAAGAGCAGCGACAGCCTGGACTCCCAGCGCGGTGCTTCTGATGGCTCCACCGAGACCCTGGCCATGGTTGTGGTGGAGCCTGGGGAGATGCTGTCCTCCCCCGAGTTGGGCGGTGGCCCCTTCGGCTCCCAGCCGGATGAGACCTCTCTGGGTACCACTGCCTCCTCCATCACGCCCACCAGCGAGCTGCTGCCCCTGGGTCCGGTGGACGGCCGCTCTTGCTCCATGGACTCGGCCTACGGCACCCTGTCCCCCACCTCCCTGCAGGACTTCGCAGCCCCGGCCCAAGTGGCCGATCCCACGCCCCAGCCCCTAGAGTCATCAGAACCCCCTTCACCCCCACCCTCACCCCGCCTGCGCCACCGCCTACCAGTCCAGCTTCTACCCCGCCTGCTCAAGTCCAAGTCGGAAGCCAGCCTCCCCCAGTTGCTGTCTGGGGCTGCCCCCCACAGAGCACCCCCAGCCCCCAGCCGAAGCCTGTCTGAGCTCTGCCTGGCTGCTGGCACCCCTGGCACTAGGACTCGGGGCTCCCCTCAGGAGGTGGGGCCTGGGTGGGACTGTCAGGGGATACCTAGCCCAGGCAGTGGCCCTGAGCCGTCAGAGGCGGAGAGCAGAGCCAGCTGCCAGGCTGGGGATCCTGCGGGCCCCACCAAGAGGAGGTGCAGGGGGCTGCCCTCGGGGGTTTCTCCCCAGGCCCAGCCTGAGCCCCCTCCAGGGCTCTCAGGCCAGCACAGGAAGCTGACCCTGGCCCAGCTGTACCGAATCAGGACCACCCTGCTGCTTAACTCCACGCTTACTGCCTCGGAGGTCTGA

XM_004863724.1 Coding sequence

Acot7 acyl-CoA thioesterase 7, transcript variant X3

Length: 1050 bp    Location: 5088249..5142135   Strand: +
>XM_004863724.1
ATGGGCCCTGCGAGGCTCACCTGTGTGAGGAGAGCAGAGGCACCGGGAAGGGGCCCTGCCGTGACAGGACCGCAAAGCAGGATCATGCGGCCAGACGACGCTAATGTGGCGGGCAACGTCCACGGCGGGACCATCCTGAAGATGATTGAGGAGGCCGGGGCCATCATCAGCACCCGGCACTGCAACAGCCAGAATGGGGAGCGCTGTGTGGCTGCCCTGGCCCGGGTGGAGCGTACCGATTTCCTGTCGCCCATGTGCATCGGTGAGGTGGCACACGTCAGTGCTGAGATCACCTACACCTCCAGACACTCTGTGGAAGTCCAGGTCCACGTGATGTCCGAAAACATCCTCACAGGAACCAAAAAGCTGACCAATAAGGCCACCCTGTGGTACGTGCCCCTGTCCCTGAAGAATGTGGACAAAGTCCTCGAGGTGCCTCCTGTTGTGTATTCCCGCCAGGAGCAGGAGGAGGAGGGCCGGAAGCGGTATGAAGCCCAGAAACTGGAGCGCATGGAGACCAAGTGGAGGAACGGGGACATCGTACAGCCCATCCTGAATCCAGAGCCCAACACCGTGAGCTACAGCCAGTCGAGCCTGATCCACCTGGTGGGGCCCTCGGACTGCACCCTGCATGGCTTCGTGCATGGAGGGGTCACCATGAAGCTCATGGACGAGGTGGCCGGGATCGTGGCTGCCCGCCACTGCAAGACCAACATAGTCACGGCTTCTGTGGACGCCATTAATTTTCACGACAAGATCCGGAAAGGCTGTGTCATCACCATCTCGGGCCGCATGACCTTCACAAGCAACAAGTCCATGGAGATCGAGGTGCTGGTGGATGCCGACCCCGTGGTGGACAACTTGCAGAAGCGCTACCGGGCCGCCAGCGCCTTCTTCACCTACGTGTCGCTGAGCCAGGAGGGCAAGCCGCTGCCTGTGCCGCAGCTGGTGCCCGAGACCGAGGATGAGAAGAAGCGCTTTGAGGATGGCAAAGGGCGATACCTGCAGGTGAAGGCGAAGCGGCAGGCCCAGGTGGAGCCTCAGCCCTAG

XM_004863713.1 Coding sequence

Plekhg5 pleckstrin homology domain containing, family G (with RhoGef domain) member 5, transcript variant X3

Length: 3237 bp    Location: 4994521..5009601   Strand: +
>XM_004863713.1
ATGGCAGGAAGCCAGGCCTCCGCTTGGTCTGGGGCACAGACCGCGGCTTCCTCCAGCGAAATGGGGACTGGGCCCGGCGTCTCTGCCCGCCCAGCAGCCTCCGGGCTGGGCCCTAGGCCACTCTCCCTGGACCCGGAGCCCTTCGGGGCTCAGGGCAGCAGAGACCAGGTATGCCACCACACTGACTGCCAGCAGCTGCACTGCCGGGGTCCCCTCAACCTCTGCGAGGCCTGCGACAGCAAGTTCCACAGCACAGGGCATTATGACGGCCACGTCCGCTTCGACCTGCCCCCCCGGGGCTCTGTCCTGGCCCGGAATGTGTCCACCCGGTCGTGCCCACCCCGCACCAGCCCTGCGGTGGACTTGGAGGAAGAGGAGGAAAGTGCCACGGATGGCAGAGGGGATCGGAAGGCCACAGGCCTGAAACTCTCCAAGAAGAAGGCGAGGAGGAGACACACAGATGACCCGAGCAAGGAGTGCTTCACCTTGAAATTTGACCTGAACGTGGACATCGAGACGGAGTTTGTCCCAGCTGTGAAGAAGAAGTCGTTGGGGGAGGTGCTGCTGCCCGTGTTCGAAAGGAAGGGCATCACCCTGGGAGAAGTGGACATCTACCTGGACCAGTCCAGCACGCCACTGTCCCTCACCTTCGAGGCCTACAGGTTCGGTGGACACTACCTGAGGGTTAAAGCCCCTCCCAAGCCAGGGGACGAGGGCAAGGTGGAGCAGGGCGTGAAGGACGCTAAGTCACTGAGCCTCCCGATCCTGTGTCGGGCGGCCGGGGCCGGGGCCCCCGTGCTGGAGCGTGTGGACCCCCCGAGCCGCCGGGAGAACCTCGATGTCTTGGCCCCTGGCCGCAGGCGCAAGAACATGTCGGAGTTCCTGGGGGAGCCCAGCGTTCCGGGCCAGGAGCCCACCCCGCCCTCCAGCTGCTCTCTGCCCAGCAGCGGCCCCAGTGACAGCTGGAAGAACCGGGCAGCCAGTCGCTTCAGTGGCTTCTTCAGCTCCAGCCCCAGCACCAGCGGCCTGGGCCGGGAGGTGGACAAGATGGAGCAGCTGGAAGCCAAGCTGCACGCCTACAGCCTCTTCGGGCTGCCCCGGCTGCCCCACCAGCTGCGCTTCGATCATGACTCCTGGGAGGAGGAGGAGGAGGAAGAGGAGGAGGAGGATGAAGAGGAGGATCGTGCCTGCCCTCGGCTGGAGGACAACTGGCGGGAGCTCATTGATGGGCACGAGAAGCTGACCCGGCGGCAGTCCCACCAGCAGGAGGCGGTGTGGGAGCTCCTGCACACCGAGGCCTCCTACATCCGGAAACTGCGCGTCATCACCAACCTGTTCCTGTGCTGCCTCCTGAACTTGCAAGAGTCCGGGCTACTGTGCGAGGTGGAGGCGGAGCGGCTGTTCAGCAACATCCCCGAGATCGCGCGACTGCACCGCGCTCTGTGGAGCAGCGTGATGGCGCCGGTGCTGGACGAGGCGCGGCGCACGCGGACACTGCTGCAACCCGGAGACTTCCTCAAAGGCTTCAAGATGTTCGGCTCCCTGTTCAAGCCCTACATCCGCTACTGCATGGAGGAGGAGGGCTGCATGGAGTACATGCGTAGCCTGCTGCGCAACAACGAACTGTTCCGCGCCTACGTCACGTGGGCGGAGAAGCACCAGCAGTGCCAGAGGCTGAAGCTCAGCGACATGCTGGCCAAGCCCCACCAGCGCCTCACCAAATACCCGCTGCTGCTCAAGTCAGTGCTGAAGAAGACGGATGAGCCACGGGCCAAGGAGGCCGTTGTCACCATGATCAGCTCGGTGGAGTGCTTCATCCACCAAGTGAATGCGCGCATGCGGCAGGAGCAGGAGCGGCGGCGGCTGGCGGCCGTGGTGAGCCGCATCGATGCCTACGAGGTGGTGGAGGGCAGCAACGACGAGGTGGACAAGCTCCTGAAGGAGTTTCTGCACCTGGACCTCACAGCGCCCATCCCTGGAGCCTCGCCTGAGGAGACGCGGCAGCTGCTGCTGGAGGGCAGCCTGAGGATGAAGGAGGGGAAGGACAGCAAGATGGATGTGTACTGCTTCCTCTTCACCGATCTGCTCCTGGTGACCAAGGCAGTCAAGAAGGCCGAGAGGACCAAGGTCATCAGGCCACCGCTGCTGGTGGACAAGATCGTGTGCCGGGAGCTCCGGGACCCAGGCTCCTTCCTCCTCATCTACCTGAACGAGTTCCACAGTGCTGTGGCCGCCTACACGTTCCAGGCCAGCGGCCAGGCCTTGTGCCGTGGTTGGGTGGATGCCATTTACAATGCCCAGAACCAGCTGCAGCAGCTGCATGCCCAGGAGCAGCCCGGCAGCCAGCAGCAGCTGCAGAGCCTGGAGGAGGAGGAGGAGGAGGAAGAGGAGAGCAGCGCTTCGGCTGCCAGCTCCCCCACCATCCTGCGCAAGAGCAGCGACAGCCTGGACTCCCAGCGCGGTGCTTCTGATGGCTCCACCGAGACCCTGGCCATGGTTGTGGTGGAGCCTGGGGAGATGCTGTCCTCCCCCGAGTTGGGCGGTGGCCCCTTCGGCTCCCAGCCGGATGAGACCTCTCTGGGTACCACTGCCTCCTCCATCACGCCCACCAGCGAGCTGCTGCCCCTGGGTCCGGTGGACGGCCGCTCTTGCTCCATGGACTCGGCCTACGGCACCCTGTCCCCCACCTCCCTGCAGGACTTCGCAGCCCCGGCCCAAGTGGCCGATCCCACGCCCCAGCCCCTAGAGTCATCAGAACCCCCTTCACCCCCACCCTCACCCCGCCTGCGCCACCGCCTACCAGTCCAGCTTCTACCCCGCCTGCTCAAGTCCAAGTCGGAAGCCAGCCTCCCCCAGTTGCTGTCTGGGGCTGCCCCCCACAGAGCACCCCCAGCCCCCAGCCGAAGCCTGTCTGAGCTCTGCCTGGCTGCTGGCACCCCTGGCACTAGGACTCGGGGCTCCCCTCAGGAGGTGGGGCCTGGGTGGGACTGTCAGGGGATACCTAGCCCAGGCAGTGGCCCTGAGCCGTCAGAGGCGGAGAGCAGAGCCAGCTGCCAGGCTGGGGATCCTGCGGGCCCCACCAAGAGGAGGTGCAGGGGGCTGCCCTCGGGGGTTTCTCCCCAGGCCCAGCCTGAGCCCCCTCCAGGGCTCTCAGGCCAGCACAGGAAGCTGACCCTGGCCCAGCTGTACCGAATCAGGACCACCCTGCTGCTTAACTCCACGCTTACTGCCTCGTGA

XM_004863712.1 Coding sequence

Plekhg5 pleckstrin homology domain containing, family G (with RhoGef domain) member 5, transcript variant X2

Length: 3231 bp    Location: 4994521..5009601   Strand: +
>XM_004863712.1
ATGGCAGGAAGCCAGGCCTCCGCTTGGTCTGGGGCACAGACCGCGGCTTCCTCCAGCGAAATGGGGACTGGGCCCGGCGTCTCTGCCCGCCCAGCAGCCTCCGGGCTGGGCCCTAGGCCACTCTCCCTGGACCCGGAGCCCTTCGGGGCTCAGGGCAGCAGAGACCAGGTATGCCACCACACTGACTGCCAGCAGCTGCACTGCCGGGGTCCCCTCAACCTCTGCGAGGCCTGCGACAGCAAGTTCCACAGCACAGGGCATTATGACGGCCACGTCCGCTTCGACCTGCCCCCCCGGGGCTCTGTCCTGGCCCGGAATGTGTCCACCCGGTCGTGCCCACCCCGCACCAGCCCTGCGGTGGACTTGGAGGAAGAGGAGGAAAGTGCCACGGATGGCAGAGGGGATCGGAAGGCCACAGGCCTGAAACTCTCCAAGAAGAAGGCGAGGAGGAGACACACAGATGACCCGAGCAAGGAGTGCTTCACCTTGAAATTTGACCTGAACGTGGACATCGAGACGGAGTTTGTCCCAGCTGTGAAGAAGAAGTCGTTGGGGGAGGTGCTGCTGCCCGTGTTCGAAAGGAAGGGCATCACCCTGGGAGAAGTGGACATCTACCTGGACCAGTCCAGCACGCCACTGTCCCTCACCTTCGAGGCCTACAGGTTCGGTGGACACTACCTGAGGGTTAAAGCCAAGCCAGGGGACGAGGGCAAGGTGGAGCAGGGCGTGAAGGACGCTAAGTCACTGAGCCTCCCGATCCTGTGTCGGGCGGCCGGGGCCGGGGCCCCCGTGCTGGAGCGTGTGGACCCCCCGAGCCGCCGGGAGAACCTCGATGTCTTGGCCCCTGGCCGCAGGCGCAAGAACATGTCGGAGTTCCTGGGGGAGCCCAGCGTTCCGGGCCAGGAGCCCACCCCGCCCTCCAGCTGCTCTCTGCCCAGCAGCGGCCCCAGTGACAGCTGGAAGAACCGGGCAGCCAGTCGCTTCAGTGGCTTCTTCAGCTCCAGCCCCAGCACCAGCGGCCTGGGCCGGGAGGTGGACAAGATGGAGCAGCTGGAAGCCAAGCTGCACGCCTACAGCCTCTTCGGGCTGCCCCGGCTGCCCCACCAGCTGCGCTTCGATCATGACTCCTGGGAGGAGGAGGAGGAGGAAGAGGAGGAGGAGGATGAAGAGGAGGATCGTGCCTGCCCTCGGCTGGAGGACAACTGGCGGGAGCTCATTGATGGGCACGAGAAGCTGACCCGGCGGCAGTCCCACCAGCAGGAGGCGGTGTGGGAGCTCCTGCACACCGAGGCCTCCTACATCCGGAAACTGCGCGTCATCACCAACCTGTTCCTGTGCTGCCTCCTGAACTTGCAAGAGTCCGGGCTACTGTGCGAGGTGGAGGCGGAGCGGCTGTTCAGCAACATCCCCGAGATCGCGCGACTGCACCGCGCTCTGTGGAGCAGCGTGATGGCGCCGGTGCTGGACGAGGCGCGGCGCACGCGGACACTGCTGCAACCCGGAGACTTCCTCAAAGGCTTCAAGATGTTCGGCTCCCTGTTCAAGCCCTACATCCGCTACTGCATGGAGGAGGAGGGCTGCATGGAGTACATGCGTAGCCTGCTGCGCAACAACGAACTGTTCCGCGCCTACGTCACGTGGGCGGAGAAGCACCAGCAGTGCCAGAGGCTGAAGCTCAGCGACATGCTGGCCAAGCCCCACCAGCGCCTCACCAAATACCCGCTGCTGCTCAAGTCAGTGCTGAAGAAGACGGATGAGCCACGGGCCAAGGAGGCCGTTGTCACCATGATCAGCTCGGTGGAGTGCTTCATCCACCAAGTGAATGCGCGCATGCGGCAGGAGCAGGAGCGGCGGCGGCTGGCGGCCGTGGTGAGCCGCATCGATGCCTACGAGGTGGTGGAGGGCAGCAACGACGAGGTGGACAAGCTCCTGAAGGAGTTTCTGCACCTGGACCTCACAGCGCCCATCCCTGGAGCCTCGCCTGAGGAGACGCGGCAGCTGCTGCTGGAGGGCAGCCTGAGGATGAAGGAGGGGAAGGACAGCAAGATGGATGTGTACTGCTTCCTCTTCACCGATCTGCTCCTGGTGACCAAGGCAGTCAAGAAGGCCGAGAGGACCAAGGTCATCAGGCCACCGCTGCTGGTGGACAAGATCGTGTGCCGGGAGCTCCGGGACCCAGGCTCCTTCCTCCTCATCTACCTGAACGAGTTCCACAGTGCTGTGGCCGCCTACACGTTCCAGGCCAGCGGCCAGGCCTTGTGCCGTGGTTGGGTGGATGCCATTTACAATGCCCAGAACCAGCTGCAGCAGCTGCATGCCCAGGAGCAGCCCGGCAGCCAGCAGCAGCTGCAGAGCCTGGAGGAGGAGGAGGAGGAGGAAGAGGAGAGCAGCGCTTCGGCTGCCAGCTCCCCCACCATCCTGCGCAAGAGCAGCGACAGCCTGGACTCCCAGCGCGGTGCTTCTGATGGCTCCACCGAGACCCTGGCCATGGTTGTGGTGGAGCCTGGGGAGATGCTGTCCTCCCCCGAGTTGGGCGGTGGCCCCTTCGGCTCCCAGCCGGATGAGACCTCTCTGGGTACCACTGCCTCCTCCATCACGCCCACCAGCGAGCTGCTGCCCCTGGGTCCGGTGGACGGCCGCTCTTGCTCCATGGACTCGGCCTACGGCACCCTGTCCCCCACCTCCCTGCAGGACTTCGCAGCCCCGGCCCAAGTGGCCGATCCCACGCCCCAGCCCCTAGAGTCATCAGAACCCCCTTCACCCCCACCCTCACCCCGCCTGCGCCACCGCCTACCAGTCCAGCTTCTACCCCGCCTGCTCAAGTCCAAGTCGGAAGCCAGCCTCCCCCAGTTGCTGTCTGGGGCTGCCCCCCACAGAGCACCCCCAGCCCCCAGCCGAAGCCTGTCTGAGCTCTGCCTGGCTGCTGGCACCCCTGGCACTAGGACTCGGGGCTCCCCTCAGGAGGTGGGGCCTGGGTGGGACTGTCAGGGGATACCTAGCCCAGGCAGTGGCCCTGAGCCGTCAGAGGCGGAGAGCAGAGCCAGCTGCCAGGCTGGGGATCCTGCGGGCCCCACCAAGAGGAGGTGCAGGGGGCTGCCCTCGGGGGTTTCTCCCCAGGCCCAGCCTGAGCCCCCTCCAGGGCTCTCAGGCCAGCACAGGAAGCTGACCCTGGCCCAGCTGTACCGAATCAGGACCACCCTGCTGCTTAACTCCACGCTTACTGCCTCGTGA

XM_004863716.1 Coding sequence

Espn espin, transcript variant X1

Length: 2568 bp    Location: 5042724..5015766   Strand: -
>XM_004863716.1
ATGGCCCTGGAGCGAGCGCTGCAGGCGGCGCGGCAGGGCGAGCTGGACCAGCTGAGGTCCCTGCACGCCGCCGGCCTGCTGGAGCCCTCGCTGCGCGACCCACTGGACGCGCTGCCCGTGCACCACGCGGCCCGCGCCGGCAAGCTGCACTGCCTGCGCTTCCTGGTGGAGGATGCCGGGCTGCCCGCAGCGGCCCGCGCACGCAACGGCGCCACGCCAGCCCACGACGCCGCGGCCACCGGCCATCTGGCCTGCCTGCAGTGGCTGCTGTCGAAGGGCGGCTGCAGAGTGCAGGACAAAGACAATTCCGGTGCCACAGTCCTGCACCTGGCAGCTCGCTTCGGCCACCCCGAGGTGGTGAACTGGCTGCTGCACCATGCCGATGCAGATCCCGCCGTGGCCACGGACACAGGCGCCTTGCCTGTCCACTACGCCGCCGCCAAAGGGGACTTCCTCTCCCTGAGGCTGCTCGTCGGGGACTACCCGAAGGGAGTGAAGGCCCAAACCAAGAACGGTGCCACGCCCCTGTACCTGGCGTGCCAAGAGGGCCACCTGGAGGTGACGCAGTACCTGGTGCAGCAGTGCGGCGCGGATCCGCACGCGCGCGCCCAGGATGGCATGACCCCGCTGCACGCCGCGGCGCAGATGGGCCACGCCCCAGTCATCGTGTGGCTGGTGAGCTGCACGGACGTGAGCCTGGCGGAGCAGGACAAGGACGGCGCCACCGCCATGCACTTCGCTGCGAGCCGCGGCCACGCCAAAGTGCTCAGCTGGCTTCTGCTGCACGGCGGCGAGATCTCGACTGACCTGTGCGGCGGGACCCCGCTGCATGACGCCGCAGAGAACGGGGAGCTGGAGTGCTGCCAGATCCTGGTAGTGAACGGCGCGGAACTGGACGTCCGCGACCGTGACGGGTACACGGCCGCCGACCTGTCGGACTTCAATGGCCACAGCCACTGCACTCGCTACTTGCGCACCGTGGAGAACCTGAGCGTGGAGCACCATGTGCTGTCCCGGGACCCGTCCACTGAGCTGGAGGCCAGGCAGCCCGACTCGGGCATGTCCTCACCCAACACCACCGTGTCTGTGCACCGGCCCAACGTTGACCTCAGCTCACCCACCAGCACCCTCTCCAACTACGACTCCTGCTCCTCCAGCCACTCCAGCCTCAAGGGCCGGCAGCCTCCTGGTGGGCTTCCGGGTGCAAGGGCTGTAGACATACAGAGCTACATGGACATGCTGAACCCAGAGCTGGGCCTGCCTCCAAGCAAGACGGGGAAGCCTGCACCTCCACCGCCACCCCCTAGCTTCCCTCCACCACCACCACCCCCAGGCAGTCAGCTGCCCCCACCCCCACCAGGCTACCCGGCTCCCAAGCCCCCATCGTCGGGCCTGCAGGCAGCTGACATCTACATGCAGACCAAGAGCAAGCTCCGCCACGTGGAGACCGAGACCCTCAGGAAGGAGCCCGGCTCGCCCGACGGCCCCCACGGGCTGCGCAGGCAGGACTCTGGTCGCAAGCCCCGCTCCTTCAGCAAGCAGCCCACCACGGGGGACTACTACCGCCAGCTGGGCCTCCGCCCCGCCGAGCCCCCGGCCGCGCGCCCGGGCATGGCGCACAGCGAGGAGGTGCGCGCCCGCAAGCCCTCGCCCGCCGCCCCCCGCCCGGGACCCGGCCCCGCATCCTGTGCCTCATTCGCCGGGCCCTCTGCTCCCCCGCAGACGTCTCTGCTCCCCGGGAACCACGTGCACAACGGCTGCGCTGCGGACCCCAACCCCAAGGCGTCCAGGGATCTTCCACCGCCACCGCCCGCCCCGCCTCTGCCCGAGGCCCTGAGCTCGCCACCGCCCGCCCCGCCTCTGCCCCTCGAGGGTGCGGGCCCGGGCTGCGGGCAGCGCCGCTCCTCCTCTTCCACCGGCAGCACCAAGTCTTTCAACATGATGTCCCCGACGGGTGACAACTCGGAGCTACTGGCTGAGATCAAGGCAGGCAAGAGCCTGAAGCCCACACCGCAGAGCAAGGGGCTGACTACAGTGTTCTCAGGCAGCGGGCAGCCGGCCTCCCAGCCCGACTCACCGCTGCCACCAGTGTTGCCTGCGCCATCTCGGGCCCGGAGCCCCACCCCGCCAGCTTCGGGGGCTCAGCCTCTGCTCAACGGCAGCGTGGTGCCGGCACCGCCCGCCACCCCTGCACCGGGCGTGCAGCTGGATGTGGAGCCCCTCATCCCCACGCGCGACGAGCAGGGCCGGCCCATTCCCGAGTGGAAGCGGCAGGTGATGGTGCGAAAGCTGCAGCTGAAGATGCAGGAGGAGGAGGAGCAGAGGCGGAAGGAGGAGGAGGAGGAAGCTCGGCTGGCCAGCCTGCCTGCCTGGAGGCGGGACCTCCTTCGGAAGAAGCTGGAAGAGGAAAGGGAGCAGAAGCGAAAAGAGGAGGAGAGACAAAAGCAGGAGGAGATGCAGCGGGAGAAAGAGCAGTCGGAGAAGCTGCGAACGCTTGGCTACGACGAGACTAAGCTGGCGCCCTGGCAGCGACAGGTCATCCTGAAGAAGGGGGACATCCCTAAGTAA

XM_004863718.1 Coding sequence

Espn espin, transcript variant X3

Length: 1359 bp    Location: 5030013..5015766   Strand: -
>XM_004863718.1
ATGGGCAACAGCGTGGAGCACCATGTGCTGTCCCGGGACCCGTCCACTGAGCTGGAGGCCAGGCAGCCCGACTCGGGCATGTCCTCACCCAACACCACCGTGTCTGTGCACCGGCCCAACGTTGACCTCAGCTCACCCACCAGCACCCTCTCCAACTACGACTCCTGCTCCTCCAGCCACTCCAGCCTCAAGGGCCGGCAGCCTCCTGGTGGGCTTCCGGGTGCAAGGGCTGTAGACATACAGAGCTACATGGACATGCTGAACCCAGAGCTGGGCCTGCCTCCAAGCAAGACGGGGAAGCCTGCACCTCCACCGCCACCCCCTAGCTTCCCTCCACCACCACCACCCCCAGGCAGTCAGCTGCCCCCACCCCCACCAGGCTACCCGGCTCCCAAGCCCCCATCGTCGGGCCTGCAGGCAGCTGACATCTACATGCAGACCAAGAGCAAGCTCCGCCACGTGGAGACCGAGACCCTCAGGAAGGAGACGTCTCTGCTCCCCGGGAACCACGTGCACAACGGCTGCGCTGCGGACCCCAACCCCAAGGCGTCCAGGGATCTTCCACCGCCACCGCCCGCCCCGCCTCTGCCCGAGGCCCTGAGCTCGCCACCGCCCGCCCCGCCTCTGCCCCTCGAGGGTGCGGGCCCGGGCTGCGGGCAGCGCCGCTCCTCCTCTTCCACCGGCACAGTGAGAGTCCTGAGACACAGGAAGAGCACCAAGTCTTTCAACATGATGTCCCCGACGGGTGACAACTCGGAGCTACTGGCTGAGATCAAGGCAGGCAAGAGCCTGAAGCCCACACCGCAGAGCAAGGGGCTGACTACAGTGTTCTCAGGCAGCGGGCAGCCGGCCTCCCAGCCCGACTCACCGCTGCCACCAGTGTTGCCTGCGCCATCTCGGGCCCGGAGCCCCACCCCGCCAGCTTCGGGGGCTCAGCCTCTGCTCAACGGCAGCGTGGTGCCGGCACCGCCCGCCACCCCTGCACCGGGCGTGCAGCTGGATGTGGAGCCCCTCATCCCCACGCGCGACGAGCAGGGCCGGCCCATTCCCGAGTGGAAGCGGCAGGTGATGGTGCGAAAGCTGCAGCTGAAGATGCAGGAGGAGGAGGAGCAGAGGCGGAAGGAGGAGGAGGAGGAAGCTCGGCTGGCCAGCCTGCCTGCCTGGAGGCGGGACCTCCTTCGGAAGAAGCTGGAAGAGGAAAGGGAGCAGAAGCGAAAAGAGGAGGAGAGACAAAAGCAGGAGGAGATGCAGCGGGAGAAAGAGCAGTCGGAGAAGCTGCGAACGCTTGGCTACGACGAGACTAAGCTGGCGCCCTGGCAGCGACAGGTCATCCTGAAGAAGGGGGACATCCCTAAGTAA

XM_004863720.1 Coding sequence

Espn espin, transcript variant X5

Length: 762 bp    Location: 5022711..5015766   Strand: -
>XM_004863720.1
ATGAACTCCCAGGGGCCTCCAGGCAGGGGCTCTACACACTGCACCAAGTCTTTCAACATGATGTCCCCGACGGGTGACAACTCGGAGCTACTGGCTGAGATCAAGGCAGGCAAGAGCCTGAAGCCCACACCGCAGAGCAAGGGGCTGACTACAGTGTTCTCAGGCAGCGGGCAGCCGGCCTCCCAGGTAGGAGGCAGGCAGGTGCCCTGCCCCGGCTCCCAGGGCTTGCCCAGTGCTCAGCGCCACTGCTTCTACCCGCAGCCCGACTCACCGCTGCCACCAGTGTTGCCTGCGCCATCTCGGGCCCGGAGCCCCACCCCGCCAGCTTCGGGGGCTCAGCCTCTGCTCAACGGCAGCGTGGTGCCGGCACCGCCCGCCACCCCTGCACCGGGCGTGCAGCTGGATGTGGAGCCCCTCATCCCCACGCGCGACGAGCAGGGCCGGCCCATTCCCGAGTGGAAGCGGCAGGTGATGGTGCGAAAGCTGCAGCTGAAGATGCAGGAGGAGGAGGAGCAGAGGCGGAAGGAGGAGGAGGAGGAAGCTCGGCTGGCCAGCCTGCCTGCCTGGAGGCGGGACCTCCTTCGGAAGAAGCTGGAAGAGGAAAGGGAGCAGAAGCGAAAAGAGGAGGAGAGACAAAAGCAGGAGGAGATGCAGCGGGAGAAAGAGCAGTCGGAGAAGCTGCGAACGCTTGGCTACGACGAGACTAAGCTGGCGCCCTGGCAGCGACAGGTCATCCTGAAGAAGGGGGACATCCCTAAGTAA

XM_004863726.1 Coding sequence

Acot7 acyl-CoA thioesterase 7, transcript variant X5

Length: 990 bp    Location: 5097043..5142135   Strand: +
>XM_004863726.1
ATGACTGTGACAGTGGCGCTGTCACAGGCTCCCCAGCCTGAGCGAGACCCACCTGGGAGGATGAGACCCACCTGGGAGGATGAGACCCAGGTCCCAGCTTCGGAGAGGCAGGTCCAGGTTGGGGACGCACCGGGGAAGGAGCGCTGTGTGGCTGCCCTGGCCCGGGTGGAGCGTACCGATTTCCTGTCGCCCATGTGCATCGGTGAGGTGGCACACGTCAGTGCTGAGATCACCTACACCTCCAGACACTCTGTGGAAGTCCAGGTCCACGTGATGTCCGAAAACATCCTCACAGGAACCAAAAAGCTGACCAATAAGGCCACCCTGTGGTACGTGCCCCTGTCCCTGAAGAATGTGGACAAAGTCCTCGAGGTGCCTCCTGTTGTGTATTCCCGCCAGGAGCAGGAGGAGGAGGGCCGGAAGCGGTATGAAGCCCAGAAACTGGAGCGCATGGAGACCAAGTGGAGGAACGGGGACATCGTACAGCCCATCCTGAATCCAGAGCCCAACACCGTGAGCTACAGCCAGTCGAGCCTGATCCACCTGGTGGGGCCCTCGGACTGCACCCTGCATGGCTTCGTGCATGGAGGGGTCACCATGAAGCTCATGGACGAGGTGGCCGGGATCGTGGCTGCCCGCCACTGCAAGACCAACATAGTCACGGCTTCTGTGGACGCCATTAATTTTCACGACAAGATCCGGAAAGGCTGTGTCATCACCATCTCGGGCCGCATGACCTTCACAAGCAACAAGTCCATGGAGATCGAGGTGCTGGTGGATGCCGACCCCGTGGTGGACAACTTGCAGAAGCGCTACCGGGCCGCCAGCGCCTTCTTCACCTACGTGTCGCTGAGCCAGGAGGGCAAGCCGCTGCCTGTGCCGCAGCTGGTGCCCGAGACCGAGGATGAGAAGAAGCGCTTTGAGGATGGCAAAGGGCGATACCTGCAGGTGAAGGCGAAGCGGCAGGCCCAGGTGGAGCCTCAGCCCTAG

XR_206044.1 Non-coding sequence

LOC101705615 PREDICTED: Heterocephalus glaber uncharacterized LOC101705615 (LOC101705615), misc_RNA.

Length: 1740 bp     
>XR_206044.1
GGCGGGGAGGCCCGGAGGCGCGGGGCGGGGGTTCCCCCCCCCTCGCTGCTGCGCGCACGCACGGTGCCACTTTCCTTATCTAATTCTCTTTATCCAGTTCCTTGAGCTTTGTGAGGGATAAAAGGTGATGAACGTATAGGCCCTAGGGAGGCTGAGGCAGGAGGATCTGGATGAGTTCCAGGCCAACCTGAACTACAAAGTGAGACCTTGTCTCAGAGGCCCCACCCAAAAAAGCTAGGCCTGTTTTCTCCTTTGTTCTTTCCTTGCCCTGATCTGTAAATGCAAAATAGCGAGCATTTATGTAAACTATGCAAAGTAGCAAGTATTTACTGAGGCCCTGCCCTTTATATAAAGATATGCTCATCTAGGTGAGTGTGCTTCAGAAGTTCAAAATCTGATTGGAAGGCTGATCAGTGACCCAAGAAGCCTAACTCAGGCCACACACTGCTATAGAGAGTCCTAAACCAGAGGGATAGCCAGGGTGGTTTGGGATTAAACCCTCATCTCTTCTAGAGGGGGTAAAAGAATGAGAACAGCCCCTGTGCTGTAAGAAGAGAGCTGCTGCTGCCCTCTGACCTGAGATGGCATCTGTCACCACTTCCTTTACAGCCCCGCAGGTGACGGGACCAGCAAGATGACAGCCCCTGGATGTTGGCCATCTGATTGCTGACCATCGTGCCGCTGTCGGGGCCCCACTGAGCTAAAATGTGAGCTGTTTCTGCCATGGTGCTGGTGGATTTACACAGATCTCTCACCGCTCCTTGCAGGTGGATTTACACAGATCTCTCACTGCTCCTTGCAGCAAGGTCCCTAATTCCTTCTGGGTTGCTGAATCCAGTAATCCTGAGGGGCTAAACCTGGCAATCTCCTGTCAGGAGTCGTCTTCCTGGATCTCGGCACTGCTCAGGTGGACGCCCTCTCTTGGCCCAGCCACCCCCACCCCAGAAGCCCCTGGCTGGCGGGCCCTGCCCTGTCTCCTGATTTAATTCCCATCCAGACTGCATGGCGCTGCGGCTGCCCAGCCTCGCCTGAGTTCCTGATCCACGTGTCCTCTTGCTCACAGCAACTCCCACTGTGCCACCGTGTAGGCTCAGCCTGCTCACCTGGTCCAGGCCTCCCCCAGAGCTGCCTCAGCTCCGGGCTCCCTGCATCTCTGATTCCTCCTTTCCCCTTGCAAAAGCCAAGGACTCACTCAGGAGGCGTCCTTGGCTCCCCTCCTCTCACAGCCCTCATCCAAACCATCAGCAAATCCTGCAGGTTCCACATTCAGAATAAACCTACTCTCTGATCACGTCTCACGGTGATGCTCAAAAATCTGCCCCACCCACACGCACCTGGTGACTGCAGCCACGTCCAGCCACGCTGGCCTCCCTGACCTCTCTACTCAGGGTTCCAGGAACACGCAGCGGGTGCTCCGTAGTAAATTGGAAGATGCATTCAACCCATTCAACCCCACCTGCTTTAAACAGTCTCGGAACACCTTTGCCTGAAGTTGGACAAAACCATCTAACACAAAGCCTACTTTGCAATACTATGTTGACTCTCTCAATCTATTGCGTCATGTTGGCCACATGGTATCCTACGGGCTTTCCTCATGATTGTTTGGCCGACTGAGAGCTGTGGCTGATTGTTTGCCCAGAATTGCAAGGGGATCGAAGCACATTGTCACCAGCCCAAAAAACAGTCATTTGTAGTGTACTCCGCAACCCCAAACAGGCAGGAAGAACAATAAACGAGTTA

XM_004863722.1 Coding sequence

Acot7 acyl-CoA thioesterase 7, transcript variant X1

High confidence: 4 potential gene matches
Length: 1146 bp    Location: 5065995..5142135   Strand: +
>XM_004863722.1
ATGGCTCCGCCTCCGCCCTCCCCCTCCATGGCGCCGCCCGGGCTCATTCATTCCACGCCGGGCCCGCCGGACGCTTGCGCTCCGCTCTCTCCGCCCCGGGCCGCCGCCTCTGCCGCTGCCGCCGCCAGCATGTCGGGGCCCGTCACCGAGACGCCGTCCGCCATCCAGATCTGCCGGATCATGCGGCCAGACGACGCTAATGTGGCGGGCAACGTCCACGGCGGGACCATCCTGAAGATGATTGAGGAGGCCGGGGCCATCATCAGCACCCGGCACTGCAACAGCCAGAATGGGGAGCGCTGTGTGGCTGCCCTGGCCCGGGTGGAGCGTACCGATTTCCTGTCGCCCATGTGCATCGGTGAGGTGGCACACGTCAGTGCTGAGATCACCTACACCTCCAGACACTCTGTGGAAGTCCAGGTCCACGTGATGTCCGAAAACATCCTCACAGGAACCAAAAAGCTGACCAATAAGGCCACCCTGTGGTACGTGCCCCTGTCCCTGAAGAATGTGGACAAAGTCCTCGAGGTGCCTCCTGTTGTGTATTCCCGCCAGGAGCAGGAGGAGGAGGGCCGGAAGCGGTATGAAGCCCAGAAACTGGAGCGCATGGAGACCAAGTGGAGGAACGGGGACATCGTACAGCCCATCCTGAATCCAGAGCCCAACACCGTGAGCTACAGCCAGTCGAGCCTGATCCACCTGGTGGGGCCCTCGGACTGCACCCTGCATGGCTTCGTGCATGGAGGGGTCACCATGAAGCTCATGGACGAGGTGGCCGGGATCGTGGCTGCCCGCCACTGCAAGACCAACATAGTCACGGCTTCTGTGGACGCCATTAATTTTCACGACAAGATCCGGAAAGGCTGTGTCATCACCATCTCGGGCCGCATGACCTTCACAAGCAACAAGTCCATGGAGATCGAGGTGCTGGTGGATGCCGACCCCGTGGTGGACAACTTGCAGAAGCGCTACCGGGCCGCCAGCGCCTTCTTCACCTACGTGTCGCTGAGCCAGGAGGGCAAGCCGCTGCCTGTGCCGCAGCTGGTGCCCGAGACCGAGGATGAGAAGAAGCGCTTTGAGGATGGCAAAGGGCGATACCTGCAGGTGAAGGCGAAGCGGCAGGCCCAGGTGGAGCCTCAGCCCTAG

XM_004863723.1 Coding sequence

Acot7 acyl-CoA thioesterase 7, transcript variant X2

Length: 1119 bp    Location: 5072899..5142135   Strand: +
>XM_004863723.1
ATGAAGCTTGCCAGGGCTGCCGGCCTTGGGCTGCTTGGCAGGCTGGTGGCCTCCAGGGGGCCCAGGGGAAGGCGCGGGGTCTCCATCCATGCCACTGGAACCAGCGCCAAGCTCCCACTCCCCAGACTTGCCGTCTTTGGCACCGGAAGGATCATGCGGCCAGACGACGCTAATGTGGCGGGCAACGTCCACGGCGGGACCATCCTGAAGATGATTGAGGAGGCCGGGGCCATCATCAGCACCCGGCACTGCAACAGCCAGAATGGGGAGCGCTGTGTGGCTGCCCTGGCCCGGGTGGAGCGTACCGATTTCCTGTCGCCCATGTGCATCGGTGAGGTGGCACACGTCAGTGCTGAGATCACCTACACCTCCAGACACTCTGTGGAAGTCCAGGTCCACGTGATGTCCGAAAACATCCTCACAGGAACCAAAAAGCTGACCAATAAGGCCACCCTGTGGTACGTGCCCCTGTCCCTGAAGAATGTGGACAAAGTCCTCGAGGTGCCTCCTGTTGTGTATTCCCGCCAGGAGCAGGAGGAGGAGGGCCGGAAGCGGTATGAAGCCCAGAAACTGGAGCGCATGGAGACCAAGTGGAGGAACGGGGACATCGTACAGCCCATCCTGAATCCAGAGCCCAACACCGTGAGCTACAGCCAGTCGAGCCTGATCCACCTGGTGGGGCCCTCGGACTGCACCCTGCATGGCTTCGTGCATGGAGGGGTCACCATGAAGCTCATGGACGAGGTGGCCGGGATCGTGGCTGCCCGCCACTGCAAGACCAACATAGTCACGGCTTCTGTGGACGCCATTAATTTTCACGACAAGATCCGGAAAGGCTGTGTCATCACCATCTCGGGCCGCATGACCTTCACAAGCAACAAGTCCATGGAGATCGAGGTGCTGGTGGATGCCGACCCCGTGGTGGACAACTTGCAGAAGCGCTACCGGGCCGCCAGCGCCTTCTTCACCTACGTGTCGCTGAGCCAGGAGGGCAAGCCGCTGCCTGTGCCGCAGCTGGTGCCCGAGACCGAGGATGAGAAGAAGCGCTTTGAGGATGGCAAAGGGCGATACCTGCAGGTGAAGGCGAAGCGGCAGGCCCAGGTGGAGCCTCAGCCCTAG

XM_004863728.1 Coding sequence

Acot7 acyl-CoA thioesterase 7, transcript variant X7

Length: 966 bp    Location: 5086907..5142135   Strand: +
>XM_004863728.1
ATGCGGCCAGACGACGCTAATGTGGCGGGCAACGTCCACGGCGGGACCATCCTGAAGATGATTGAGGAGGCCGGGGCCATCATCAGCACCCGGCACTGCAACAGCCAGAATGGGGAGCGCTGTGTGGCTGCCCTGGCCCGGGTGGAGCGTACCGATTTCCTGTCGCCCATGTGCATCGGTGAGGTGGCACACGTCAGTGCTGAGATCACCTACACCTCCAGACACTCTGTGGAAGTCCAGGTCCACGTGATGTCCGAAAACATCCTCACAGGAACCAAAAAGCTGACCAATAAGGCCACCCTGTGGTACGTGCCCCTGTCCCTGAAGAATGTGGACAAAGTCCTCGAGGTGCCTCCTGTTGTGTATTCCCGCCAGGAGCAGGAGGAGGAGGGCCGGAAGCGGTATGAAGCCCAGAAACTGGAGCGCATGGAGACCAAGTGGAGGAACGGGGACATCGTACAGCCCATCCTGAATCCAGAGCCCAACACCGTGAGCTACAGCCAGTCGAGCCTGATCCACCTGGTGGGGCCCTCGGACTGCACCCTGCATGGCTTCGTGCATGGAGGGGTCACCATGAAGCTCATGGACGAGGTGGCCGGGATCGTGGCTGCCCGCCACTGCAAGACCAACATAGTCACGGCTTCTGTGGACGCCATTAATTTTCACGACAAGATCCGGAAAGGCTGTGTCATCACCATCTCGGGCCGCATGACCTTCACAAGCAACAAGTCCATGGAGATCGAGGTGCTGGTGGATGCCGACCCCGTGGTGGACAACTTGCAGAAGCGCTACCGGGCCGCCAGCGCCTTCTTCACCTACGTGTCGCTGAGCCAGGAGGGCAAGCCGCTGCCTGTGCCGCAGCTGGTGCCCGAGACCGAGGATGAGAAGAAGCGCTTTGAGGATGGCAAAGGGCGATACCTGCAGGTGAAGGCGAAGCGGCAGGCCCAGGTGGAGCCTCAGCCCTAG

XM_004863725.1 Coding sequence

Acot7 acyl-CoA thioesterase 7, transcript variant X4

Length: 1005 bp    Location: 5087154..5142135   Strand: +
>XM_004863725.1
ATGCTGCGCCCTGCCACAGTCACTGCAGGCAGGTCGATCATGCGGCCAGACGACGCTAATGTGGCGGGCAACGTCCACGGCGGGACCATCCTGAAGATGATTGAGGAGGCCGGGGCCATCATCAGCACCCGGCACTGCAACAGCCAGAATGGGGAGCGCTGTGTGGCTGCCCTGGCCCGGGTGGAGCGTACCGATTTCCTGTCGCCCATGTGCATCGGTGAGGTGGCACACGTCAGTGCTGAGATCACCTACACCTCCAGACACTCTGTGGAAGTCCAGGTCCACGTGATGTCCGAAAACATCCTCACAGGAACCAAAAAGCTGACCAATAAGGCCACCCTGTGGTACGTGCCCCTGTCCCTGAAGAATGTGGACAAAGTCCTCGAGGTGCCTCCTGTTGTGTATTCCCGCCAGGAGCAGGAGGAGGAGGGCCGGAAGCGGTATGAAGCCCAGAAACTGGAGCGCATGGAGACCAAGTGGAGGAACGGGGACATCGTACAGCCCATCCTGAATCCAGAGCCCAACACCGTGAGCTACAGCCAGTCGAGCCTGATCCACCTGGTGGGGCCCTCGGACTGCACCCTGCATGGCTTCGTGCATGGAGGGGTCACCATGAAGCTCATGGACGAGGTGGCCGGGATCGTGGCTGCCCGCCACTGCAAGACCAACATAGTCACGGCTTCTGTGGACGCCATTAATTTTCACGACAAGATCCGGAAAGGCTGTGTCATCACCATCTCGGGCCGCATGACCTTCACAAGCAACAAGTCCATGGAGATCGAGGTGCTGGTGGATGCCGACCCCGTGGTGGACAACTTGCAGAAGCGCTACCGGGCCGCCAGCGCCTTCTTCACCTACGTGTCGCTGAGCCAGGAGGGCAAGCCGCTGCCTGTGCCGCAGCTGGTGCCCGAGACCGAGGATGAGAAGAAGCGCTTTGAGGATGGCAAAGGGCGATACCTGCAGGTGAAGGCGAAGCGGCAGGCCCAGGTGGAGCCTCAGCCCTAG

XM_004863727.1 Coding sequence

Acot7 acyl-CoA thioesterase 7, transcript variant X6

Length: 978 bp    Location: 5087299..5142135   Strand: +
>XM_004863727.1
ATGACCTGGATCATGCGGCCAGACGACGCTAATGTGGCGGGCAACGTCCACGGCGGGACCATCCTGAAGATGATTGAGGAGGCCGGGGCCATCATCAGCACCCGGCACTGCAACAGCCAGAATGGGGAGCGCTGTGTGGCTGCCCTGGCCCGGGTGGAGCGTACCGATTTCCTGTCGCCCATGTGCATCGGTGAGGTGGCACACGTCAGTGCTGAGATCACCTACACCTCCAGACACTCTGTGGAAGTCCAGGTCCACGTGATGTCCGAAAACATCCTCACAGGAACCAAAAAGCTGACCAATAAGGCCACCCTGTGGTACGTGCCCCTGTCCCTGAAGAATGTGGACAAAGTCCTCGAGGTGCCTCCTGTTGTGTATTCCCGCCAGGAGCAGGAGGAGGAGGGCCGGAAGCGGTATGAAGCCCAGAAACTGGAGCGCATGGAGACCAAGTGGAGGAACGGGGACATCGTACAGCCCATCCTGAATCCAGAGCCCAACACCGTGAGCTACAGCCAGTCGAGCCTGATCCACCTGGTGGGGCCCTCGGACTGCACCCTGCATGGCTTCGTGCATGGAGGGGTCACCATGAAGCTCATGGACGAGGTGGCCGGGATCGTGGCTGCCCGCCACTGCAAGACCAACATAGTCACGGCTTCTGTGGACGCCATTAATTTTCACGACAAGATCCGGAAAGGCTGTGTCATCACCATCTCGGGCCGCATGACCTTCACAAGCAACAAGTCCATGGAGATCGAGGTGCTGGTGGATGCCGACCCCGTGGTGGACAACTTGCAGAAGCGCTACCGGGCCGCCAGCGCCTTCTTCACCTACGTGTCGCTGAGCCAGGAGGGCAAGCCGCTGCCTGTGCCGCAGCTGGTGCCCGAGACCGAGGATGAGAAGAAGCGCTTTGAGGATGGCAAAGGGCGATACCTGCAGGTGAAGGCGAAGCGGCAGGCCCAGGTGGAGCCTCAGCCCTAG

XM_004863741.1 Coding sequence

Kcnab2 potassium voltage-gated channel, shaker-related subfamily, beta member 2, transcript variant X5

Length: 1149 bp    Location: 5326844..5253712   Strand: -
>XM_004863741.1
ATGTATCCGGAATCCACCACAGGCTCCCCGGCTCGGCTCTCCCTGCGGCAGACAGGCTCCCCCGGGATGATCTACAGTACTCGGTATGGGAGTCCCAAAAGACAGCTCCAGTTTTACAGGAACCTAGGCAAGTCTGGCCTGAGGGTCTCCTGCCTGGGGCTCGGAACATGGGTGACCTTCGGAGGCCAGATCACCGACGAGATGGCAGAGCAACTAATGACCTTGGCCTACGACAATGGCATCAACCTCTTCGATACTGCGGAAGTCTACGCAGCGGGCAAGGCTGAAGTGGTCTTAGGAAACATCATTAAGAAGAAGGGATGGAGGCGCTCCAGCCTTGTCATCACCACCAAGATCTTCTGGGGTGGAAAAGCAGAGACGGAGAGGGGCCTTTCCAGGAAGCACATCATAGAAGGTCTGAAGGCCTCGCTGGACCGCCTGCAGCTGGAGTACGTGGACGTGGTGTTCGCCAACCGCCCAGACCCCAACACGCCCATGGAAGGGGACCCATTTAGTTCCTCCAAGTCAAGGACATTCATCGTAGAAGAGACGGTGCGAGCCATGACCCACGTCATCAACCAGGGCATGGCGATGTACTGGGGCACGTCACGCTGGAGCTCCATGGAGATCATGGAGGCCTACTCTGTGGCCCGGCAGTTCAACCTGATCCCGCCCATCTGCGAGCAGGCCGAGTACCACATGTTCCAGCGCGAGAAGGTGGAGGTGCAGCTGCCTGAGCTGTTCCACAAGATCGGGGTGGGCGCCATGACCTGGTCCCCGCTGGCCTGCGGCATCGTGTCCGGGAAGTACGACAGTGGCATCCCACCCTACTCCAGGGCCTCCCTGAAGGGCTACCAGTGGCTGAAGGACAAGATCCTGAGTGAGGAGGGTCGGCGCCAGCAGGCAAAGCTGAAGGAGCTGCAGGCTATCGCTGAGCGCCTGGGCTGCTCCCTCCCGCAGCTGGCAATAGCCTGGTGCCTGAGGAATGAGGGTGTCAGCTCCGTGCTCCTGGGTGCTTCCAACGCAGAGCAGCTCATGGAAAACATCGGAGCAATACAGGTCCTTCCCAAACTGTCATCTTCCATTGTCCATGAGATCGACAGCATTCTGGGCAACAAACCCTACAGCAAAAAGGACTACAGATCCTAA

XM_004863738.1 Coding sequence

Kcnab2 potassium voltage-gated channel, shaker-related subfamily, beta member 2, transcript variant X2

Length: 1239 bp    Location: 5287820..5253712   Strand: -
>XM_004863738.1
ATGTTGTCCATGACGTACAGCGAGAGCCTGCGGAGTGTGAGCAGCAGGTGCCACTCAGAATGGGCCCTGCACCCCATCCGCCAGACGGACACAGTGGCCCTGCAGCGGCTGCGGGAGGTGCGGGCGGCTGCCCAGGCCAGGAACATGGAGAGCTTCCTCCGCATGCACGGCCTCTCCCTGGACGGCTGCACTGCCCAGCAAACAGGCATGAAGTATCGGAACCTAGGCAAGTCTGGCCTGAGGGTCTCCTGCCTGGGGCTCGGAACATGGGTGACCTTCGGAGGCCAGATCACCGACGAGATGGCAGAGCAACTAATGACCTTGGCCTACGACAATGGCATCAACCTCTTCGATACTGCGGAAGTCTACGCAGCGGGCAAGGCTGAAGTGGTCTTAGGAAACATCATTAAGAAGAAGGGATGGAGGCGCTCCAGCCTTGTCATCACCACCAAGATCTTCTGGGGTGGAAAAGCAGAGACGGAGAGGGGCCTTTCCAGGAAGCACATCATAGAAGGTCTGAAGGCCTCGCTGGACCGCCTGCAGCTGGAGTACGTGGACGTGGTGTTCGCCAACCGCCCAGACCCCAACACGCCCATGGAAGGGGACCCATTTAGTTCCTCCAAGTCAAGGACATTCATCGTAGAAGAGACGGTGCGAGCCATGACCCACGTCATCAACCAGGGCATGGCGATGTACTGGGGCACGTCACGCTGGAGCTCCATGGAGATCATGGAGGCCTACTCTGTGGCCCGGCAGTTCAACCTGATCCCGCCCATCTGCGAGCAGGCCGAGTACCACATGTTCCAGCGCGAGAAGGTGGAGGTGCAGCTGCCTGAGCTGTTCCACAAGATCGGGGTGGGCGCCATGACCTGGTCCCCGCTGGCCTGCGGCATCGTGTCCGGGAAGTACGACAGTGGCATCCCACCCTACTCCAGGGCCTCCCTGAAGTGGCTGAAGGACAAGATCCTGAGTGAGGAGGGTCGGCGCCAGCAGGCAAAGCTGAAGGAGCTGCAGGCTATCGCTGAGCGCCTGGGCTGCTCCCTCCCGCAGCTGGCAATAGCCTGGTGCCTGAGGAATGAGGGTGTCAGCTCCGTGCTCCTGGGTGCTTCCAACGCAGAGCAGCTCATGGAAAACATCGGAGCAATACAGGTCCTTCCCAAACTGTCATCTTCCATTGTCCATGAGATCGACAGCATTCTGGGCAACAAACCCTACAGCAAAAAGGACTACAGATCCTAA

XM_004863740.1 Coding sequence

Kcnab2 potassium voltage-gated channel, shaker-related subfamily, beta member 2, transcript variant X4

Length: 1197 bp    Location: 5276558..5253712   Strand: -
>XM_004863740.1
ATGCAGGTGTCCTTCATGTGCTCCGAGCACAGCCTCAAGGCCTGGGGCCCTGAGGAGCAGCTGGGTCGGTCGGCAGCCAGCAGCCCCAGCCCAGGCACCCGCAGCCACTTCCACACCGTGGCCCTGGTGGCCCAGAGCCTGGGGCAGCTCTCCGTGCAAAGTGTCCCGAGCACCAGCGATACCCACATGAAGCAGGCCGGGATGAAATATAGGAACCTAGGCAAGTCTGGCCTGAGGGTCTCCTGCCTGGGGCTCGGAACATGGGTGACCTTCGGAGGCCAGATCACCGACGAGATGGCAGAGCAACTAATGACCTTGGCCTACGACAATGGCATCAACCTCTTCGATACTGCGGAAGTCTACGCAGCGGGCAAGGCTGAAGTGGTCTTAGGAAACATCATTAAGAAGAAGGGATGGAGGCGCTCCAGCCTTGTCATCACCACCAAGATCTTCTGGGGTGGAAAAGCAGAGACGGAGAGGGGCCTTTCCAGGAAGCACATCATAGAAGGTCTGAAGGCCTCGCTGGACCGCCTGCAGCTGGAGTACGTGGACGTGGTGTTCGCCAACCGCCCAGACCCCAACACGCCCATGGAAGAGACGGTGCGAGCCATGACCCACGTCATCAACCAGGGCATGGCGATGTACTGGGGCACGTCACGCTGGAGCTCCATGGAGATCATGGAGGCCTACTCTGTGGCCCGGCAGTTCAACCTGATCCCGCCCATCTGCGAGCAGGCCGAGTACCACATGTTCCAGCGCGAGAAGGTGGAGGTGCAGCTGCCTGAGCTGTTCCACAAGATCGGGGTGGGCGCCATGACCTGGTCCCCGCTGGCCTGCGGCATCGTGTCCGGGAAGTACGACAGTGGCATCCCACCCTACTCCAGGGCCTCCCTGAAGGGCTACCAGTGGCTGAAGGACAAGATCCTGAGTGAGGAGGGTCGGCGCCAGCAGGCAAAGCTGAAGGAGCTGCAGGCTATCGCTGAGCGCCTGGGCTGCTCCCTCCCGCAGCTGGCAATAGCCTGGTGCCTGAGGAATGAGGGTGTCAGCTCCGTGCTCCTGGGTGCTTCCAACGCAGAGCAGCTCATGGAAAACATCGGAGCAATACAGGTCCTTCCCAAACTGTCATCTTCCATTGTCCATGAGATCGACAGCATTCTGGGCAACAAACCCTACAGCAAAAAGGACTACAGATCCTAA

XM_004863747.1 Coding sequence

LOC101713067 chromosome unknown open reading frame, human C1orf174, transcript variant X1

Length: 717 bp    Location: 6691439..6697626   Strand: +
>XM_004863747.1
ATGAGGAGCAGGAAGCTCGCAGGTGGAGTGCGATCTTCAGCACGCCTGAGAGCCCGAAGTTGCTCCGCAGACATTGTGGCCCCTGTCCAGGACGTCGCTGGCTCCACATCCCCCAAGACAGCATGCCTGACTTCGTCACACAAGGCCCCAGACAGGCGAACCTCAAAGAAGTTCAAGTCTGACAAAGGTCACCTTGTGAAGGCAGAATTACAGAAACTAGTCTCCAAAGGCAACAGTGCTGCTTTGCCAGAAGTGGTGCCCAGGGCCCCGTGTAAAGACAGCTCTGCAGAAGGCAGCGCGTTGCTCCCGGGCAGTGACTCCACTGCCCCTGCACGCCAGGAGGCTGCAGCTCTTCCCCACAGTGGCTGCCGATGTGCGAACGATACTGTCCCTGCTAAGACTGAAGACAGCCAGTCCCCGCCAGAGCCCTGCACCAGTGCAGCGGCAGAGGAGGCAGACAGGAGCCCCAGGGGGCTACACGAAGCAGCATTAGCCACAGGGGAGATGCAGATGCCCCTGCCTCAGATGGACAACAGCGTCTTTCTGGACGATGACAGCAATCAGCCCCTGCCGGTGAGCCGGTTCTTCGGGAACGTGGAGCTCATGCAGGACCTGCCACCGGCCTCTTCATCATGTCCTTCAATGAACAGACGGGAATTCAGGAAGATGCATTTCAGAGCCAAAGACGATGAGGACGACGAAGATGCAGAAATGTAG

XM_004863739.1 Coding sequence

Kcnab2 potassium voltage-gated channel, shaker-related subfamily, beta member 2, transcript variant X3

Length: 1203 bp    Location: 5287817..5253712   Strand: -
>XM_004863739.1
ATGTTGTCCATGACGTACAGCGAGAGCCTGCGGAGTGTGAGCAGCAGGTGCCACTCAGAATGGGCCCTGCACCCCATCCGCCAGACGGACACAGTGGCCCTGCAGCGGCTGCGGGAGGTGCGGGCGGCTGCCCAGGCCAGGAACATGGAGAGCTTCCTCCGCATGCACGGCCTCTCCCTGGACGGCTGCACTGCCCAGCAAACAGGCATGAAGTATCGGAACCTAGGCAAGTCTGGCCTGAGGGTCTCCTGCCTGGGGCTCGGAACATGGGTGACCTTCGGAGGCCAGATCACCGACGAGATGGCAGAGCAACTAATGACCTTGGCCTACGACAATGGCATCAACCTCTTCGATACTGCGGAAGTCTACGCAGCGGGCAAGGCTGAAGTGGTCTTAGGAAACATCATTAAGAAGAAGGGATGGAGGCGCTCCAGCCTTGTCATCACCACCAAGATCTTCTGGGGTGGAAAAGCAGAGACGGAGAGGGGCCTTTCCAGGAAGCACATCATAGAAGGTCTGAAGGCCTCGCTGGACCGCCTGCAGCTGGAGTACGTGGACGTGGTGTTCGCCAACCGCCCAGACCCCAACACGCCCATGGAAGAGACGGTGCGAGCCATGACCCACGTCATCAACCAGGGCATGGCGATGTACTGGGGCACGTCACGCTGGAGCTCCATGGAGATCATGGAGGCCTACTCTGTGGCCCGGCAGTTCAACCTGATCCCGCCCATCTGCGAGCAGGCCGAGTACCACATGTTCCAGCGCGAGAAGGTGGAGGTGCAGCTGCCTGAGCTGTTCCACAAGATCGGGGTGGGCGCCATGACCTGGTCCCCGCTGGCCTGCGGCATCGTGTCCGGGAAGTACGACAGTGGCATCCCACCCTACTCCAGGGCCTCCCTGAAGGGCTACCAGTGGCTGAAGGACAAGATCCTGAGTGAGGAGGGTCGGCGCCAGCAGGCAAAGCTGAAGGAGCTGCAGGCTATCGCTGAGCGCCTGGGCTGCTCCCTCCCGCAGCTGGCAATAGCCTGGTGCCTGAGGAATGAGGGTGTCAGCTCCGTGCTCCTGGGTGCTTCCAACGCAGAGCAGCTCATGGAAAACATCGGAGCAATACAGGTCCTTCCCAAACTGTCATCTTCCATTGTCCATGAGATCGACAGCATTCTGGGCAACAAACCCTACAGCAAAAAGGACTACAGATCCTAA

XM_004863743.1 Coding sequence

Nphp4 nephronophthisis 4, transcript variant X1

High confidence: 4 potential gene matches
Length: 4266 bp    Location: 5326961..5432162   Strand: +
>XM_004863743.1
ATGAGCGACTGGAACAGGATCTTTGCCCAAAATGTACTTGTCCCTCCACATCCGCAGAGAGCCCGGCAGCTTTTGAAGGAATCCATGGCCTTTCAGTGTGTCCTGAAGTGGCTCGATGGGCCGCTAATTAAGCAGGGGGCGCTGGAGGTGCTGTCGGAGGTCGAGTGCCACCTGCGAGTGTCTCTCTTCGACGTCACCTACCGACACTTCTTTGGGAGGACGTGGAAAACCATGGTGAAGCCGACCAGGCAGCTCTCTCAGCAGCCACCCAGGATCATCTTCAGGGAGCCCTTCTACTTTCACACGTCCTTAAACCACCCGAACATTGTGGCTGTGGTCGAAGTAGTCGCTGAAGGCAAGAAGCAGGACGGGAGCCCCCAGGCCTTGTCCTGCGGGTTTGGAATTCTCCGGATCTTCAGCAGCAGGCCAGACTCTCCGCCCTCTCCGTCCCAGGACCGACAGTTGAAGCTGTATCATGGCACCCCCAGAGCCCTCCTGCACCCGCTCCTCCAGGACCCCATAGAACAAAACAAGCACATGACCCTCATTGAGAACTGCAGCCTGCACTACACGCTGCGGCCCCACCCGGCCCTGGAGCCTGCCTTCCACCTCCTGCCCGAGAACCTGCTGGTGTCAGGTCTGCAGCCCATCCCCGGCCTCCTTCCGGCGCACGGCAACTCGGGTGATGCCCTCTGGAAGCCACGCCTTCAGAAGACCTCCACGTGGCACCTGGACGACATCTTCTTCTCCCTGTATCCCTCCCTCGAGAAGTTTGAGGAGGAGCTTCTGGAACTCCTTGCCCAGGACCACTCCCAGGAGGGAGGTGGCCTGCTGGACGGTGGCCCCCTGGGGGTCCTGGAGCGACGCCTGCACGTGGGCGTGCACAACGGTCTGGGCTTCGTGCAGAGGCCGCAGGTGGTGGTGCTGATGCCCGAGATGGACATGGCCTTGACGCGCTCCGCCAGCTTCAGCAGGAAAGTCAGCTCCTCTTCCAGAACCAGCTCTGGAAATCAGGCTCTGGTTTTGAGAAGCCGCCTGCGCCTCGCCGAGATGGTCAGTCACCCTGCCTTTGCCATCACCTTTCAGCTGGAGTACGTGTTCAGCAGCCCTTCAGGAGTGGACAGCAACGCTGTGTCGCTCACTGCCTTGTCCCACTTGGCGTGCATGCGCATGGTCCGCTGGGCTGTCTGGAGCCCCGACCTGGAAGCCAGTGACGGCAGGGTCTCCTTGCCTCTGCAGGGTGGCACTGGGCCCAGCCCCTCGCGCTGCCTGGTCTACAAGGTGCCCTCGGACAGCAGGAGCTCTGAAGAGGTGAAGCAGACCGAGGTGGGGACGGTGCAGTTCCGGTTCTCGCTGAGCCCGGAGGAGCTGCCAGAGACCCCCAAGGAACGTGCCGAAGGCCCCCGGGCGGAGCAGCGGCCCTGCGGGAGGCCGCCCCGGTCCCCCTCAGGCCCACCAGCACCGACGCCCCAGGGTCTTGCTGCCACCCAGAACTCTCCCGTGGGACCAGGGTTGTCACTGTCCCAGCTGGCGGCCTCCCCACTGTCCCCAGCTCAGCGTCATTCAGCCAGAGTGAGTCCACAGCCACTGGACGGTTCCCAGCCCCAGACAGAGGACTTCCCGCTGGAGGGCAGGATCTCGCACCTGGAAGCTGACCTGAGCCGGACTCCTGCCTCCCTGGAAACCTCTGTCACCGAACACTTACAGGAGCTGCCGTTCACCCCGCTGCACGCCCCCATTGTGGTGGGAGCCCAGACCAGGAGCTCTGGAGGCCAGCTCTCGAGGGCCACCATGGCTGTCCTGCAGTCCTCCGGCTTCCCGGAGATTCTGGACACCAACAAGCAGCCCGCAGAAGCCGTCAGCCCCACAGAGCCCGTGGAGTTCAACCCGCAGAAGGAAGAGGCAGATCGTCTGCAGAGCAACGAGATGGTGCTGCACTTCTTGGCCTTCAGCAGAGTGGCCCAGGACTACCAAGGAACACCGTGGCCAAAGACTGTGTATTTCACCTTCCAGTTCTACCGCTTCCCACCCGTGACCACGCCGCGCCTGCAGCTGGTCCCACTGGACAGGGCTGGGGGGCCCAGCTCCGCCTCCCTGTCCCACCTCCTCGTTCCCATCAGTAAAGACGGCTCCTATGACACAGGGCCCCCAGGCTTGCAGCTGAGGTATGCAGTGGGCCCCGAGTTCCTGAAGCCAGGCGAGCAGCGCTGGTTCCTCCGCTACCTGGCCGTGCACACGTTGCAGATCGACGTCTGGGACGGGGATTCGCTGCTCCTTCTTGGATCGGCCGCTGTCCCAATGAAGCACCTCCTCCGCCAAGGCCGGCCAGCCGTGCAGGTTGCCCACCAGCTGGAAGTCGTGGCCACCGAGTATGAGCAGGACACCCCGGTGTCTGGGTTCGGCAGTGTCAAGCCCATCGGGGTCCACACGGTGGTGCAGGGCCGGCTGCATCTGACCTTGGCCAACGTGGGTCACGCATGTGAACGCAGAGCGAAAGAATCCTGCTCGCTGCCACCGTCCAGATCTCGGGTCATCTCGAACGACGGAGCCAGCCGCTTCCCTGGGGGCAGCCTCCTCACGCTGGGAAGCCAGAGACGGAGGAACGTGGTCCAGGCGCAGAGGCTGGCCGACGTGGACAGCGAGCTGGCCGCCATGCTGCTGACCCCTGCGCTGGGCGGCCGGGGACCCTGGAGCAGCGGCCGCGAGGTGGACGCTGTGCGCAGGCGAAAGCTGGAGAGGATGCGGTCTGTGCGCCTGCAGGAGTCGGGGGCGGAGCCCGTCAGCCGCAGGACGGCCGTGCTGGCCCAGCAGAGCGCGCGTATGCAGCACTCCCGGGACCTGCAGGTCATCGACGCCTACCGGGAGCGCACCAAGGCGGAGAGCATCGCCAGCCTGCTGAGCCTGGCCATCACCACGCAGCACACGCTCTACGCCACGCTGGGCACGGCCGAGTTCTTTGAGTTCGCCCTGAAAAACCCCCACAACACGCAGCACACGGTGTCCATCGAGATCGACAACCCCGAGCTCAGCCTCATCCTGGACAGCCGGGAGTGGAGGTACTTCAAAGACGCCGCCGGCCTGCACACGCCGCTGGAGGAGGACGTGTTCCACCTGCGCGGCGACCTCACCCCCCAGCTCTACCTGCGCCCCCGGGAGACCGTCCACGTCCCCTTCAAGTACCAGAGCTTCTCCGTGGGCCCACCAGAGCTGGCACAGGCCTCCACCGAGCTGAGGGCCGAGCGGGGCAGGGATGCTGGAGCACCCTGGAAGTCTGGTGCCACGCCCACTAAACATGCCAAGGTCCTGTTCCGCGTGAGTGGCGGCAAGCCCCTGGCCGTGCTCTGCCTGACTGTGGAGCCCCAGCCCCACATGGTGAACCAGGTCTTCCGCTTCTACCACCCGGAGCTCACCTTCCTGAAGAAGGCCATCCGCCTGCCTCCCTGGCACACCCTTCCAGGAGCTCCTGTGGGAAGACCAGGGGAGGAGCCAGCAGTCCACGTGCGGTGCAGCGACCCAAATGTCATCTGCGAGGCCCAGAATGTGGGCCCCAGGGAACCCCGGGATGTGTTTCTGAAGGTGGCCAGTGGTCCCAGCCCCGAGATCAAAGACTTCTTTGTTACCATTTATGCGGATCGCTGGCTGGCGGCACCCGTGCAGACGTGGCAGGTCTGCCTCCACTCCCTGCAGCGTGTGGATGTCTCCTGCGTCGCGGGCCAGGTGACTCGCCTGTCCCTTGTCCTCCGGGGGACGCAGACTGTCAGGAAAGTGAGAGCCTTCGCCTCCCACCCCCAGGAGCTGAAGATGGACCCTGCAGGTGACTTCCTGCTGCCCCCCCATGGGGTGCAGGACCTGCATGTGGGCGTGCAGCCCCGCAGGGCTGGCAGCCGCTTCGTGCGCCTCAACCTGGTTGATGTGGACTTCCACCAGCTGGTGGCTTCCTGGCTCCTGTGCCTCTCCTGTCGCCAGCCACTCATTTCCAAGGCCTTCGAGATCACCATGGCAGTGGGGGAAGGGAAGGGCGCTAACAAGCGGATCACCTACACCAACCCCTACCCGACCCCGAGGGCCTACCGCCTGCACAGCGACCGCCCGGACCTGCTGGAGTTCAGGGAGGATGCCTTCCAGGTGGGGGGCGGAGAGACCTACACCATCGGCCTGCGGTTCTCCCCAGGTGGGAGGCCGGGGCAAGAAGAGATCCTGATCTATATCAACGACCATGAAGACAAGAACGAAGAGACCTTTTGCGTGAAGGTCACCTACCAGTGA

XM_004863744.1 Coding sequence

Nphp4 nephronophthisis 4, transcript variant X2

Length: 4155 bp    Location: 5326961..5432162   Strand: +
>XM_004863744.1
ATGAGCGACTGGAACAGGATCTTTGCCCAAAATGTACTTGTCCCTCCACATCCGCAGAGAGCCCGGCAGCTTTTGAAGGAATCCATGGCCTTTCAGTGTGTCCTGAAGTGGCTCGATGGGCCGCTAATTAAGCAGGGGGCGCTGGAGGTGCTGTCGGAGGTCGAGTGCCACCTGCGAGTGTCTCTCTTCGACGTCACCTACCGACACTTCTTTGGGAGGACGTGGAAAACCATGGTGAAGCCGACCAGGCAGCTCTCTCAGCAGCCACCCAGGATCATCTTCAGGGAGCCCTTCTACTTTCACACGTCCTTAAACCACCCGAACATTGTGGCTGTGGTCGAAGTAGTCGCTGAAGGCAAGAAGCAGGACGGGAGCCCCCAGGCCTTGTCCTGCGGGTTTGGAATTCTCCGGATCTTCAGCAGCAGGCCAGACTCTCCGCCCTCTCCGTCCCAGGACCGACAGTTGAAGCTGTATCATGGCACCCCCAGAGCCCTCCTGCACCCGCTCCTCCAGGACCCCATAGAACAAAACAAGCACATGACCCTCATTGAGAACTGCAGCCTGCACTACACGCTGCGGCCCCACCCGGCCCTGGAGCCTGCCTTCCACCTCCTGCCCGAGAACCTGCTGGTGTCAGGTCTGCAGCCCATCCCCGGCCTCCTTCCGGCGCACGGCAACTCGGGTGATGCCCTCTGGAAGCCACGCCTTCAGAAGACCTCCACGTGGCACCTGGACGACATCTTCTTCTCCCTGTATCCCTCCCTCGAGAAGTTTGAGGAGGAGCTTCTGGAACTCCTTGCCCAGGACCACTCCCAGGAGGGAGGTGGCCTGCTGGACGGTGGCCCCCTGGGGGTCCTGGAGCGACGCCTGCACGTGGGCGTGCACAACGGTCTGGGCTTCGTGCAGAGGCCGCAGGTGGTGGTGCTGATGCCCGAGATGGACATGGCCTTGACGCGCTCCGCCAGCTTCAGCAGGAAAGTCAGCTCCTCTTCCAGAACCAGCTCTGGAAATCAGGCTCTGGTTTTGAGAAGCCGCCTGCGCCTCGCCGAGATGGTCAGTCACCCTGCCTTTGCCATCACCTTTCAGCTGGAGTACGTGTTCAGCAGCCCTTCAGGAGTGGACAGCAACGGTGGCACTGGGCCCAGCCCCTCGCGCTGCCTGGTCTACAAGGTGCCCTCGGACAGCAGGAGCTCTGAAGAGGTGAAGCAGACCGAGGTGGGGACGGTGCAGTTCCGGTTCTCGCTGAGCCCGGAGGAGCTGCCAGAGACCCCCAAGGAACGTGCCGAAGGCCCCCGGGCGGAGCAGCGGCCCTGCGGGAGGCCGCCCCGGTCCCCCTCAGGCCCACCAGCACCGACGCCCCAGGGTCTTGCTGCCACCCAGAACTCTCCCGTGGGACCAGGGTTGTCACTGTCCCAGCTGGCGGCCTCCCCACTGTCCCCAGCTCAGCGTCATTCAGCCAGAGTGAGTCCACAGCCACTGGACGGTTCCCAGCCCCAGACAGAGGACTTCCCGCTGGAGGGCAGGATCTCGCACCTGGAAGCTGACCTGAGCCGGACTCCTGCCTCCCTGGAAACCTCTGTCACCGAACACTTACAGGAGCTGCCGTTCACCCCGCTGCACGCCCCCATTGTGGTGGGAGCCCAGACCAGGAGCTCTGGAGGCCAGCTCTCGAGGGCCACCATGGCTGTCCTGCAGTCCTCCGGCTTCCCGGAGATTCTGGACACCAACAAGCAGCCCGCAGAAGCCGTCAGCCCCACAGAGCCCGTGGAGTTCAACCCGCAGAAGGAAGAGGCAGATCGTCTGCAGAGCAACGAGATGGTGCTGCACTTCTTGGCCTTCAGCAGAGTGGCCCAGGACTACCAAGGAACACCGTGGCCAAAGACTGTGTATTTCACCTTCCAGTTCTACCGCTTCCCACCCGTGACCACGCCGCGCCTGCAGCTGGTCCCACTGGACAGGGCTGGGGGGCCCAGCTCCGCCTCCCTGTCCCACCTCCTCGTTCCCATCAGTAAAGACGGCTCCTATGACACAGGGCCCCCAGGCTTGCAGCTGAGGTATGCAGTGGGCCCCGAGTTCCTGAAGCCAGGCGAGCAGCGCTGGTTCCTCCGCTACCTGGCCGTGCACACGTTGCAGATCGACGTCTGGGACGGGGATTCGCTGCTCCTTCTTGGATCGGCCGCTGTCCCAATGAAGCACCTCCTCCGCCAAGGCCGGCCAGCCGTGCAGGTTGCCCACCAGCTGGAAGTCGTGGCCACCGAGTATGAGCAGGACACCCCGGTGTCTGGGTTCGGCAGTGTCAAGCCCATCGGGGTCCACACGGTGGTGCAGGGCCGGCTGCATCTGACCTTGGCCAACGTGGGTCACGCATGTGAACGCAGAGCGAAAGAATCCTGCTCGCTGCCACCGTCCAGATCTCGGGTCATCTCGAACGACGGAGCCAGCCGCTTCCCTGGGGGCAGCCTCCTCACGCTGGGAAGCCAGAGACGGAGGAACGTGGTCCAGGCGCAGAGGCTGGCCGACGTGGACAGCGAGCTGGCCGCCATGCTGCTGACCCCTGCGCTGGGCGGCCGGGGACCCTGGAGCAGCGGCCGCGAGGTGGACGCTGTGCGCAGGCGAAAGCTGGAGAGGATGCGGTCTGTGCGCCTGCAGGAGTCGGGGGCGGAGCCCGTCAGCCGCAGGACGGCCGTGCTGGCCCAGCAGAGCGCGCGTATGCAGCACTCCCGGGACCTGCAGGTCATCGACGCCTACCGGGAGCGCACCAAGGCGGAGAGCATCGCCAGCCTGCTGAGCCTGGCCATCACCACGCAGCACACGCTCTACGCCACGCTGGGCACGGCCGAGTTCTTTGAGTTCGCCCTGAAAAACCCCCACAACACGCAGCACACGGTGTCCATCGAGATCGACAACCCCGAGCTCAGCCTCATCCTGGACAGCCGGGAGTGGAGGTACTTCAAAGACGCCGCCGGCCTGCACACGCCGCTGGAGGAGGACGTGTTCCACCTGCGCGGCGACCTCACCCCCCAGCTCTACCTGCGCCCCCGGGAGACCGTCCACGTCCCCTTCAAGTACCAGAGCTTCTCCGTGGGCCCACCAGAGCTGGCACAGGCCTCCACCGAGCTGAGGGCCGAGCGGGGCAGGGATGCTGGAGCACCCTGGAAGTCTGGTGCCACGCCCACTAAACATGCCAAGGTCCTGTTCCGCGTGAGTGGCGGCAAGCCCCTGGCCGTGCTCTGCCTGACTGTGGAGCCCCAGCCCCACATGGTGAACCAGGTCTTCCGCTTCTACCACCCGGAGCTCACCTTCCTGAAGAAGGCCATCCGCCTGCCTCCCTGGCACACCCTTCCAGGAGCTCCTGTGGGAAGACCAGGGGAGGAGCCAGCAGTCCACGTGCGGTGCAGCGACCCAAATGTCATCTGCGAGGCCCAGAATGTGGGCCCCAGGGAACCCCGGGATGTGTTTCTGAAGGTGGCCAGTGGTCCCAGCCCCGAGATCAAAGACTTCTTTGTTACCATTTATGCGGATCGCTGGCTGGCGGCACCCGTGCAGACGTGGCAGGTCTGCCTCCACTCCCTGCAGCGTGTGGATGTCTCCTGCGTCGCGGGCCAGGTGACTCGCCTGTCCCTTGTCCTCCGGGGGACGCAGACTGTCAGGAAAGTGAGAGCCTTCGCCTCCCACCCCCAGGAGCTGAAGATGGACCCTGCAGGTGACTTCCTGCTGCCCCCCCATGGGGTGCAGGACCTGCATGTGGGCGTGCAGCCCCGCAGGGCTGGCAGCCGCTTCGTGCGCCTCAACCTGGTTGATGTGGACTTCCACCAGCTGGTGGCTTCCTGGCTCCTGTGCCTCTCCTGTCGCCAGCCACTCATTTCCAAGGCCTTCGAGATCACCATGGCAGTGGGGGAAGGGAAGGGCGCTAACAAGCGGATCACCTACACCAACCCCTACCCGACCCCGAGGGCCTACCGCCTGCACAGCGACCGCCCGGACCTGCTGGAGTTCAGGGAGGATGCCTTCCAGGTGGGGGGCGGAGAGACCTACACCATCGGCCTGCGGTTCTCCCCAGGTGGGAGGCCGGGGCAAGAAGAGATCCTGATCTATATCAACGACCATGAAGACAAGAACGAAGAGACCTTTTGCGTGAAGGTCACCTACCAGTGA

XR_206046.1 Non-coding sequence

Ajap1 PREDICTED: Heterocephalus glaber adherens junctions associated protein 1 (Ajap1), transcript variant X3, misc_RNA.

Length: 4100 bp     
>XR_206046.1
CCGCGCAGATGGCCGGGTCGAGCGAGGTCTGAGGCTCTGCTCCCCGAAACGTGACCATGTGGATCCAACAGCTTTTAGGACTCAGCTCCATGTCCATCCGTTGGCCGGGCCGCTCCCTCGGAAGCCATGCTTGGGTACTGATAGCCATGCTGCAGCTAGCCGTGGATTTCCCGTCCTGTGAGTCACTGGGCCCAGGCCCCGAGTTCTGGCTCATGCCTCGCCCAGCCCAGCGGCCCCCGCGCCTGTGGAGTCTGCGGAGCGGACAGCCGTCCCGGCCCCCCACGCCCGTGTGGAGTCTCCGGGTCCCCCGTGTGGAGCGGGCCCATGGGCAGATGCAGGTGTCCCGTGCCCGGCGGGCCCACAGACCCAGGGACCAGGTGCCCTCCCCTGGGCGTGAAGGTGGCCTGGCCAAGCCCCCGGCCACCTCCAAATCCAGCCCCTCCCTGGCCTCCTCGTCCTCACCCTCGTCCTCGGCAGGGGTGGCCGGCAGGGCGGCGGAGCAGCGACAGCTGAGGCGGGGCCGGAGGCACACGCAGGACCCCGCGTTCAACAGCTTCGACTTCCGGGGTGGCCGGCCCACCACAGAGACAGAGTTCATCGCCTGGGGACCCACCGGGGACGAGGAGGGCCCTGAGGCCAACACCTTCCCGGGCATGGACGGCCCCACCACGGCCTCCGTTCTGCAGACACGGAAGACGACAGTGGCCACCACGACCACCACGGCCGCCTCCATCACGCAGACCCGGGGCCTCACCGCGTCCCTGGAGCCCTGGAGAAAGGTCGCCATTGGGGTCAGCACAACGGAGCCTTCCCCCAGCCCCAGCAGCGACGGGAAGAACACCAGCCCACCACGGATTCTGGGTGAGACCTCAGGTTTGGCTGTGCATCAGATCATCACCATCACCGTCTCCCTCATCATGGTCATCGCTGCTCTCATCACAACTCTTGTCTTAAAAAATTGCTGTACCCAAAGCGGGAACACTCGGAGGAACAGCCACCAGCGGAAGGTCAACCAGCAGGAGGAGAGCTGTCAGAACCTCACTGACTTCACCTCGGCCCGGGTGCCCAGCAGCCTGGACATCTTCACGGCCTACAATGAGACACTGCAGTGCTCCCATGAGTGCGTGCGGGCATCCGTGCCCGTCTACACCGATGAGACGCTGCACCCAGCGGGCGAGTACAAGTCCACGTTCAATGGGAACCGCTCCTCCTCTGCCGACCGGCATCTCATCCCTGTGGCCTTCGTGTCTGAGAAATGGTTTGAAATCTCCTGCTGACTGGCCGAAGGCTTTTTACCTCCTGGGGCAGGGCAGACGCCAGGTGTCTGTCTCATGAATTCTCTCGAGATTCAAGTTTTCCATGTGGAATTCAACACTCGGTTGTTAGCAGCACCCTGGGAGCTTCCTTCTTGCGTGCACATGGTCTGGCTGACTCCTGCTTAGCCTTCTTCAGACTCCTGAGACTCCACAGAATCGTCCTTTAGCCGGGGGTGTGTATAGCTTTGGGTTGCCAGACGTCAGTGAATACTGAACTGGGAAAGTTACTGCTCCCAGGAAATCAGAGCGCTTTGGCCGTGAAGAAGCAAGAACACTGTGTAACCCCAGGTTCTGTTTGTGTCACTGTTATGTCCCGTGAAGACACGCAGCCACTAAATGTTGGATAAGTGGCACTTTGAGGACCCCTGGTATGATAGGTTCCGACGACAGCACAGGGAACTGAAGGAGCTAACATGTCTCGGGCAGGGCCGCTTGAGACAAAACTATTAATGGAATCATCCTGTTCTGCTTTCCTCCCCAGTCATCCCAAGCCAACAGGGACAATGTCAAGCGCACTGTGCTACCTCCAACCCCTGTTAGAGATTGCTCGGGCTTGGTGCAGAGGAGGGGTTTTGCTGAATTCTCAGGCTCTGACGACCCTGGAAGGTTAAGCAGTGAGCTGTACCATTGCTCGACAGTTTCTGCACCAGGGTAGCCACCATCTCCAGGAGGAGCCCCCTTCTGCCACCGTTGGATGGCAGTTGGAAGCTTCACTCCAGTGTTTCTCTCACGTGCACGTGGATTCATCATGTCAAGTTATGTGACCACCTACAACTTAGGGTCTACAGGGGAACACGGGTGCTTTCTCCTGAGTGTACAGCAAGTCAGTGTGACCCTAGGAAGGTGTGGGGAGGTGGGTTCCTCAGGGTGCTCCTTCCTCAGGGCGTGTCCTCCACTGAGGCATGGTCCTACCGGTACAGAGCCTTGAAGACCAGGAGGGGCCACTGGCCTTGAAAAGGCAGCGTGCGGGACCAGGCATTTAGCCACACCCTCCTCGAACTGAGCTGCCAGCACTCACAGGCATGAGATGTTGTGCTTTCTTGCATGCGTGCGTGCGTGCGTGCGTGCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTCTCCTGTATTTGGGTACTTTCTCTAAAGCCAGAGAGTGAAAGAGCCCCAGCAAAGTTGGTTCTCTGTCAGGTGACAATAACTTTGATCCTTAAAGATGAATTCCAATGTGGTGACACATGGGGATTCTTCAAACTTCCTGGGATCATTGTGTATTGCCCTGGTTCCTGTGAAGGCTACGGACATCGTCTATGCCATCTAAAATGAGAGGGAGAGGGAGGAAGTTCAGAAGTTTTGATATGAAATAATAAGATTTTGGGACAACATGTGGCTAGCTTTGGGAGTTAGATAACCATTTTCTTAAAAACCCGAGTTTTGGGTTTAAAATTTTCTCTTTTCTGACAGCCTCACTAGGATCGGTCTTTCCTCTTAATTTCCTGGAGAATTAGGTGGCAGGCGTTGGAGTCCAGGGCGGGGTTCCCAAGTTACAGTTATTTAACTGAAAGCCGGCTGGCAGCCCTAAAGTGTCACAGGACCTGTAGTGACCTGGTGGATTAAGTTTATTTAACTTATCACCACGAGAGATGACTGGGTCGACAAGCACCCTTCCCCTTTCCTACCGAGCGAGAGCTTCCTCAGATTTGAGACCTACAAGTGTTACATTGGACTTTGGAGGAAACTCTGCATTGATGGTATTTTTAAAGTCTTTCACTTAAAAAAACCCACAAATAGATGTTTACTAAAAATATGTAGAAAATGCCAACAGCCAAACTCAAGGGAAACATCTAGAACCCTGTAATTATTGTCCAGTTTGGTGGAAATTGCTCATGAAGCACTGAATATGTGGGGACAAGTCTCAGAAATCGCTCCATGGTCAACTTGACCATGGATACTGACCTGGCCCCAGTGAGTGTTTTATAGAAAGGAAATCCAGTGAGCCTTCCGTTGCATCGTGGTTGGTTTAATTTGCCACTGACTGAAGTTATAGTTGTGAGAGTCTTTCAAGAAGTAGAACAGGTGGCCAGCCATTTGGATGTTTGACTTCCACAGTGTTGAGTGTTGGCCATCGGGCACCGCTAGGCATTGGTGGAAAATGCTTAGAAAAACTCCGAATGGCCTCCTCACAGGGGTATCTATCCAAGAAAGACATATCTGAGGGACGGCAGGAGCATTTCCATTTCAGCTTTCCCTGTGTGTTCAAATAATACTTCAACACACCAGGTCCCATCACACGAATTTATAAAGTCAGAGGCCATTGTCCCAGCCCTGCCCCAGCTCAGCCCCGGGACCAGAAACTGAGTCTATGAACGTGAACCACAGGATGAGGAATTAAGCAGTGAAGGCCACATTGGCCTGTTCTTTCGCCAGCCTTAGGTTGAATGTTTCAGAACTTATTTCCTCCTCTTTTGTACAGCCAAACCTGGGTTTATTTTGCTTTTCCTAAATTATTTTCTGATACAATAAACTGTTCACTGTTTATTTATACTTTTACATAGAGAGCTTGTTCTTTTTCCAAAGAGAGGCAAAGCCCCTGTGTATATGTTCTTCAGAGATCAACACCACAGCTGTCTCCATGGACATATTTATGTGTCACCCTCTTGGAAACGTTAAACTACTGTGGTTTAATGTTGTGTTTTTCCTTAAATGCATATCATTATTATGTTATTGAACAAACATGACACAATATATTTGGGCGGGGTGGGGGGCAGGTGGCTGAGTGTAATTTCCTTACAGGTGAACTTTTA

XM_004863745.1 Coding sequence

Nphp4 nephronophthisis 4, transcript variant X3

Length: 3729 bp    Location: 5335872..5432162   Strand: +
>XM_004863745.1
ATGACCCTCATTGAGAACTGCAGCCTGCACTACACGCTGCGGCCCCACCCGGCCCTGGAGCCTGCCTTCCACCTCCTGCCCGAGAACCTGCTGGTGTCAGGTCTGCAGCCCATCCCCGGCCTCCTTCCGGCGCACGGCAACTCGGGTGATGCCCTCTGGAAGCCACGCCTTCAGAAGACCTCCACGTGGCACCTGGACGACATCTTCTTCTCCCTGTATCCCTCCCTCGAGAAGTTTGAGGAGGAGCTTCTGGAACTCCTTGCCCAGGACCACTCCCAGGAGGGAGGTGGCCTGCTGGACGGTGGCCCCCTGGGGGTCCTGGAGCGACGCCTGCACGTGGGCGTGCACAACGGTCTGGGCTTCGTGCAGAGGCCGCAGGTGGTGGTGCTGATGCCCGAGATGGACATGGCCTTGACGCGCTCCGCCAGCTTCAGCAGGAAAGTCAGCTCCTCTTCCAGAACCAGCTCTGGAAATCAGGCTCTGGTTTTGAGAAGCCGCCTGCGCCTCGCCGAGATGGTCAGTCACCCTGCCTTTGCCATCACCTTTCAGCTGGAGTACGTGTTCAGCAGCCCTTCAGGAGTGGACAGCAACGCTGTGTCGCTCACTGCCTTGTCCCACTTGGCGTGCATGCGCATGGTCCGCTGGGCTGTCTGGAGCCCCGACCTGGAAGCCAGTGACGGCAGGGTCTCCTTGCCTCTGCAGGGTGGCACTGGGCCCAGCCCCTCGCGCTGCCTGGTCTACAAGGTGCCCTCGGACAGCAGGAGCTCTGAAGAGGTGAAGCAGACCGAGGTGGGGACGGTGCAGTTCCGGTTCTCGCTGAGCCCGGAGGAGCTGCCAGAGACCCCCAAGGAACGTGCCGAAGGCCCCCGGGCGGAGCAGCGGCCCTGCGGGAGGCCGCCCCGGTCCCCCTCAGGCCCACCAGCACCGACGCCCCAGGGTCTTGCTGCCACCCAGAACTCTCCCGTGGGACCAGGGTTGTCACTGTCCCAGCTGGCGGCCTCCCCACTGTCCCCAGCTCAGCGTCATTCAGCCAGAGTGAGTCCACAGCCACTGGACGGTTCCCAGCCCCAGACAGAGGACTTCCCGCTGGAGGGCAGGATCTCGCACCTGGAAGCTGACCTGAGCCGGACTCCTGCCTCCCTGGAAACCTCTGTCACCGAACACTTACAGGAGCTGCCGTTCACCCCGCTGCACGCCCCCATTGTGGTGGGAGCCCAGACCAGGAGCTCTGGAGGCCAGCTCTCGAGGGCCACCATGGCTGTCCTGCAGTCCTCCGGCTTCCCGGAGATTCTGGACACCAACAAGCAGCCCGCAGAAGCCGTCAGCCCCACAGAGCCCGTGGAGTTCAACCCGCAGAAGGAAGAGGCAGATCGTCTGCAGAGCAACGAGATGGTGCTGCACTTCTTGGCCTTCAGCAGAGTGGCCCAGGACTACCAAGGAACACCGTGGCCAAAGACTGTGTATTTCACCTTCCAGTTCTACCGCTTCCCACCCGTGACCACGCCGCGCCTGCAGCTGGTCCCACTGGACAGGGCTGGGGGGCCCAGCTCCGCCTCCCTGTCCCACCTCCTCGTTCCCATCAGTAAAGACGGCTCCTATGACACAGGGCCCCCAGGCTTGCAGCTGAGGTATGCAGTGGGCCCCGAGTTCCTGAAGCCAGGCGAGCAGCGCTGGTTCCTCCGCTACCTGGCCGTGCACACGTTGCAGATCGACGTCTGGGACGGGGATTCGCTGCTCCTTCTTGGATCGGCCGCTGTCCCAATGAAGCACCTCCTCCGCCAAGGCCGGCCAGCCGTGCAGGTTGCCCACCAGCTGGAAGTCGTGGCCACCGAGTATGAGCAGGACACCCCGGTGTCTGGGTTCGGCAGTGTCAAGCCCATCGGGGTCCACACGGTGGTGCAGGGCCGGCTGCATCTGACCTTGGCCAACGTGGGTCACGCATGTGAACGCAGAGCGAAAGAATCCTGCTCGCTGCCACCGTCCAGATCTCGGGTCATCTCGAACGACGGAGCCAGCCGCTTCCCTGGGGGCAGCCTCCTCACGCTGGGAAGCCAGAGACGGAGGAACGTGGTCCAGGCGCAGAGGCTGGCCGACGTGGACAGCGAGCTGGCCGCCATGCTGCTGACCCCTGCGCTGGGCGGCCGGGGACCCTGGAGCAGCGGCCGCGAGGTGGACGCTGTGCGCAGGCGAAAGCTGGAGAGGATGCGGTCTGTGCGCCTGCAGGAGTCGGGGGCGGAGCCCGTCAGCCGCAGGACGGCCGTGCTGGCCCAGCAGAGCGCGCGTATGCAGCACTCCCGGGACCTGCAGGTCATCGACGCCTACCGGGAGCGCACCAAGGCGGAGAGCATCGCCAGCCTGCTGAGCCTGGCCATCACCACGCAGCACACGCTCTACGCCACGCTGGGCACGGCCGAGTTCTTTGAGTTCGCCCTGAAAAACCCCCACAACACGCAGCACACGGTGTCCATCGAGATCGACAACCCCGAGCTCAGCCTCATCCTGGACAGCCGGGAGTGGAGGTACTTCAAAGACGCCGCCGGCCTGCACACGCCGCTGGAGGAGGACGTGTTCCACCTGCGCGGCGACCTCACCCCCCAGCTCTACCTGCGCCCCCGGGAGACCGTCCACGTCCCCTTCAAGTACCAGAGCTTCTCCGTGGGCCCACCAGAGCTGGCACAGGCCTCCACCGAGCTGAGGGCCGAGCGGGGCAGGGATGCTGGAGCACCCTGGAAGTCTGGTGCCACGCCCACTAAACATGCCAAGGTCCTGTTCCGCGTGAGTGGCGGCAAGCCCCTGGCCGTGCTCTGCCTGACTGTGGAGCCCCAGCCCCACATGGTGAACCAGGTCTTCCGCTTCTACCACCCGGAGCTCACCTTCCTGAAGAAGGCCATCCGCCTGCCTCCCTGGCACACCCTTCCAGGAGCTCCTGTGGGAAGACCAGGGGAGGAGCCAGCAGTCCACGTGCGGTGCAGCGACCCAAATGTCATCTGCGAGGCCCAGAATGTGGGCCCCAGGGAACCCCGGGATGTGTTTCTGAAGGTGGCCAGTGGTCCCAGCCCCGAGATCAAAGACTTCTTTGTTACCATTTATGCGGATCGCTGGCTGGCGGCACCCGTGCAGACGTGGCAGGTCTGCCTCCACTCCCTGCAGCGTGTGGATGTCTCCTGCGTCGCGGGCCAGGTGACTCGCCTGTCCCTTGTCCTCCGGGGGACGCAGACTGTCAGGAAAGTGAGAGCCTTCGCCTCCCACCCCCAGGAGCTGAAGATGGACCCTGCAGGTGACTTCCTGCTGCCCCCCCATGGGGTGCAGGACCTGCATGTGGGCGTGCAGCCCCGCAGGGCTGGCAGCCGCTTCGTGCGCCTCAACCTGGTTGATGTGGACTTCCACCAGCTGGTGGCTTCCTGGCTCCTGTGCCTCTCCTGTCGCCAGCCACTCATTTCCAAGGCCTTCGAGATCACCATGGCAGTGGGGGAAGGGAAGGGCGCTAACAAGCGGATCACCTACACCAACCCCTACCCGACCCCGAGGGCCTACCGCCTGCACAGCGACCGCCCGGACCTGCTGGAGTTCAGGGAGGATGCCTTCCAGGTGGGGGGCGGAGAGACCTACACCATCGGCCTGCGGTTCTCCCCAGGTGGGAGGCCGGGGCAAGAAGAGATCCTGATCTATATCAACGACCATGAAGACAAGAACGAAGAGACCTTTTGCGTGAAGGTCACCTACCAGTGA

XR_206045.1 Non-coding sequence

Ajap1 PREDICTED: Heterocephalus glaber adherens junctions associated protein 1 (Ajap1), transcript variant X2, misc_RNA.

Length: 2595 bp     
>XR_206045.1
CCGCGCAGATGGCCGGGTCGAGCGAGGTCTGAGGCTCTGCTCCCCGAAACGTGACCATGTGGATCCAACAGCTTTTAGGACTCAGCTCCATGTCCATCCGTTGGCCGGGCCGCTCCCTCGGAAGCCATGCTTGGGTACTGATAGCCATGCTGCAGCTAGCCGTGGATTTCCCGTCCTGTGAGTCACTGGGCCCAGGCCCCGAGTTCTGGCTCATGCCTCGCCCAGCCCAGCGGCCCCCGCGCCTGTGGAGTCTGCGGAGCGGACAGCCGTCCCGGCCCCCCACGCCCGTGTGGAGTCTCCGGGTCCCCCGTGTGGAGCGGGCCCATGGGCAGATGCAGGTGTCCCGTGCCCGGCGGGCCCACAGACCCAGGGACCAGGTGCCCTCCCCTGGGCGTGAAGGTGGCCTGGCCAAGCCCCCGGCCACCTCCAAATCCAGCCCCTCCCTGGCCTCCTCGTCCTCACCCTCGTCCTCGGCAGGGGTGGCCGGCAGGGCGGCGGAGCAGCGACAGCTGAGGCGGGGCCGGAGGCACACGCAGGACCCCGCGTTCAACAGCTTCGACTTCCGGGGTGGCCGGCCCACCACAGAGACAGAGTTCATCGCCTGGGGACCCACCGGGGACGAGGAGGGCCCTGAGGCCAACACCTTCCCGGGCATGGACGGCCCCACCACGGCCTCCGTTCTGCAGACACGGAAGACGACAGTGGCCACCACGACCACCACGGCCGCCTCCATCACGCAGACCCGGGGCCTCACCGCGTCCCTGGAGCCCTGGAGAAAGGTCGCCATTGGGGTCAGCACAACGGAGCCTTCCCCCAGCCCCAGCAGCGACGGGAAGAACACCAGCCCACCACGGATTCTGGGTGAGACCTCAGGTTTGGCTGTGCATCAGATCATCACCATCACCGTCTCCCTCATCATGGTCATCGCTGCTCTCATCACAACTCTTGTCTTAAAAAATTGCTGTACCCAAAGCGGGAACACTCGGAGGAACAGCCACCAGCGGAAGGTCAACCAGCAGGAGGAGAGCTGTCAGAACCTCACTGACTTCACCTCGGCCCGGGTGCCCAGCAGCCTGGACATCTTCACGGCCTACAATGAGACACTGCAGTGCTCCCATGAGTGCGTGCGGGCATCCGTGCCCGTCTACACCGATGAGACGCTGCACCCAGCGGGCGAGTACAAGTCCACGTTCAATGGGAACCGCTCCTCCTCTGCCGACCGGCATCTCATCCCTGTGGCCTTCGTGTCTGAGAAATGGTTTGAAATCTCCTGCTGACTGGCCGAAGGCTTTTTACCTCCTGGGGCAGGGCAGACGCCAGGTGTCTGTCTCATGGATTCCGTTGGTGAACCTGTAAAAACAAAAACACAAACACAAAACCTAAAACTAAACTATCTGAGGGGGAGGGTCCCGCACCTGCTGCTTCTGTCTGCCGGTGGGAAACTCGCATAGCAGGCGCTCTAGGCCAAATATATTTTTGTAAAGATGCTCACGCCTATGGGTGACTGCCTTCCCTGGAGTTTTCTTTGGAGAATAGAGCAAAGACACACAAGAGGGGACTGGAGAAAGAGACCAGGTGGCCACGCGGACGGGACAGGAGGAGGCATCGACGCCTGGGATTGGGACCACGATTCTGAACCTGTGCCAATAATACCATTATGTGCCATGAACCGACCCGAGAGGCCCGGCCCAGAGCCGCAGCCGAGCGAATCACGCATAGAAATCTTACAGAAAACAGGGGTGGGAATCTCTTCCGATAGAGTCACTATTTCTGGTTATTATACATATATAAATATATAAATACCAACAGACACACACACACACTTTTTTTGTACTGTAGTAATTTTTGAAGATCTTCAATGTTCCTTTTTAAAAAAAGAATTGTGTTCTAGGTTATGAAACCTGATTTATTTAACATGCTTAGTATGAACAGAATTAAACCGATGTTTTCTACTGCAGCAACTCACTGAGTACGCGTGCACACACACACACACACCACACTCACGCCTGCACACGCAAACACTCATGCATATATACGCATATATTGGAAATACAATTCCACAGGTGAGCATATTCTTTATTCTTCCTGGTGACCTGATAGTTCATCACCATTCATCCTGGGGACAGCTTGGACCCTTCAGTGACACCCTGCGCTTGCTGGTATTTACTGAACAACACCAAATGTGTGATGTGTTACCTTGGGCCAGAACGAAGAACGCCGTGGTTTCCTATATATATGTATACACACATGTGCATAAATGTTACCTTTCTTCATTTACCTGTTTGAAGATGCTACCTAGCAGCTCTGCACGTTGACGTGGCTGGCTGCTGCTGCTCGGGCCCAACTGAGCACTAGGTGGGGTGGGTGGTGGATTCTCAAACATTTGTGTTATACGAGCATAGACTGAATTAAAGAAATTTTCCAGTTCCACAAAGTAAAGTAATATATCCTTCCAGCGTGTGTGTGTGCATCAGGGCTGCACTCTGAATGCACAGGGTCCTTCTGCTTGGAAGTGACACATGGTGATCGTGGTGTGCGTGACAGCCCGGGCTGGCTCTGGGGTCCTGGTCTGATGCCACTGCTTTTTCTGGGGGA

XM_004863756.1 Coding sequence

Smim1 small integral membrane protein 1, transcript variant X1

Length: 234 bp    Location: 6754644..6752011   Strand: -
>XM_004863756.1
ATGGAGGCCCCGGAGAGCCGTGTCCACTACAGCAGGTGGGAAGACAACAGCCAGGACGAAGTCAGTGTGGCCGCCGTGTCAAGCACAGAGGCCTCCGGCTGCAAGGCGGTCTTCCGGAAGCTATGCACAGGCAAGCTGGGCATCGCTGTGAAGGTGCTGGGTGGGGTGGCCCTTTTCTGGGCCATCTTCATCCTGGGCTACGTCACTGGCTACTACGTGCACAAGTGCAAATGA

XM_004863757.1 Coding sequence

Smim1 small integral membrane protein 1, transcript variant X2

Length: 234 bp    Location: 6754644..6752011   Strand: -
>XM_004863757.1
ATGGAGGCCCCGGAGAGCCGTGTCCACTACAGCAGGTGGGAAGACAACAGCCAGGACGAAGTCAGTGTGGCCGCCGTGTCAAGCACAGAGGCCTCCGGCTGCAAGGCGGTCTTCCGGAAGCTATGCACAGGCAAGCTGGGCATCGCTGTGAAGGTGCTGGGTGGGGTGGCCCTTTTCTGGGCCATCTTCATCCTGGGCTACGTCACTGGCTACTACGTGCACAAGTGCAAATGA

XM_004863746.1 Coding sequence

Ajap1 adherens junctions associated protein 1, transcript variant X1

High confidence: 4 potential gene matches
Length: 1221 bp    Location: 6318277..6229498   Strand: -
>XM_004863746.1
ATGTGGATCCAACAGCTTTTAGGACTCAGCTCCATGTCCATCCGTTGGCCGGGCCGCTCCCTCGGAAGCCATGCTTGGGTACTGATAGCCATGCTGCAGCTAGCCGTGGATTTCCCGTCCTGTGAGTCACTGGGCCCAGGCCCCGAGTTCTGGCTCATGCCTCGCCCAGCCCAGCGGCCCCCGCGCCTGTGGAGTCTGCGGAGCGGACAGCCGTCCCGGCCCCCCACGCCCGTGTGGAGTCTCCGGGTCCCCCGTGTGGAGCGGGCCCATGGGCAGATGCAGGTGTCCCGTGCCCGGCGGGCCCACAGACCCAGGGACCAGGTGCCCTCCCCTGGGCGTGAAGGTGGCCTGGCCAAGCCCCCGGCCACCTCCAAATCCAGCCCCTCCCTGGCCTCCTCGTCCTCACCCTCGTCCTCGGCAGGGGTGGCCGGCAGGGCGGCGGAGCAGCGACAGCTGAGGCGGGGCCGGAGGCACACGCAGGACCCCGCGTTCAACAGCTTCGACTTCCGGGGTGGCCGGCCCACCACAGAGACAGAGTTCATCGCCTGGGGACCCACCGGGGACGAGGAGGGCCCTGAGGCCAACACCTTCCCGGGCATGGACGGCCCCACCACGGCCTCCGTTCTGCAGACACGGAAGACGACAGTGGCCACCACGACCACCACGGCCGCCTCCATCACGCAGACCCGGGGCCTCACCGCGTCCCTGGAGCCCTGGAGAAAGGTCGCCATTGGGGTCAGCACAACGGAGCCTTCCCCCAGCCCCAGCAGCGACGGGAAGAACACCAGCCCACCACGGATTCTGGGTGAGACCTCAGGTTTGGCTGTGCATCAGATCATCACCATCACCGTCTCCCTCATCATGGTCATCGCTGCTCTCATCACAACTCTTGTCTTAAAAAATTGCTGTACCCAAAGCGGGAACACTCGGAGGAACAGCCACCAGCGGAAGGTCAACCAGCAGGAGGAGAGCTGTCAGAACCTCACTGACTTCACCTCGGCCCGGGTGCCCAGCAGCCTGGACATCTTCACGGCCTACAATGAGACACTGCAGTGCTCCCATGAGTGCGTGCGGGCATCCGTGCCCGTCTACACCGATGAGACGCTGCACCCAGCGGGCGAGTACAAGTCCACGTTCAATGGGAACCGCTCCTCCTCTGCCGACCGGCATCTCATCCCTGTGGCCTTCGTGTCTGAGAAATGGTTTGAAATCTCCTGCTGA

XM_004863749.1 Coding sequence

LOC101713067 chromosome unknown open reading frame, human C1orf174, transcript variant X3

Length: 603 bp    Location: 6691439..6697626   Strand: +
>XM_004863749.1
ATGAGGAGCAGGAAGACTTCGTCACACAAGGCCCCAGACAGGCGAACCTCAAAGAAGTTCAAGTCTGACAAAGGTCACCTTGTGAAGGCAGAATTACAGAAACTAGTCTCCAAAGGCAACAGTGCTGCTTTGCCAGAAGTGGTGCCCAGGGCCCCGTGTAAAGACAGCTCTGCAGAAGGCAGCGCGTTGCTCCCGGGCAGTGACTCCACTGCCCCTGCACGCCAGGAGGCTGCAGCTCTTCCCCACAGTGGCTGCCGATGTGCGAACGATACTGTCCCTGCTAAGACTGAAGACAGCCAGTCCCCGCCAGAGCCCTGCACCAGTGCAGCGGCAGAGGAGGCAGACAGGAGCCCCAGGGGGCTACACGAAGCAGCATTAGCCACAGGGGAGATGCAGATGCCCCTGCCTCAGATGGACAACAGCGTCTTTCTGGACGATGACAGCAATCAGCCCCTGCCGGTGAGCCGGTTCTTCGGGAACGTGGAGCTCATGCAGGACCTGCCACCGGCCTCTTCATCATGTCCTTCAATGAACAGACGGGAATTCAGGAAGATGCATTTCAGAGCCAAAGACGATGAGGACGACGAAGATGCAGAAATGTAG

XM_004863559.1 Coding sequence

Kiaa2013 KIAA2013 ortholog, transcript variant X2

Length: 1635 bp    Location: 1096776..1107914   Strand: +
>XM_004863559.1
ATGGTGGGCAACGGCTTCCTGGCGCTGGACGTGGCCGCCAACCGGCTGTGGGTGACCCCGGGGGAGCGGGAGCCCGCCGTGGCGCCGGACTTCGCTCCCTGGGTGCAGCTGCGCCCGCTGAACGTGCTGGCCGAGGCGGGCGAGGCGGTGCTGCTGCTGCGGGAGGGGCTGCTGCGCCGGGTGCGCTGCCTGCAGCTCGGGGCTCCGGGCCCCGGCCCTGCCGCCGCCGCAGGCGGGGGTCCTGCCTCTGTCTCCGGCCTCTCCGCCGGCGCCGGCCGCGACTGCGTCCTGTTGCAGGAGGACTTCCTGGCGCACCGGGGCCGACCCCACGTCTATCTGCAGCGCATCCAGCTCAACAACCCCACGGAGCGTGTGGCCGCGCTGCAGATTGTGGGCACCACTGCCGGCCCGCTCCCCAAGGCCTTCACTAGTACCCTGGAGAAGGTCGGAGACCATCAGTTCCTCCTCTACTCCGGCCGATCCACCCTCTCTCCCGCGGGCCAAGTGCACCTGGTCGTGATAGCCGGCAAGAAGCTTGTGAACCGGCTCCAGGTGGCTCCCAGGTCGCAGCTGGACGAGACGGTGCTGTGGGTTGTGCACATCTCGGACCCCATGAGTCCCCAGGTGCTCAAAAGCAGAGCAGCCAAGGAGCTCAAGGTCCTCCAGGACTTGGCCCGGAAGGAAATGCTGGAGCTCTTGGAAATGCCAGCGGCTGAGCTGCTTCAGGACCACCAGCACCTCTGGGCTCAGCTCTTCAGCCCAGGGGTGGAAATGAAGAAGATCACAGATGCCCACACACCGTCCGGCCTGACCGTGAACCTGACGCTGTACTACATGCTGTCCTGCTCGCCAGCCCCACTGCTCAGCCCTTCCCTGAGCCGCCGGGAGCGAGAGCAGATGGAGGCAACGCTCAGCTATGAAGACCACTGCTTCAGCGGCCACGCCACCATGCATGCCGAGAACCTGTGGCCTGGCCAGCTGGGCTCAGTGCAGCAGATCCTGCAGCTCTCTGACCTGTGGAGGCTGACACTCCAGAAGCGCGGCTGCAAGGGGCTGGTGAAGGCGGGCGCACCGGGCATCCTGCAGGGCATGGTGCTCAGCTTCGGGGGGCTACAGTTCACCGAGAACCACCTGCAGTTCCAGGCCGACCCAGACGTGCTGCACAACAGCTACGCACTGCATGGCATCCGCTACAAGAACGACCACCTCGACCTGGCCGTGCTGGCGGACGCCGAGGGCAGGCCCTACCTGCACCTGGCCGTGGAGGCCAGAGGGCAGCCCGGCAAAATCTACGCCTGCGAGGCAGGCTGCCTGCAGGAGCCTGTGGAGCTGACTGCGGCACCCGGCGGCCACATCTTCTCCATCATGGTGACGCAGCCCATCACCCCACTGCTCTACATCTCCACTGACCTCACGCACCTGCAGGACCTGCGGCACACACTGCACCTCAAGGCCATCCTGGCCCACGATGAGCACATGGCCCAGCAGGATCCCGGGCTGCCCTTCCTCTTCTGGTTCAGCGTGGCCTCCCTCATCACCCTCTTCCACCTCTTTCTCTTCAAGCTCATCTACAACGAGTACTGTGGGCCTGGAGCCAAGCCCCTCTTCAGGAGCAAGGCACTATTATTTCATTGA

XM_004863752.1 Coding sequence

Cep104 centrosomal protein 104kDa, transcript variant X2

Length: 2772 bp    Location: 6712662..6736647   Strand: +
>XM_004863752.1
ATGCCCCACAAGGTCGGGTTCGTAGTGGTCAGCTCTTCTGGACACGAAGACGGCTTCAGCGCCCGGGAGTTGATGATCCACGCGCCCACAGTGAGTGGGTGGCGGTCACCGAGATTCTGCCAGTTTCCACAAGAAATTGTCCTGCAGATGGTGGAGAGATGTCGAATAAGGAAACTGCAGCTCCTTGCTCACCAGTATATGATTTCAAGTAAAATCGAGTTTTACATCAGTGAAAGTTTGCCAGACTACTTCGTACCTTACCAAGCAGAGCGCTTTCGCAGACTGGGCTACGTCTCCCTGTGTGACAATGAGAAGACAGGTTGCAAAGCCCGGGAACTAAAATCAGTGTATGTGGATGCGGTAGGGCAGTTTCTTAAGCTGATTTTTCACCAAAACCACCTGAACAAGTACAACATCTATAACCAGGTTGCTTTGGTTGCAATAAATATCATTGGAGACCCTGCAGATTTCAGCAATGAAAGCAACCTTACCTCTAGGGAGAAGCTGATGGACCATTACCTGGGGCACAGCCCCGAGGACCCGGCGCTGGAGGGAACTTATGTGGGGCGATCCGACTACATCTCGCCCCTGGATGACCTGGCCTTTGACATGTACCAAGACCCCGAGGTGGCCCAGATCATCCGCAGGCTGGACGAGAGGAAGCGGGAGGCTGTCCAGAGGGAGCGGTACGATCATGCCAAGAAACTGAAGCAAGCCATTGCCGACCTGCACAAGGTCGGTGAGCGCCTAGGGCGCTACGAGGTGGAGAAGCGCTGCGCGGTGGAGAAGGAGGACTACGACCTGGCCAAGGAGAAGAAGCAGCAGATGGCGTGCTACCGGGCCCAGGTGTACGAGCAGCTGGCCCTGCACGGCCTCCTGCAGGGCGAACCGGAGGTGCAGAAGCCTCCCAGTCTGCCCCTCCAGCCCCTTGCCCGGGCCAGCAGTCCTCACTGCCGACAGCCTGTGCCCTCACTCCCACGTCCAGGAGAGATGGATCCAGAAAACCGGCCCACGGACCCTCTCCTCCAGGAGCAGCCTGCATCACATGTCCTGACTCCTTCTCCACGGCGCTCGGCAGCAGACCAGCCACCGCCTGCCACGGGCCCCAGCCCACGGAGCCCTGTGGAGGCCCTGCCCTACGACGAGCGGCCTCTTCCTGCCACCCGCAAGCAGCCAGGGGTGTCAGCGGAGCCAGAAGCAAGCGAGGCTGATGCCAGCGATGCCCGGGGAGGAGGCCTGGCCGGGGAGCCCGAGCCCCTGACGGAGAAGGCGCTGCGAGAGGCCGGCGCCACCATCGACGCGTTGGGAGAGACCTTGGTCGCAGGGGCCTATTCCAAGACCTGGTCCTTCCGTGAGGACGCGCTGCTCGCACTCTACAAAAAGTTAACAGAGATGCCCGCCGGAACCCCGAAGGAGGATGCAAAGAACACGCTCAGGGCGGCTGTCTTCCTCATCCACAGAGCCATCAAGGATGTCGTGACCTCGGTCTTTCAGGTTTCTTTGAAGCTGTTGAAAATGCTCGTCACCCAGTACATACCCAAGCACAAGCTGGGCAAACTGGAAACCGCGCACTGCGTGGAGAGGACCGTCCCCGGCCTGCTCGCCAGGACTGGGGACTCCTGCACCCGCCTCCGCATCGCGGCCTCCAACTTCATTCAGGAGCTGGCGCTGTGTGAGGAGGTCCGGGCGCTGCAGATGGTCCCGACCTACTTGGTGCAGCCGCTGAAGCCCAGCTGCTCTGCCCGCCTGGCCATGAGTCAGATGGACCTCCTGGCGCGGCTGCTGCGAGACCTGGGCACTGAGGGCACAGGCTTCTCCGTGGACAGTGTGATGAGGTTTGCGGTGAGCGCCCTGGAACACAGGGTGTACGAGGTCCGGGAGACGGCGGTCAGGGTCATCCTGGACATGTACGCACAGCACCAGGCCCTGGTCCTCGAGTTCCTCCCTCCAGACGACAGCAGCACACGCAGGAACCTCCTCTATAAGACCATCTTCGAGGGGTTCGCCCGGATAGACGGCAGGCCCACCGGTGCCGAGACCAGGGCACAAAAAAAAGCAGCTACAGAAGAAGCAGAAAAACGAAAGAAAGAAGAAATCAAAGTTCTACAAGGGCAGCTGGCAGCTCTGAAGGAAATCCAGGCGGAGGCTGAGGAAAAAGAGAGCGACGCTGAGAAGCCGAGGAACCAGGACAGCCCGGCCAGGAAGGCAGCCCCACCGGACGCCCCAGAAGTCCCAGACAGCCACTACCTAGACAACCTCTGCATCTTCTGCGGGGAGCGCAGCGAGGCCTTCACAGAGGAGGGGCTGGACCTGCACTACTGGAAGCACTGCCTCATGCTGACGCGCTGCAGCCACTGCAGGCAGGTGGTGGAGATCGCCAGCCTGACGGAGCACCTGCTGACGGAGTGCGACAGCAAGGAGGCCTTCGGGAAGTGCTACCGCTGCAGCGAGGCCGTGCCAAAGGAGGAGCTGCCCCGACACATAAAAGCAAAGGCGTGCAACCCTGCCAGATCCGAGAAGCTGGCAAACCGGTGTCCCCTGTGCCATGAGAATTTTCCTCCTGGAGAAGAGGCGTGGAAGGTGCACCTGATGGGCCCCTCGGGCTGCACCATGAACCTGCGCAGGACACAGCCCAAGGCCCTGGCGCCACAGCAGGGTAAAGGCCCCACTGTGGCCAAGTCAGGAACCTCAGGACCGAAGGCCGGGAGCAAAATCCCCACCCCGAAGGGAGGCCTGCACAAGAGCTCCAGCAGAACGTACACCAAGCGGTGA

XM_004863753.1 Coding sequence

Cep104 centrosomal protein 104kDa, transcript variant X3

High confidence: 4 potential gene matches
Length: 2772 bp    Location: 6712684..6736647   Strand: +
>XM_004863753.1
ATGCCCCACAAGGTCGGGTTCGTAGTGGTCAGCTCTTCTGGACACGAAGACGGCTTCAGCGCCCGGGAGTTGATGATCCACGCGCCCACAGTGAGTGGGTGGCGGTCACCGAGATTCTGCCAGTTTCCACAAGAAATTGTCCTGCAGATGGTGGAGAGATGTCGAATAAGGAAACTGCAGCTCCTTGCTCACCAGTATATGATTTCAAGTAAAATCGAGTTTTACATCAGTGAAAGTTTGCCAGACTACTTCGTACCTTACCAAGCAGAGCGCTTTCGCAGACTGGGCTACGTCTCCCTGTGTGACAATGAGAAGACAGGTTGCAAAGCCCGGGAACTAAAATCAGTGTATGTGGATGCGGTAGGGCAGTTTCTTAAGCTGATTTTTCACCAAAACCACCTGAACAAGTACAACATCTATAACCAGGTTGCTTTGGTTGCAATAAATATCATTGGAGACCCTGCAGATTTCAGCAATGAAAGCAACCTTACCTCTAGGGAGAAGCTGATGGACCATTACCTGGGGCACAGCCCCGAGGACCCGGCGCTGGAGGGAACTTATGTGGGGCGATCCGACTACATCTCGCCCCTGGATGACCTGGCCTTTGACATGTACCAAGACCCCGAGGTGGCCCAGATCATCCGCAGGCTGGACGAGAGGAAGCGGGAGGCTGTCCAGAGGGAGCGGTACGATCATGCCAAGAAACTGAAGCAAGCCATTGCCGACCTGCACAAGGTCGGTGAGCGCCTAGGGCGCTACGAGGTGGAGAAGCGCTGCGCGGTGGAGAAGGAGGACTACGACCTGGCCAAGGAGAAGAAGCAGCAGATGGCGTGCTACCGGGCCCAGGTGTACGAGCAGCTGGCCCTGCACGGCCTCCTGCAGGGCGAACCGGAGGTGCAGAAGCCTCCCAGTCTGCCCCTCCAGCCCCTTGCCCGGGCCAGCAGTCCTCACTGCCGACAGCCTGTGCCCTCACTCCCACGTCCAGGAGAGATGGATCCAGAAAACCGGCCCACGGACCCTCTCCTCCAGGAGCAGCCTGCATCACATGTCCTGACTCCTTCTCCACGGCGCTCGGCAGCAGACCAGCCACCGCCTGCCACGGGCCCCAGCCCACGGAGCCCTGTGGAGGCCCTGCCCTACGACGAGCGGCCTCTTCCTGCCACCCGCAAGCAGCCAGGGGTGTCAGCGGAGCCAGAAGCAAGCGAGGCTGATGCCAGCGATGCCCGGGGAGGAGGCCTGGCCGGGGAGCCCGAGCCCCTGACGGAGAAGGCGCTGCGAGAGGCCGGCGCCACCATCGACGCGTTGGGAGAGACCTTGGTCGCAGGGGCCTATTCCAAGACCTGGTCCTTCCGTGAGGACGCGCTGCTCGCACTCTACAAAAAGTTAACAGAGATGCCCGCCGGAACCCCGAAGGAGGATGCAAAGAACACGCTCAGGGCGGCTGTCTTCCTCATCCACAGAGCCATCAAGGATGTCGTGACCTCGGTCTTTCAGGTTTCTTTGAAGCTGTTGAAAATGCTCGTCACCCAGTACATACCCAAGCACAAGCTGGGCAAACTGGAAACCGCGCACTGCGTGGAGAGGACCGTCCCCGGCCTGCTCGCCAGGACTGGGGACTCCTGCACCCGCCTCCGCATCGCGGCCTCCAACTTCATTCAGGAGCTGGCGCTGTGTGAGGAGGTCCGGGCGCTGCAGATGGTCCCGACCTACTTGGTGCAGCCGCTGAAGCCCAGCTGCTCTGCCCGCCTGGCCATGAGTCAGATGGACCTCCTGGCGCGGCTGCTGCGAGACCTGGGCACTGAGGGCACAGGCTTCTCCGTGGACAGTGTGATGAGGTTTGCGGTGAGCGCCCTGGAACACAGGGTGTACGAGGTCCGGGAGACGGCGGTCAGGGTCATCCTGGACATGTACGCACAGCACCAGGCCCTGGTCCTCGAGTTCCTCCCTCCAGACGACAGCAGCACACGCAGGAACCTCCTCTATAAGACCATCTTCGAGGGGTTCGCCCGGATAGACGGCAGGCCCACCGGTGCCGAGACCAGGGCACAAAAAAAAGCAGCTACAGAAGAAGCAGAAAAACGAAAGAAAGAAGAAATCAAAGTTCTACAAGGGCAGCTGGCAGCTCTGAAGGAAATCCAGGCGGAGGCTGAGGAAAAAGAGAGCGACGCTGAGAAGCCGAGGAACCAGGACAGCCCGGCCAGGAAGGCAGCCCCACCGGACGCCCCAGAAGTCCCAGACAGCCACTACCTAGACAACCTCTGCATCTTCTGCGGGGAGCGCAGCGAGGCCTTCACAGAGGAGGGGCTGGACCTGCACTACTGGAAGCACTGCCTCATGCTGACGCGCTGCAGCCACTGCAGGCAGGTGGTGGAGATCGCCAGCCTGACGGAGCACCTGCTGACGGAGTGCGACAGCAAGGAGGCCTTCGGGAAGTGCTACCGCTGCAGCGAGGCCGTGCCAAAGGAGGAGCTGCCCCGACACATAAAAGCAAAGGCGTGCAACCCTGCCAGATCCGAGAAGCTGGCAAACCGGTGTCCCCTGTGCCATGAGAATTTTCCTCCTGGAGAAGAGGCGTGGAAGGTGCACCTGATGGGCCCCTCGGGCTGCACCATGAACCTGCGCAGGACACAGCCCAAGGCCCTGGCGCCACAGCAGGGTAAAGGCCCCACTGTGGCCAAGTCAGGAACCTCAGGACCGAAGGCCGGGAGCAAAATCCCCACCCCGAAGGGAGGCCTGCACAAGAGCTCCAGCAGAACGTACACCAAGCGGTGA

XM_004863755.1 Coding sequence

Lrrc47 leucine rich repeat containing 47

High confidence: 4 potential gene matches
Length: 1746 bp    Location: 6741057..6750885   Strand: +
>XM_004863755.1
ATGGCGGCGGCAGCGGTGTCCGAGGCCTGGCCCGAGCTCGAGCTGGCGGAGCGCGAGCGGCGGCGCGAGCTGCTGCTGACGGGTCCCAGACTGGAGGAGCGGGTGCGGGCGGCGGGCGGGCGCCTGCCGCCGCGGCTCTTCACGCTGCCGCTGCTGCACTACCTGGAGGTGAGCGGCTGCGGCAGCCTCCGCGCGCCGGGGCCCGGCTTGGCGCAGGGGCTGCCACAGCTGCATAGCCTGGTACTGCGCGGCAACGCTCTGGGGCCCGGCCTGAGCCCCGAGCTGGGGCCGCTGCTGGCGCTGCGCGTGCTCGATCTGTCCGGCAATGAGCTGGAAGCGCTGCCCCCGGGCCAGGGCCTGGGCCCCGCCGAGCCGCCCGGCCTCCCGCAGCTGCAGAGCCTCAACCTCAGCGGCAACCGGCTGCGCGAGCTGCCCGCCGACCTGGCGCTCTGCGCCCCGCGCCTGCAAAGCCTGAACCTCACCGGCAACCTCCTGGACGCCTTCCCCGCAGAGCTCTTCCGCCCCGGCGCTCTTCCGCTGCTCAGTGAGCTGGCGGCCGCCGACAACCGCCTGCGGGAGCTCAGCCCCAACATCGCTCACCTGGCCTCGCTCAAGACCCTGGACCTCTCCAACAACCAGCTGAGCGAGATCCCAGCCGAGCTGGCGGACTGCCCCAAGCTCAAGGAGATCAACTTCCGGGGCAACAAGCTGCGGGACAAGCGCCTGGAGAAGATGGTCAGCGGCTGCCAGCCCCGGTCCATCCTGGAGTACCTGCGCACCGGGGGCCGGGGCTCCCGGGGCCGGGCCCGGGCCGATGGCCCGGAGAAGGAAGATGCCCGGAAGAAGAGGAGGGAGCGGAAGCAGAGGCGGGAGAGCGGCGAGGCAGAGGACGACGTGGCGGATGCAGCCAAGCTGCTGCTCAGGGTCTTGCACGTCTCTGACAACCCCGCGCCCCTGACGATCAGAGTGAACCCCGAAGTCAGGGACGTGCGGCCGTACATCGTGGGGGCCGTCGTGCGAGGCATGGACCTGCAGCCGGGGAACACACTCAAGCGCTTCCTCGCCTCCCAGACCAAGCTCCATGATGAGCTCTGCGAGAAGAGGACGGCGGCCACCATCGCCACTCACGACCTCCGCGCTGTGCGAGGGCCCCTGCTGTACACAGCCCGGCCACCCCAGGACCTCAAGATTGTGCCCTTGGGGCGGAAGGAGGCCAAGGCCAATGAGCTGGTGCGGCAGCTGCAGCTGGAAGCCGAGGAGCAGAGAAAGCAGAAGAAGAGGCAGAGCGTCTCTGGGCTGCACAGGTACCTGCACCTGCTGGACAGCAAGGAAAGTTACCCTTGTCTCGTGGACGCAGCCGGAGATGTGATTTCCTTCCCCCCAATAACGAACAGTGAGAAGACAAAGATTAAGAAAAGCACGTGTGATTTGTTCTTGGAAGTTACCAGTGCCACAAGCCTGAAGATCTGTAAAGACATCATGGACACCCTCCTCCTGAAAATGGCAGAAATGAACAAGCACACTCTAGAAAACAAAGAGGAAGGGTCACTCTCCTACACAGAGGCTGACGCTGTTTCCGCACAACTTCCCGACTCCCTCAGGATCCCAAGTGCTGGGAAGGGTGTACAGTGCCCCCTGGTGGTGGAGCAGGTCCGCGTGGTGGACGCGGAGGGCGGCCTGAGGGTCGTGTACCCCTCCAAGGCCGACCTAGCCGCTGTCCCCCCACATGTGACCGTGGTTCGCTGA

XM_004863758.1 Coding sequence

Smim1 small integral membrane protein 1, transcript variant X3

Length: 234 bp    Location: 6754644..6752011   Strand: -
>XM_004863758.1
ATGGAGGCCCCGGAGAGCCGTGTCCACTACAGCAGGTGGGAAGACAACAGCCAGGACGAAGTCAGTGTGGCCGCCGTGTCAAGCACAGAGGCCTCCGGCTGCAAGGCGGTCTTCCGGAAGCTATGCACAGGCAAGCTGGGCATCGCTGTGAAGGTGCTGGGTGGGGTGGCCCTTTTCTGGGCCATCTTCATCCTGGGCTACGTCACTGGCTACTACGTGCACAAGTGCAAATGA

XM_004863760.1 Coding sequence

Tp73 tumor protein p73, transcript variant X2

Length: 1632 bp    Location: 6809267..6775625   Strand: -
>XM_004863760.1
ATGGCCCAGTCCTCCTCCACTGCCCCTGACGAGGGCTCCACCTTTGAACACCTCTGGAGCTCGCTGGAGCCAGACAGCACCTACTTCGACCTCTCACAGGCCCGACAGGGGAACACGGAAGCGGTGGGCAGCACGGAGGCCGCCATGGACGTCTTCCACCTGCAGGACCTGACCACTCCCGTCATGGCCCAGTTCAATCTGCTCAGCAGCACCATGGACCAGATGAGCAGCCGCGCGGCCCCAGCCAGCCCCTACACCCCGGAGCACGCCGCCAGTGTGCCCACCCACTCCCCGTACGCCCAGCCCAGCTCCACCTTCGACGCGATGTCGCCCGCACCGGTCATCCCTTCCAACACCGACTACCCCGGCCCCCACCACTTCGAGGTCACATTCCAGCAGTCCAGCACAGCCAAGTCGGCCACCTGGACGTACTCGCCGCTGCTGAAGAAACTTTACTGCCAAATCGCCAAGACGTGCCCCATCCAGGTCAAGGTGTCCACGCCGCCGCCCCCGGGCACCGCCATCCGGGCCATGCCCGTCTACAAGAAGGCAGAGCACGTGACCGACGTCGTGAAGCGCTGCCCCAACCACGAGCTCGGGCGGGACTTCAACGAAGGACAGTCTGCCCCGGCCAGCCACCTCATCCGTGTGGAAGGCAACAACCTCTCACAGTACGTGGACGACCCTGTCACCGGCAGGCAGAGTGTTGTGGTGCCCTACGAGCCCCCACAGGTGGGGACAGAGTTCACCACCATCCTGTACAACTTCATGTGTAACAGCAGCTGTGTGGGGGGCATGAACCGGCGGCCCATCCTCATCATCATCACCCTGGAGACCCGGGATGGCCAGGTGCTGGGCCGCCGGTCATTCGAGGGCCGCATCTGTGCCTGTCCTGGGCGTGACCGCAAGGCCGATGAGGACCACTACCGTGAGCAGCAGGCCCTAAACGAGAACGCTACAAAGAATGGGGCCACCAGCAAGCGTGCGTTCAAGCAGAGTCCCCCTGCCATCCCTGCCCTGGGTGCCAACATGAAGAAGAGGCGCCACGGGGACGAGGACATGTACTACATGCACGTGAGGGGCCGGGAGAACTTCGAGATCCTCATGAAGGTCAAGGAGAGCCTGGAGCTCATGGAGCTGGTGCCGCAGCCGCTTGTCGACTCCTACCGGCAGCAGCAGCAGCAGCAGTTCCTGCAGCGTCCTTTCCTAACAGGATTGGGCTGCCCAAACTGCATCGAGTATTTCACCTCCCAGGGGCTGCAGAACATCTACCACCTGCAGAACCTCACCATCGAGGACCTCGGGGCCCTGAAGATCCCTGACCAGTACCGCATGACCATCTGGAGGGGGCTGCAGGACCTAAAGCAGGGCCACGACTGTGGCCAGCAGCTGCTGCGCTCCAGCAGCAATGCTGCTACCATCTCCATCGGTGGGGCGGGTGAGCTGCAGCGGCAGCGGGTCATGGAGGCCGTGCACTTCCGCGTGCGCCACACCATCACCATCCCCAACCGTGGCGGCCCGGGCGGGGTGGCCGGCCCTGACGAGTGGGCCGACTTCGGCTTCGACCTGCCCGACTGCAAGTCCCGAAAGCAGCCCATCAAGGAGGAGTTCCCGGAGAGCGAGGGGCACTGA

XM_004863761.1 Coding sequence

Tp73 tumor protein p73, transcript variant X3

Length: 1920 bp    Location: 6809264..6775625   Strand: -
>XM_004863761.1
ATGGCCCAGTCCTCCTCCACTGCCCCTGACGAGGGCTCCACCTTTGAACACCTCTGGAGCTCGCTGGAGCCAGACAGCACCTACTTCGACCTCTCACAGGCCCGACAGGGGAACACGGAAGCGGTGGGCAGCACGGAGGCCGCCATGGACGTCTTCCACCTGCAGGACCTGACCACTCCCGTCATGGCCCAGTTCAATCTGCTCAGCAGCACCATGGACCAGATGAGCAGCCGCGCGGCCCCAGCCAGCCCCTACACCCCGGAGCACGCCGCCAGTGTGCCCACCCACTCCCCGTACGCCCAGCCCAGCTCCACCTTCGACGCGATGTCGCCCGCACCGGTCATCCCTTCCAACACCGACTACCCCGGCCCCCACCACTTCGAGGTCACATTCCAGCAGTCCAGCACAGCCAAGTCGGCCACCTGGACGTACTCGCCGCTGCTGAAGAAACTTTACTGCCAAATCGCCAAGACGTGCCCCATCCAGGTCAAGGTGTCCACGCCGCCGCCCCCGGGCACCGCCATCCGGGCCATGCCCGTCTACAAGAAGGCAGAGCACGTGACCGACGTCGTGAAGCGCTGCCCCAACCACGAGCTCGGGCGGGACTTCAACGAAGGACAGTCTGCCCCGGCCAGCCACCTCATCCGTGTGGAAGGCAACAACCTCTCACAGTACGTGGACGACCCTGTCACCGGCAGGCAGAGTGTTGTGGTGCCCTACGAGCCCCCACAGGTGGGGACAGAGTTCACCACCATCCTGTACAACTTCATGTGTAACAGCAGCTGTGTGGGGGGCATGAACCGGCGGCCCATCCTCATCATCATCACCCTGGAGACCCGGGATGGCCAGGTGCTGGGCCGCCGGTCATTCGAGGGCCGCATCTGTGCCTGTCCTGGGCGTGACCGCAAGGCCGATGAGGACCACTACCGTGAGCAGCAGGCCCTAAACGAGAACGCTACAAAGAATGGGGCCACCAGCAAGCGTGCGTTCAAGCAGAGTCCCCCTGCCATCCCTGCCCTGGGTGCCAACATGAAGAAGAGGCGCCACGGGGACGAGGACATGTACTACATGCACGTGAGGGGCCGGGAGAACTTCGAGATCCTCATGAAGGTCAAGGAGAGCCTGGAGCTCATGGAGCTGGTGCCGCAGCCGCTTGTCGACTCCTACCGGCAGCAGCAGCAGCAGCAGTTCCTGCAGCGTCCGAGCCACCTACAGCCACCGTCCTACGGGCCCGTCCTCTCCCCCATGAGCAAAGCGCATGGCAGCGTCAACAAGCTGCCCTCGGTCAACCAGCTGGTGGGCCAGCCTCCTCCGCATGCCTCAGCTGCCGGCGCCAGCCTGGGACCCATGGGCCCCAGCATGCTCAGCAGCCACAGCCATGCCATGCCTGCCAACGGCGAGATGAACGGCAGCCACAGCTCCCAGACCGTGGTCTCGGGGTCCCACTGCACCCCACCACCCCCCTACCATGCTGACCCCAGCCTTGTCAGTTTCCTAACAGGATTGGGCTGCCCAAACTGCATCGAGTATTTCACCTCCCAGGGGCTGCAGAACATCTACCACCTGCAGAACCTCACCATCGAGGACCTCGGGGCCCTGAAGATCCCTGACCAGTACCGCATGACCATCTGGAGGGGGCTGCAGGACCTAAAGCAGGGCCACGACTGTGGCCAGCAGCTGCTGCGCTCCAGCAGCAATGCTGCTACCATCTCCATCGGTGGGGCGGGTGAGCTGCAGCGGCAGCGGGTCATGGAGGCCGTGCACTTCCGCGTGCGCCACACCATCACCATCCCCAACCGTGGCGGCCCGGGCGGGGTGGCCGGCCCTGACGAGTGGGCCGACTTCGGCTTCGACCTGCCCGACTGCAAGTCCCGAAAGCAGCCCATCAAGGAGGAGTTCCCGGAGAGCGAGGGGCACTGA

XM_004863766.1 Coding sequence

Wrap73 WD repeat containing, antisense to TP73, transcript variant X4

High confidence: 4 potential gene matches
Length: 1491 bp    Location: 6838292..6851107   Strand: +
>XM_004863766.1
ATGAACTTCTCAGAAGTGTTCAAGCTCTCCAGCCTGCTCTGCAAATTCTCCCCGGACGGCAAGTACCTGGCTTCCTGTGTCCAGTACCGGCTGGTTGTCCGGGATGCGAGCACCCTGCAGATCCTGCAGCTGTACACGTGCCTGGACCAGGTCCAGCACATGGAGTGGTCAGCAGACTCCCTCTTCATCCTGTGTGCCATGTACAAGCGGGGGCTGGTGCAGGTTTGGTCTCTGGAGCAGCCGGAGTGGCACTGCAAAATCGACGAGGGATCGGCAGGGCTGGTGGCCTCGTGCTGGAGCCCGGATGGGCGCCACATTCTGAACACAACCGAATTCCACGCCCCGAGTGGAGTCACCAACACCACATGCAGCAACAGAAGACAACCCTGTCTGGGGGTCCATCTTCCCCGCTGCAGCAGCACCGAGTGCCTCTGTGGTCACAAGCTGCGCATCACGGTCTGGTCCCTGTGCACCAAGTCTGTGTCCTACATCAAGTACCCCAAAGCCTGCCTGCAGGGAATAACGTTCACAAGGGATGGCCGCTACATGGCGTTGGCCGAGCGTCGGGACTGCAAGGACTACGTGAGCATCCTGGTGTGCAGCGACTGGCAGCTCCTGCGGCACTTCGACACTGACACGCAGGACCTGGCCGGCTTGGAGTGGGCCCCCAACGGCTGCGTGCTGGCAGTGTGGGACACCTGCCTGGAGTACAAGATGCTGCTGTACTCCCTGGATGGCCGCCTGCTCTCGGTGTTCTGTGCCTACGAGTGGTCCCTGGGCATCAAGTCTGTGGCCTGGAGCCCCAGCAGCCAGTTCCTGGCAATCGGGAGCTATGACGGAAAGGTGCGGCTCCTGAACCACGTGACCTGGAAGATGATCACGGAGTTTGGGCATCCTGCAGCCGTCAACAACCCCAAGACAGTTGTGTACAAGGAAGCCAAGAAGAGCCCGCCGCTGGCGCTGGGCCACCTGTCCTTCCCGCCGTCCCGAGCAGGCGCCTGTCCCCTCACTGCCACCGCGGAGAGCAGATATGAGGTCGCCTCTGTGCCCGTCTCCCTGCAGACCTTGAAGCCAGCCGCTGACAGGGCCAACCCCAGGATGGGCGTAGGGATGCTGGCCTTCAGTGCTGACAGCTACTTCCTGGCGACAAGGAATGACAACGTCCCCAACGCCATCTGGGTCTGGGACATTCAGAAGCTGAGGCTCTTTGTGGTGCTCGAGCAGCTGTCCCCGGTGCGCTCCTTCCAGTGGGACCCGCAGCAGCCACGGCTGGCCCTCTGCACGGGGGGCGGCAAGGTCTACCTGTGGTCACCGGCGGGCTGCGTGTCGGTGCAGGTGCCTGGGGAGGGTGACTTTCTGGTGCTTTCTCTCTGCTGGCATCCAAGTGGGGACTCCCTGGCCCTCCTAAGTAAGGATCACTTCTGCCTCTGTTTCCTGGAGACCAAGGAGGGCACCGGGGCAGCCGCAGGACTGCGGGACGGCCACGTGTAG

XM_004863767.1 Coding sequence

Wrap73 WD repeat containing, antisense to TP73, transcript variant X5

Length: 1386 bp    Location: 6838292..6851107   Strand: +
>XM_004863767.1
ATGAACTTCTCAGAAGTGTTCAAGCTCTCCAGCCTGCTCTGCAAATTCTCCCCGGACGGCAAGTACCTGGCTTCCTGTGTCCAGTACCGGCTGGTTGTCCGGGATGCGAGCACCCTGCAGATCCTGCAGCTGTACACGTGCCTGGACCAGGTCCAGCACATGGAGTGGTCAGCAGACTCCCTCTTCATCCTGTGTGCCATGTACAAGCGGGGGCTGGTGCAGGTTTGGTCTCTGGAGCAGCCGGAGTGGCACTGCAAAATCGACGAGGGATCGGCAGGGCTGGTGGCCTCGTGCTGGAGCCCGGATGGGCGCCACATTCTGAACACAACCGAATTCCACCTGCGCATCACGGTCTGGTCCCTGTGCACCAAGTCTGTGTCCTACATCAAGTACCCCAAAGCCTGCCTGCAGGGAATAACGTTCACAAGGGATGGCCGCTACATGGCGTTGGCCGAGCGTCGGGACTGCAAGGACTACGTGAGCATCCTGGTGTGCAGCGACTGGCAGCTCCTGCGGCACTTCGACACTGACACGCAGGACCTGGCCGGCTTGGAGTGGGCCCCCAACGGCTGCGTGCTGGCAGTGTGGGACACCTGCCTGGAGTACAAGATGCTGCTGTACTCCCTGGATGGCCGCCTGCTCTCGGTGTTCTGTGCCTACGAGTGGTCCCTGGGCATCAAGTCTGTGGCCTGGAGCCCCAGCAGCCAGTTCCTGGCAATCGGGAGCTATGACGGAAAGGTGCGGCTCCTGAACCACGTGACCTGGAAGATGATCACGGAGTTTGGGCATCCTGCAGCCGTCAACAACCCCAAGACAGTTGTGTACAAGGAAGCCAAGAAGAGCCCGCCGCTGGCGCTGGGCCACCTGTCCTTCCCGCCGTCCCGAGCAGGCGCCTGTCCCCTCACTGCCACCGCGGAGAGCAGATATGAGGTCGCCTCTGTGCCCGTCTCCCTGCAGACCTTGAAGCCAGCCGCTGACAGGGCCAACCCCAGGATGGGCGTAGGGATGCTGGCCTTCAGTGCTGACAGCTACTTCCTGGCGACAAGGAATGACAACGTCCCCAACGCCATCTGGGTCTGGGACATTCAGAAGCTGAGGCTCTTTGTGGTGCTCGAGCAGCTGTCCCCGGTGCGCTCCTTCCAGTGGGACCCGCAGCAGCCACGGCTGGCCCTCTGCACGGGGGGCGGCAAGGTCTACCTGTGGTCACCGGCGGGCTGCGTGTCGGTGCAGGTGCCTGGGGAGGGTGACTTTCTGGTGCTTTCTCTCTGCTGGCATCCAAGTGGGGACTCCCTGGCCCTCCTAAGTAAGGATCACTTCTGCCTCTGTTTCCTGGAGACCAAGGAGGGCACCGGGGCAGCCGCAGGACTGCGGGACGGCCACGTGTAG

XM_004863763.1 Coding sequence

Wrap73 WD repeat containing, antisense to TP73, transcript variant X1

Length: 1665 bp    Location: 6838292..6849949   Strand: +
>XM_004863763.1
ATGAACTTCTCAGAAGTGTTCAAGCTCTCCAGCCTGCTCTGCAAATTCTCCCCGGACGGCAAGTACCTGGCTTCCTGTGTCCAGTACCGGCTGGTTGTCCGGGATGCGAGCACCCTGCAGATCCTGCAGCTGTACACGTGCCTGGACCAGGTCCAGCACATGGAGTGGTCAGCAGACTCCCTCTTCATCCTGTGTGCCATGTACAAGCGGGGGCTGGTGCAGGTTTGGTCTCTGGAGCAGCCGGAGTGGCACTGCAAAATCGACGAGGGATCGGCAGGGCTGGTGGCCTCGTGCTGGAGCCCGGATGGGCGCCACATTCTGAACACAACCGAATTCCACGCCCCGAGTGGAGTCACCAACACCACATGCAGCAACAGAAGACAACCCTGTCTGGGGGTCCATCTTCCCCGCTGCAGCAGCACCGAGTGCCTCTGTGGTCACAAGCTGCGCATCACGGTCTGGTCCCTGTGCACCAAGTCTGTGTCCTACATCAAGTACCCCAAAGCCTGCCTGCAGGGAATAACGTTCACAAGGGATGGCCGCTACATGGCGTTGGCCGAGCGTCGGGACTGCAAGGACTACGTGAGCATCCTGGTGTGCAGCGACTGGCAGCTCCTGCGGCACTTCGACACTGACACGCAGGACCTGGCCGGCTTGGAGTGGGCCCCCAACGGCTGCGTGCTGGCAGTGTGGGACACCTGCCTGGAGTACAAGATGCTGCTGTACTCCCTGGATGGCCGCCTGCTCTCGGTGTTCTGTGCCTACGAGTGGTCCCTGGGCATCAAGTCTGTGGCCTGGAGCCCCAGCAGCCAGTTCCTGGCAATCGGGAGCTATGACGGAAAGGTGCGGCTCCTGAACCACGTGACCTGGAAGATGATCACGGAGTTTGGGCATCCTGCAGCCGTCAACAACCCCAAGACAGTTGTGTACAAGGAAGCCAAGAAGAGCCCGCCGCTGGCGCTGGGCCACCTGTCCTTCCCGCCGTCCCGAGCAGGCGCCTGTCCCCTCACTGCCACCGCGGAGAGCAGATATGAGGTCGCCTCTGTGCCCGTCTCCCTGCAGACCTTGAAGCCAGCCGCTGACAGGGCCAACCCCAGGATGGGCGTAGGGATGCTGGCCTTCAGTGCTGACAGCTACTTCCTGGCGACAAGGAATGGTCAGTGCCCTGGCCGCTGGCGCTGTGCTGCTCACTCCCTGGCTCCTCCCCATCACCCCGGAGCAGCCTGTGCCCCGCCTCAGGAGCTCTGTGGGGAGCCAGCTTCTTCCCTTCCTCAGGAAGGTGCAGGGCCAGGGCAGAGCCCACCCTGGGGCCCTTTTATCTTAAAATGTGGGACAGCGCTTTACAGACATAGCAACAGAGAAAGCCCAGGTCCATACCGTGGAGGCCCAACTGCAGCTCCTTCCCGGGTTGCTCTCAAGGGCTTGGGCTGCCCAGAGCCAGTGGCGACACTGCCCTTTTTCCCTCCCAGACAACGTCCCCAACGCCATCTGGGTCTGGGACATTCAGAAGCTGAGGCTCTTTGTGGTGCTCGAGCAGCTGTCCCCGGTGCGCTCCTTCCAGTGGGACCCGCAGCAGCCACGGCTGGCCCTCTGCACGGGGGGCGGCAAGGTCTACCTGTGGTCACCGGCGGGCTGCGTGTCGGTGCAGGTGCCTGGGGAGGGTGA

XM_004863764.1 Coding sequence

Wrap73 WD repeat containing, antisense to TP73, transcript variant X2

Length: 1560 bp    Location: 6838292..6849823   Strand: +
>XM_004863764.1
ATGAACTTCTCAGAAGTGTTCAAGCTCTCCAGCCTGCTCTGCAAATTCTCCCCGGACGGCAAGTACCTGGCTTCCTGTGTCCAGTACCGGCTGGTTGTCCGGGATGCGAGCACCCTGCAGATCCTGCAGCTGTACACGTGCCTGGACCAGGTCCAGCACATGGAGTGGTCAGCAGACTCCCTCTTCATCCTGTGTGCCATGTACAAGCGGGGGCTGGTGCAGGTTTGGTCTCTGGAGCAGCCGGAGTGGCACTGCAAAATCGACGAGGGATCGGCAGGGCTGGTGGCCTCGTGCTGGAGCCCGGATGGGCGCCACATTCTGAACACAACCGAATTCCACCTGCGCATCACGGTCTGGTCCCTGTGCACCAAGTCTGTGTCCTACATCAAGTACCCCAAAGCCTGCCTGCAGGGAATAACGTTCACAAGGGATGGCCGCTACATGGCGTTGGCCGAGCGTCGGGACTGCAAGGACTACGTGAGCATCCTGGTGTGCAGCGACTGGCAGCTCCTGCGGCACTTCGACACTGACACGCAGGACCTGGCCGGCTTGGAGTGGGCCCCCAACGGCTGCGTGCTGGCAGTGTGGGACACCTGCCTGGAGTACAAGATGCTGCTGTACTCCCTGGATGGCCGCCTGCTCTCGGTGTTCTGTGCCTACGAGTGGTCCCTGGGCATCAAGTCTGTGGCCTGGAGCCCCAGCAGCCAGTTCCTGGCAATCGGGAGCTATGACGGAAAGGTGCGGCTCCTGAACCACGTGACCTGGAAGATGATCACGGAGTTTGGGCATCCTGCAGCCGTCAACAACCCCAAGACAGTTGTGTACAAGGAAGCCAAGAAGAGCCCGCCGCTGGCGCTGGGCCACCTGTCCTTCCCGCCGTCCCGAGCAGGCGCCTGTCCCCTCACTGCCACCGCGGAGAGCAGATATGAGGTCGCCTCTGTGCCCGTCTCCCTGCAGACCTTGAAGCCAGCCGCTGACAGGGCCAACCCCAGGATGGGCGTAGGGATGCTGGCCTTCAGTGCTGACAGCTACTTCCTGGCGACAAGGAATGGTCAGTGCCCTGGCCGCTGGCGCTGTGCTGCTCACTCCCTGGCTCCTCCCCATCACCCCGGAGCAGCCTGTGCCCCGCCTCAGGAGCTCTGTGGGGAGCCAGCTTCTTCCCTTCCTCAGGAAGGTGCAGGGCCAGGGCAGAGCCCACCCTGGGGCCCTTTTATCTTAAAATGTGGGACAGCGCTTTACAGACATAGCAACAGAGAAAGCCCAGGTCCATACCGTGGAGGCCCAACTGCAGCTCCTTCCCGGGTTGCTCTCAAGGGCTTGGGCTGCCCAGAGCCAGTGGCGACACTGCCCTTTTTCCCTCCCAGACAACGTCCCCAACGCCATCTGGGTCTGGGACATTCAGAAGCTGAGGCTCTTTGTGGTGCTCGAGCAGCTGTCCCCGGTGCGCTCCTTCCAGTGGGACCCGCAGCAGCCACGGCTGGCCCTCTGCACGGGGGGCGGCAAGGTCTACCTGTGGTCACCGGCGGGCTGCGTGTCGGTGCAGGTGCCTGGGGAGGGTGA

XM_004863566.1 Coding sequence

Mthfr methylenetetrahydrofolate reductase (NAD(P)H), transcript variant X3

High confidence: 4 potential gene matches
Length: 1947 bp    Location: 1184706..1202679   Strand: +
>XM_004863566.1
ATGGTGAACGAGGCTCGAGGGAGTGGCGGTAGCAGCAGTGGCAGCGAGGGCTCTAAGGACAGTTCGAGGTGTTCCACCCCTGGCCTGGACCCCGAGCGTCACGAGAGACTCCGGGAGAAGATGAGGCGGAGGATGGAATCTGGGGACAAATGGTTCTCCCTGGAATTCTTCCCTCCCCGGACTTCGGAGGGAGCCGCCAACCTCATCTCCATGTTTGACCAGATGGCAGCAGGTGGCCCCCTCTTCATAGATGTGACCTGGCACCCAGCGGGGGACCCTGGCTCGGATAAGGAAACGTCCTCCATGATGATCGCCAGCACGGCTGTGAATTACTGTGGCCTGGAAACCATGCTGCACATGACGTGCTGCCAGCAGAGCCCGGAGGCGATCACAGGCCACCTGTACAAAGCCAAGCAGCTGGGCATCAAGAGCATCTTGGCGCTGCGGGGAGACCCCATAGGTGACCAGTGGGAAGCAGAAGAAGGAGGCTTTGACCATGCCACAGACCTAGTGAAGCACATCCGAAGCGAGTTTGGTGACTACTTTGACATCTGTGTGGCAGGTTACCCCAAAGGCCACCCCGAGGCAGGGAGCTTTGAGGAGGACCTGAGGCACCTGAAGGAAAAGGTGTCTGCAGGCGCCGACTTCATCATTAGCCAGCTCTTCTTTGAGGCCAACACCTTCTTCCACTTTGTGAAGGCCTGTGATGACATCGGCATCACCTGCCCCATCCTCCCCGGGATCTTCCCTATCCAGAGCTACTCCTCCCTCCGGCAGCTTGTGAAGCTGTCCAAGCTGGAGGTACCGCAGGAGATCAAGGATGTGATCGAGCCGATCAAAGACAATGACGCTGCCATCTGCAACTATGGCATCGAGCTGGCCGTGAGCCTGAGCCGGGAGCTTCTAGTCAGCGGCTTGGTGCCAGGCCTCCACTTCTACACCCTTAACCGCAAGATGGCCACCACCAGCGTGCTGAAGCGCCTGGGCATGTGGACTGAGGACCCCAGGCGTCCCCTCCCCTGGGCCGTCAGCGCACACCCCAAGCGCCGAGAGGAAGATGTGCGCCCCATCTTCTGGGCTTCCAGACCAAAGAGCTACATCTACCGCACCCAGGACTGGAATGAGTTTCCCAACGGCCGCTGGGGCAACTCCTCCTCGCCAGCCTTTGGGGAGCTGAAGAACTACTACCTCTTCTACCTGAAAAGCAAGTCGCCCCGGCAGGAGCTGCTGAAGATGTGGGGTGAGGAGCTCAGGAGCGAGGAGAGCGTCTTCGAAGTCTTCGCGCACTACATCTCAGGGGAGCCAAACCGGCACGGGTACAAGGTGACCTGCCTGCCCTGGAACGATGAGCCCCTGGCAGCCGAGACCAGCCTGATGAAGAAGCAGCTGCTGCGCGTGAACCGGCTGGGCATCCTTACCGTCAACTCCCAGCCCAACGTCAACGGGAGACCGTCGTCCGACCCCATTGTGGGCTGGGGCCCTAGCGGGGGCTACGTCTTCCAGAAGGCCTACCTGGAGTTCTTCACCTCCCGAGAGACAGTGGAGGCACTCCTGCAGGTGATGAAGAAGTACGAGCTTCGGGTCAATTACCACATCGTGGATGTGAAGGGTGAGAACATCACCAATGCCCCCGAGCTGCAGCCCAATGCCGTCACGTGGGGCATCTTCCCGGGACGAGAGATCATCCAGCCCACGGTGGTGGATCCTGTCAGCTTCATGTTCTGGAAGGATGAGGCCTTCGCCCTGTGGATCGAGCAGTGGGGCAAGCTGTACGATGAGGAGTCCCCATCCCGCATGATCATCCAGTACATCCACGACAACTACTTCCTGGTCAACCTGGTGGACAATGAGTTCCCGCAGGACAGCTGCCTGTGGCAGGTGGTGGAGGACGCATTCGAGCTGCTCAACAGGCCTGCTGGGCTCAAGGGGGAGGCGGAGGCGCAGTGA

XM_004863773.1 Coding sequence

Arhgef16 Rho guanine nucleotide exchange factor (GEF) 16, transcript variant X3

Length: 2502 bp    Location: 6966189..6949484   Strand: -
>XM_004863773.1
ATGTCCCAGCGGCCCTCAGACAGCTCCTTGGAGGAGAGGCTGCTGGAAAACCGCTTCCACTCGGAGCTGCAGCTGGATGCCAACGGCAGTCCCTCGTCCAAGCTCCCCATCGTCCGGGGCTCCCTGCGCTCCAGGAGCCATGCCGCCTTCGAGCCGGAGGCCCTGGCGCCCCCACCGTCACCCGCAGAGGACAGGGAGCCACGGGGCATCATCCTGAGCACACAGAGCCCTGCAGCCCTCAAGATGGGCGCTCAGCAGCTCATCCCCCGGAGCCTGGCTGTGGCCAGCAAGGCCAAGACCCCCACCCGCCACCAGAGCTTCGGGGCAGCCGTGCTCAGCAGGGAGGCTGCGCGGCGGGAGCCCCAGCTCCTCTCGGCCCCCAGCTTCTCCTTGGACGACCTGGGCGTGAACGTGAGCCCTGAGGGGACCCTGAAGCGAAACCTGCGGACCCAGTCTTACCGCGCGGCCATGAAGGCGCTGGGGTCCCCGTGCAGCAAGGGGGACTCCAGCCAGCTCAGCCCCAAACTCCAGGCTCTGGCTGAGGAGCCCAGCCAGCCCCCCACCCAGTGCCCAGCCAAAAGCAAGAGGACACTGGGCCGGAAGCGTGCACACAAGGGCTCCTTCAAGGACGACCCCGGATTCTACCAGGAGATCCGGGAGCGGGGCCTGAACACCAGCCACGAGTCTGATGATGACATGCTCGACGAAGCCCCTGGCCCCGATGGGACCCAGAGGGTGGACACCTCCATCGTGGTCAAGAGCTACCGGCCCGCCCAGGTCACCTGGAGCCAGCTCCCTGAGGTGGTGGAGTCGGGCATCTTGGGGAAGCTATGCACCGAGGAACGCAAGCGGCAGGAGGCCATCTTCGAGATCCTCACGTCCGAGTTCTCCTACCTGCACAGCCTGGGCATCCTGGTGGCTGAGTTCCTGCAGTCCCCAGAGCTGCGGGCCACCATGACGCAGATGGAGCACCACCACCTCTTCTCCAACATCCAGGACGTCCTGGCTGCCAGTAAGAGGTTCTTCGAGGACCTGGAGCAGCGGCACCAGGCGCAGGTGTGCGTGGAGGACATCAGTGACATCCTGGAGGAGCACGCGGAGAGGCACTTCCACCCCTACGTGGCCTACTGCTCCAACGAGGTCTACCAGCAGCGCACACTGCAGAGGCTGACGAACAGCAATGCCGCCTTCCGCGAGGCCCTGCGGAACATCGAGAGGCGGCCGGCGTGCGGGGGGCTGCCCATGATCTCCTTCCTGATCCTGCCCATGCAGCGGGTGACCAGGCTGCCCCTCCTGACTGATACCCTCTGTCTCAAGTCCCAGGGCCACCCCGAAAGGTACAAGGCTGCCAGCCACGCCCTGAAGGCCATCAGCAAGCTGGTGAGGCAGTGTAACGAGGGGGCGCACACCATGGAGCGCACGGAGCAGATGTACATGCTGCAGACACAGCTGGACTTCAGCAAGGTCAAGTCCTTCCCGCTGATCTCCGCCTCCCGCTGGCTGCTGAAGCGTGGCGAGCTCTTCCTGGTGGAGGAAGCCGGGCTGTTTAGGAAAATTGCCAGCCGGCCCACCTGTTACCTGTTCCTGTTCAACGATGTCCTGATCATCACCAAGAAGAAGAGCGAGGACAGCTACGCGGTGCAGGACTATGGCCAGCTGGACCACGTCCAGGTCCGGAAGCTGGAGCCCTCGGAGCCGTATCTGCCAGGGGGTGGCAACCGCAGCTCCTCCGTGCCCCACCCCTTCCGGGTGACCCTGCTGCGGAACAGCGAGGGCCGCCAGGAGCAGGTCCTGCTGTCCTCAGACTCTGCGAGCGACCGAGCACGGTGGATCACAGCGCTCACCTACCAGGAGAGCCAGTGGCAGGGCCCCACCGACAAAGGCGAGCTGCCCCAGGTGGAGGTCACCAAGGCCTACCTGGCCAAGCAGGCGGACGAGATCTCGCTGCAGCAGGCTGACGTGGTGCTGGTCATGGAGGAGGAGGACGGTGAGCGCGAGGCGGGGTCGGCCCTGAGGGCCTGGGCGCTGGTGTCCCCAGGAGCAGCCCCCGGGAGCTGGGGTGCAGCCCACCTCACGGCCTGGGCCCCGCAGGGTGGCTGCACGGAGAGCGGCTCCGGGATGGCGAGGTGGGCTGGTTCCCCGAGGACGTGGCCCGCCGCATCACCAGCCCCGTGGCCGTGGAGGACAACGTGCGCCGCATGGAGCGGCTGCGGGTGGAGACCAACGTGTAGCACACGGCTGGAGAGCCAGCTGCGGGGCACAGCCTTGCGGGTCCGGAGCACGCAGTGGGGAGGAGGCGCTGCCCTCCGGGCGAGTCCTGGGCTCTGCGGTCTACAGTCTCCCCAGGCCACATCCCAGCAGGAGCCCGGCCCCGCCCAGGGGCGCCCATGGCAGCGGCTCGAGGCTGACGGGGACGAAGGACCGAGGCGGCCCTCTCCCCATAAACTTCCTGCCCCAAGGGACGAGAAGGCCCTCAAGTACCCAGTGGTGCCCACATTCTGA

XM_004863772.1 Coding sequence

Arhgef16 Rho guanine nucleotide exchange factor (GEF) 16, transcript variant X2

Length: 2619 bp    Location: 6963413..6949484   Strand: -
>XM_004863772.1
ATGAAAATGACAAGAAAATTTTGGTGGAGAGACTGGAAGATGAAGCGGAGGGACTATCCCAGAAGGACAGCAGAGGGATGGGAAAAGTGGAAGAGGAAAGGCACCTCGGCGCCCAGCATGTCCCAGCGGCCCTCAGACAGCTCCTTGGAGGAGAGGCTGCTGGAAAACCGCTTCCACTCGGAGCTGCAGCTGGATGCCAACGGCAGTCCCTCGTCCAAGCTCCCCATCGTCCGGGGCTCCCTGCGCTCCAGGAGCCATGCCGCCTTCGAGCCGGAGGCCCTGGCGCCCCCACCGTCACCCGCAGAGGACAGGGAGCCACGGGGCATCATCCTGAGCACACAGAGCCCTGCAGCCCTCAAGATGGGCGCTCAGCAGCTCATCCCCCGGAGCCTGGCTGTGGCCAGCAAGGCCAAGACCCCCACCCGCCACCAGAGCTTCGGGGCAGCCGTGCTCAGCAGGGAGGCTGCGCGGCGGGAGCCCCAGCTCCTCTCGGCCCCCAGCTTCTCCTTGGACGACCTGGGCGTGAACGTGAGCCCTGAGGGGACCCTGAAGCGAAACCTGCGGACCCAGTCTTACCGCGCGGCCATGAAGGCGCTGGGGTCCCCGTGCAGCAAGGGGGACTCCAGCCAGCTCAGCCCCAAACTCCAGGCTCTGGCTGAGGAGCCCAGCCAGCCCCCCACCCAGTGCCCAGCCAAAAGCAAGAGGACACTGGGCCGGAAGCGTGCACACAAGGGCTCCTTCAAGGACGACCCCGGATTCTACCAGGAGATCCGGGAGCGGGGCCTGAACACCAGCCACGAGTCTGATGATGACATGCTCGACGAAGCCCCTGGCCCCGATGGGACCCAGAGGGTGGACACCTCCATCGTGGTCAAGAGCTACCGGCCCGCCCAGGTCACCTGGAGCCAGCTCCCTGAGGTGGTGGAGTCGGGCATCTTGGGGAAGCTATGCACCGAGGAACGCAAGCGGCAGGAGGCCATCTTCGAGATCCTCACGTCCGAGTTCTCCTACCTGCACAGCCTGGGCATCCTGGTGGCTGAGTTCCTGCAGTCCCCAGAGCTGCGGGCCACCATGACGCAGATGGAGCACCACCACCTCTTCTCCAACATCCAGGACGTCCTGGCTGCCAGTAAGAGGTTCTTCGAGGACCTGGAGCAGCGGCACCAGGCGCAGGTGTGCGTGGAGGACATCAGTGACATCCTGGAGGAGCACGCGGAGAGGCACTTCCACCCCTACGTGGCCTACTGCTCCAACGAGGTCTACCAGCAGCGCACACTGCAGAGGCTGACGAACAGCAATGCCGCCTTCCGCGAGGCCCTGCGGAACATCGAGAGGCGGCCGGCGTGCGGGGGGCTGCCCATGATCTCCTTCCTGATCCTGCCCATGCAGCGGGTGACCAGGCTGCCCCTCCTGACTGATACCCTCTGTCTCAAGTCCCAGGGCCACCCCGAAAGGTACAAGGCTGCCAGCCACGCCCTGAAGGCCATCAGCAAGCTGGTGAGGCAGTGTAACGAGGGGGCGCACACCATGGAGCGCACGGAGCAGATGTACATGCTGCAGACACAGCTGGACTTCAGCAAGGTCAAGTCCTTCCCGCTGATCTCCGCCTCCCGCTGGCTGCTGAAGCGTGGCGAGCTCTTCCTGGTGGAGGAAGCCGGGCTGTTTAGGAAAATTGCCAGCCGGCCCACCTGTTACCTGTTCCTGTTCAACGATGTCCTGATCATCACCAAGAAGAAGAGCGAGGACAGCTACGCGGTGCAGGACTATGGCCAGCTGGACCACGTCCAGGTCCGGAAGCTGGAGCCCTCGGAGCCGTATCTGCCAGGGGGTGGCAACCGCAGCTCCTCCGTGCCCCACCCCTTCCGGGTGACCCTGCTGCGGAACAGCGAGGGCCGCCAGGAGCAGGTCCTGCTGTCCTCAGACTCTGCGAGCGACCGAGCACGGTGGATCACAGCGCTCACCTACCAGGAGAGCCAGTGGCAGGGCCCCACCGACAAAGGCGAGCTGCCCCAGGTGGAGGTCACCAAGGCCTACCTGGCCAAGCAGGCGGACGAGATCTCGCTGCAGCAGGCTGACGTGGTGCTGGTCATGGAGGAGGAGGACGGTGAGCGCGAGGCGGGGTCGGCCCTGAGGGCCTGGGCGCTGGTGTCCCCAGGAGCAGCCCCCGGGAGCTGGGGTGCAGCCCACCTCACGGCCTGGGCCCCGCAGGGTGGCTGCACGGAGAGCGGCTCCGGGATGGCGAGGTGGGCTGGTTCCCCGAGGACGTGGCCCGCCGCATCACCAGCCCCGTGGCCGTGGAGGACAACGTGCGCCGCATGGAGCGGCTGCGGGTGGAGACCAACGTGTAGCACACGGCTGGAGAGCCAGCTGCGGGGCACAGCCTTGCGGGTCCGGAGCACGCAGTGGGGAGGAGGCGCTGCCCTCCGGGCGAGTCCTGGGCTCTGCGGTCTACAGTCTCCCCAGGCCACATCCCAGCAGGAGCCCGGCCCCGCCCAGGGGCGCCCATGGCAGCGGCTCGAGGCTGACGGGGACGAAGGACCGAGGCGGCCCTCTCCCCATAAACTTCCTGCCCCAAGGGACGAGAAGGCCCTCAAGTACCCAGTGGTGCCCACATTCTGA

XM_004863774.1 Coding sequence

Arhgef16 Rho guanine nucleotide exchange factor (GEF) 16, transcript variant X4

Length: 2502 bp    Location: 6961217..6949484   Strand: -
>XM_004863774.1
ATGTCCCAGCGGCCCTCAGACAGCTCCTTGGAGGAGAGGCTGCTGGAAAACCGCTTCCACTCGGAGCTGCAGCTGGATGCCAACGGCAGTCCCTCGTCCAAGCTCCCCATCGTCCGGGGCTCCCTGCGCTCCAGGAGCCATGCCGCCTTCGAGCCGGAGGCCCTGGCGCCCCCACCGTCACCCGCAGAGGACAGGGAGCCACGGGGCATCATCCTGAGCACACAGAGCCCTGCAGCCCTCAAGATGGGCGCTCAGCAGCTCATCCCCCGGAGCCTGGCTGTGGCCAGCAAGGCCAAGACCCCCACCCGCCACCAGAGCTTCGGGGCAGCCGTGCTCAGCAGGGAGGCTGCGCGGCGGGAGCCCCAGCTCCTCTCGGCCCCCAGCTTCTCCTTGGACGACCTGGGCGTGAACGTGAGCCCTGAGGGGACCCTGAAGCGAAACCTGCGGACCCAGTCTTACCGCGCGGCCATGAAGGCGCTGGGGTCCCCGTGCAGCAAGGGGGACTCCAGCCAGCTCAGCCCCAAACTCCAGGCTCTGGCTGAGGAGCCCAGCCAGCCCCCCACCCAGTGCCCAGCCAAAAGCAAGAGGACACTGGGCCGGAAGCGTGCACACAAGGGCTCCTTCAAGGACGACCCCGGATTCTACCAGGAGATCCGGGAGCGGGGCCTGAACACCAGCCACGAGTCTGATGATGACATGCTCGACGAAGCCCCTGGCCCCGATGGGACCCAGAGGGTGGACACCTCCATCGTGGTCAAGAGCTACCGGCCCGCCCAGGTCACCTGGAGCCAGCTCCCTGAGGTGGTGGAGTCGGGCATCTTGGGGAAGCTATGCACCGAGGAACGCAAGCGGCAGGAGGCCATCTTCGAGATCCTCACGTCCGAGTTCTCCTACCTGCACAGCCTGGGCATCCTGGTGGCTGAGTTCCTGCAGTCCCCAGAGCTGCGGGCCACCATGACGCAGATGGAGCACCACCACCTCTTCTCCAACATCCAGGACGTCCTGGCTGCCAGTAAGAGGTTCTTCGAGGACCTGGAGCAGCGGCACCAGGCGCAGGTGTGCGTGGAGGACATCAGTGACATCCTGGAGGAGCACGCGGAGAGGCACTTCCACCCCTACGTGGCCTACTGCTCCAACGAGGTCTACCAGCAGCGCACACTGCAGAGGCTGACGAACAGCAATGCCGCCTTCCGCGAGGCCCTGCGGAACATCGAGAGGCGGCCGGCGTGCGGGGGGCTGCCCATGATCTCCTTCCTGATCCTGCCCATGCAGCGGGTGACCAGGCTGCCCCTCCTGACTGATACCCTCTGTCTCAAGTCCCAGGGCCACCCCGAAAGGTACAAGGCTGCCAGCCACGCCCTGAAGGCCATCAGCAAGCTGGTGAGGCAGTGTAACGAGGGGGCGCACACCATGGAGCGCACGGAGCAGATGTACATGCTGCAGACACAGCTGGACTTCAGCAAGGTCAAGTCCTTCCCGCTGATCTCCGCCTCCCGCTGGCTGCTGAAGCGTGGCGAGCTCTTCCTGGTGGAGGAAGCCGGGCTGTTTAGGAAAATTGCCAGCCGGCCCACCTGTTACCTGTTCCTGTTCAACGATGTCCTGATCATCACCAAGAAGAAGAGCGAGGACAGCTACGCGGTGCAGGACTATGGCCAGCTGGACCACGTCCAGGTCCGGAAGCTGGAGCCCTCGGAGCCGTATCTGCCAGGGGGTGGCAACCGCAGCTCCTCCGTGCCCCACCCCTTCCGGGTGACCCTGCTGCGGAACAGCGAGGGCCGCCAGGAGCAGGTCCTGCTGTCCTCAGACTCTGCGAGCGACCGAGCACGGTGGATCACAGCGCTCACCTACCAGGAGAGCCAGTGGCAGGGCCCCACCGACAAAGGCGAGCTGCCCCAGGTGGAGGTCACCAAGGCCTACCTGGCCAAGCAGGCGGACGAGATCTCGCTGCAGCAGGCTGACGTGGTGCTGGTCATGGAGGAGGAGGACGGTGAGCGCGAGGCGGGGTCGGCCCTGAGGGCCTGGGCGCTGGTGTCCCCAGGAGCAGCCCCCGGGAGCTGGGGTGCAGCCCACCTCACGGCCTGGGCCCCGCAGGGTGGCTGCACGGAGAGCGGCTCCGGGATGGCGAGGTGGGCTGGTTCCCCGAGGACGTGGCCCGCCGCATCACCAGCCCCGTGGCCGTGGAGGACAACGTGCGCCGCATGGAGCGGCTGCGGGTGGAGACCAACGTGTAGCACACGGCTGGAGAGCCAGCTGCGGGGCACAGCCTTGCGGGTCCGGAGCACGCAGTGGGGAGGAGGCGCTGCCCTCCGGGCGAGTCCTGGGCTCTGCGGTCTACAGTCTCCCCAGGCCACATCCCAGCAGGAGCCCGGCCCCGCCCAGGGGCGCCCATGGCAGCGGCTCGAGGCTGACGGGGACGAAGGACCGAGGCGGCCCTCTCCCCATAAACTTCCTGCCCCAAGGGACGAGAAGGCCCTCAAGTACCCAGTGGTGCCCACATTCTGA

XM_004863778.1 Coding sequence

Arhgef16 Rho guanine nucleotide exchange factor (GEF) 16, transcript variant X8

High confidence: 4 potential gene matches
Length: 2337 bp    Location: 6959239..6949770   Strand: -
>XM_004863778.1
ATGAGCCACGAGCAGGTGCCGGGCCGTCCCTGGGCGACTCTTGGTGACCAGGGCTGTGTGCACCACACCCTAGGACCTGTCCCGGGCCCATCTGCCCCTTGGGAGATGCTCAGGCGCAGGAGGGTGTGGGCCTGGAGGCCCCGGGAGGCGCCCCTGCTGCGCCTTCCTCACCTCTGTCCATCCTTCACCCCAGGCACCTCGGCGCCCAGCATGTCCCAGCGGCCCTCAGACAGCTCCTTGGAGGAGAGGCTGCTGGAAAACCGCTTCCACTCGGAGCTGCAGCTGGATGCCAACGGCAGTCCCTCGTCCAAGCTCCCCATCGTCCGGGGCTCCCTGCGCTCCAGGAGCCATGCCGCCTTCGAGCCGGAGGCCCTGGCGCCCCCACCGTCACCCGCAGAGGACAGGGAGCCACGGGGCATCATCCTGAGCACACAGAGCCCTGCAGCCCTCAAGATGGGCGCTCAGCAGCTCATCCCCCGGAGCCTGGCTGTGGCCAGCAAGGCCAAGACCCCCACCCGCCACCAGAGCTTCGGGGCAGCCGTGCTCAGCAGGGAGGCTGCGCGGCGGGAGCCCCAGCTCCTCTCGGCCCCCAGCTTCTCCTTGGACGACCTGGGCGTGAACGTGAGCCCTGAGGGGACCCTGAAGCGAAACCTGCGGACCCAGTCTTACCGCGCGGCCATGAAGGCGCTGGGGTCCCCGTGCAGCAAGGGGGACTCCAGCCAGCTCAGCCCCAAACTCCAGGCTCTGGCTGAGGAGCCCAGCCAGCCCCCCACCCAGTGCCCAGCCAAAAGCAAGAGGACACTGGGCCGGAAGCGTGCACACAAGGGCTCCTTCAAGGACGACCCCGGATTCTACCAGGAGATCCGGGAGCGGGGCCTGAACACCAGCCACGAGTCTGATGATGACATGCTCGACGAAGCCCCTGGCCCCGATGGGACCCAGAGGGTGGACACCTCCATCGTGGTCAAGAGCTACCGGCCCGCCCAGGTCACCTGGAGCCAGCTCCCTGAGGTGGTGGAGTCGGGCATCTTGGGGAAGCTATGCACCGAGGAACGCAAGCGGCAGGAGGCCATCTTCGAGATCCTCACGTCCGAGTTCTCCTACCTGCACAGCCTGGGCATCCTGGTGGCTGAGTTCCTGCAGTCCCCAGAGCTGCGGGCCACCATGACGCAGATGGAGCACCACCACCTCTTCTCCAACATCCAGGACGTCCTGGCTGCCAGTAAGAGGTTCTTCGAGGACCTGGAGCAGCGGCACCAGGCGCAGGTGTGCGTGGAGGACATCAGTGACATCCTGGAGGAGCACGCGGAGAGGCACTTCCACCCCTACGTGGCCTACTGCTCCAACGAGGTCTACCAGCAGCGCACACTGCAGAGGCTGACGAACAGCAATGCCGCCTTCCGCGAGGCCCTGCGGAACATCGAGAGGCGGCCGGCGTGCGGGGGGCTGCCCATGATCTCCTTCCTGATCCTGCCCATGCAGCGGGTGACCAGGCTGCCCCTCCTGACTGATACCCTCTGTCTCAAGTCCCAGGGCCACCCCGAAAGGTACAAGGCTGCCAGCCACGCCCTGAAGGCCATCAGCAAGCTGGTGAGGCAGTGTAACGAGGGGGCGCACACCATGGAGCGCACGGAGCAGATGTACATGCTGCAGACACAGCTGGACTTCAGCAAGGTCAAGTCCTTCCCGCTGATCTCCGCCTCCCGCTGGCTGCTGAAGCGTGGCGAGCTCTTCCTGGTGGAGGAAGCCGGGCTGTTTAGGAAAATTGCCAGCCGGCCCACCTGTTACCTGTTCCTGTTCAACGATGTCCTGATCATCACCAAGAAGAAGAGCGAGGACAGCTACGCGGTGCAGGACTATGGCCAGCTGGACCACGTCCAGGTCCGGAAGCTGGAGCCCTCGGAGCCGTATCTGCCAGGGGGTGGCAACCGCAGCTCCTCCGTGCCCCACCCCTTCCGGGTGACCCTGCTGCGGAACAGCGAGGGCCGCCAGGAGCAGGTCCTGCTGTCCTCAGACTCTGCGAGCGACCGAGCACGGTGGATCACAGCGCTCACCTACCAGGAGAGCCAGTGGCAGGGCCCCACCGACAAAGGCGAGCTGCCCCAGGTGGAGGTCACCAAGGCCTACCTGGCCAAGCAGGCGGACGAGATCTCGCTGCAGCAGGCTGACGTGGTGCTGGTCATGGAGGAGGAGGACGGGTGGCTGCACGGAGAGCGGCTCCGGGATGGCGAGGTGGGCTGGTTCCCCGAGGACGTGGCCCGCCGCATCACCAGCCCCGTGGCCGTGGAGGACAACGTGCGCCGCATGGAGCGGCTGCGGGTGGAGACCAACGTGTAG

XM_004863932.1 Coding sequence

LOC101711874 uncharacterized LOC101711874

Length: 1128 bp    Location: 7257819..7263713   Strand: +
>XM_004863932.1
ATGTATTCATCATCCTCATCGTCGCGCCGCCGCCGCCGCCGCCGCCGCCTCGGCGCGGGATTGGGGGGCTCTCCGCGGCCTTCCCGGTCTTCACCTCACTTCTGGCTCTCCCCCCTCCCCCCTCCCGGCGCAGCTCGGAACTGGCCCTTTAAGGGAACATTCAGTGCGCCGCACTCCCGCCCGGGGGCCCGCACCCCGGACACTTTAAAAGGACCCAGGTGGCCCAGGAGGCGAGGTGACCGTCCCCCGCCCTGCCCGCGCATCGCGTCGCGCTGCAGCTCGAGCCCCAGCCGGGCCGAAGACGGGGCGGCTGCCTCCGGGCTCCGCGACTTCCCGGGATCCGGGCGCGCGCGCCGACAGTTCTCACGCGGGTCCGGGCCCGCCGCGCGGCAGTCGCCCCACGCCGGGGTCCTGCGCAGCGGCGCAGCGAGGACGGCGCGCCCGGCTGGGAGCGGCGCGGGTCCGAGGGCGACGCCTGAGTCCGGCATCCGGGCCGCCCGCACCTCTCCGTCCGCGGAGCCCCCGAGCGCTCGGCTCAGCTGCCTGCGGCCCCAGCTTGCCGGAGTGCTTGCCGAGATTCCAGCCCCTCTGCCGTCCCCAGAGCTCCAGGGCCGGGTCTGCAGCACGCTGACTTTGGAAGCCAGGACTTGCTGCGGACTGTTGCTTCTGCTCTTTTCTGCCCTCGAGTTGGAGGCTGCAGACTGGACCCCTTTTCCTCTCCCATGGGTCCAGGCGGGACCAGCTCCCAGAGCGCGGGGAGCTCAGAGGAGGCTCCGAGCTGCCTGCCTGCGGCATCCTGCACGGAGCAGTCAACGGAATCCGTTTCCCACACTTTCCCTCTCCGTCCCAGGACTGTTAAATATTCGCCAACAAATCCTGTCGTTGCGCTGGCACTGCGTGTGCTCTCCTGCCACAGGCTCGCTCCACGCCCCACCGTGTCCAGCTGGGGAGACCCTTGCCTGGTCTCCGTCCGCCCGTGTCACTGTCACGGGGCACCGAGGAACTCCACAGGCCACAGCGCCCTGTGTGCACCTGGCTCGGAGGCCCACAGCCGCGCCACCGGATGGCTGCCCTCCTAGATGCACCCACTGCCTCCCCTTCCTGCGCCCCGCTCGGGCAAGGCCCTGA

XM_004863788.1 Coding sequence

Hes5 hairy and enhancer of split 5 (Drosophila)

High confidence: 4 potential gene matches
Length: 495 bp    Location: 7516366..7517647   Strand: +
>XM_004863788.1
ATGGCCCCCAGCACCGTGGCCGTGGAGCTGCTCAGCCCCAAGGAGAAGAACCGACTGCGCAAGCCCGTGGTGGAGAAGATGCGCCGCGACCGCATCAACAGCAGCATCGAGCAGCTGAAGCTGCTGCTGGAGCAGGAGTTCGCGCGGCACCAGCCCAACTCCAAGCTGGAGAAGGCGGACATCCTGGAGATGGCCGTGAGCTACCTGAAGCACAGCAAGGCCTTTGCCACGGCCGCCGGTCCCAAGAGCCTGCACCGAGACTACAGTGAGGGCTACTCGTGGTGCCTGCAGGAAGCTGTGCACTTCCTGACGCTGCACGCCGCCAGCGACACGCACATGAAGCTGCTCTGCCACTTCCAGCGGCCCCCCGCCGCACCCGCCGTGCCCGCCAAAGAGCCCCCCGCGGCCGGCGCTGCACCCCCGCCCCCCCGCCCCTCCTCCAAGGCCTCCCCCGCCGCTCGCCCTTCCGCCTGTGGCCTCTGGCGGCCCTGGTGA

XM_004863575.1 Coding sequence

Fbxo2 F-box protein 2, transcript variant X3

Length: 876 bp    Location: 1300187..1305209   Strand: +
>XM_004863575.1
ATGGACGGAGACGGGGACCAAGAGAGCGTGGGCCAGGCTGAGGAGGCGAGCCTGGAGGAGGCCTGCACCGAGGGGGAGCAGCCCGGCGAGGAGCAGGAGGAGCTGGAGGAGGCCGCGTACCTGGCCGAGCTGCCCGAGGCGCTGCTCCTGCGCGTGCTGGCTGAGCTGCCCGCCGCGGAACTGGTGCAGGCCTGCCGCCTGGTGTGCCTGCGCTGGAAGGGGCTGGTGGACGGCGCCCCGCTGTGGTTGCTCAAGTGCCAGCAGGAGGGGCTGGTGCCGGAGGGCAGCGGTGAAGAGGAAGAGCGCGACCACTGGCAGCAGTTCTACTTTCTGAGCAAGCGGAGGCGCAACCTGCTACGCAACCCGTGCGGGGAAGAGGACTTGGAGGGCTGGTGCGACGTGGAGCACGGTGGGGACGGCTGGAGGGTGGAGGAGCTGCCCGGGGACAGTGGGGTGGAATTCCCCCAGGATGACAGCGTCAAGAAGTACTTCGCCTCCTCTTTCGAGTGGTGTCGCAAGGCACAGGTCATTGACCTGCAGGCTGAGGGCTACTGGGAGGAGCTGCTGGACACCACCCAGCCGGCCATCGCGGTGAAGGACTGGTACTCAGGCCGCTCTGACGCCGGCTGTCTGTACGAGCTCACCGTGAAGCTGCTGTCCGAGCACGAGGATGTGCTGGCCGAGTTCAACACCGGGCAGGTGGTAGTGTCCACGGACAGTGAGGAAGGTGGCTGGACAGAGATCTCCCACACCTTCACCGACTACGGGCCAGGGGTGCGCTTCCTGCGCTTCGAGCATGGCGGGCAGGACTCCGTCTACTGGAAGGGCTGGTTCGGGGCCCGGGTGACCAATAGCGGCGTGTGGGTGGAGCCCTGA

XM_004863790.1 Coding sequence

Pank4 pantothenate kinase 4, transcript variant X2

Length: 2238 bp    Location: 7519382..7532108   Strand: +
>XM_004863790.1
ATGGCGGAGTGTGGAACGAGTGACGGCGGGAGAAGCGGAGACAGCCTGGACAAGAGCATCACGCTGCCCCCCGACGAAGTCTTCCGTAACCTGGAGAACGCCAAACGCTTCGCCATCGACATAGGTGGATCGCTAACCAAGCTGGCCTACTATTCAACAGTGCAGCACAAAGTAGCCAAAGTGAGGTCCTTTGAGCACTCTGGAAAGGACACAGAGCAGGACCATGAGCCACCGTATGAGATCTCAGTTCAGGAAGAGATCACAGCTCGTCTGCATTTCGTCAAGTTCGAGAACACCTACATTGAGGCCTGCCTGGACTTCATCAAAGATCACCTGGTCAACACAGAGACCAAGGTCATCCTGGCCACAGGGGGCGGGGCCTACAAGTTCAAGGACCTCATTGAGGAGAAGCTGCAGCTGAAAGTGCACAAGGAGGATGTGATGACCTGCTTGATAAAGGGGTGCAACTTCGTGCTGAAGAACATCCCAAATGAGGCCTTCGCCTATCAGAAAGATGCTGAGCCCGAGTTCCGCTTCCAGACACAGCACGCCAACATATTCCCGTACCTCCTGGTCAACATTGGCTCTGGGGTCTCCATCGTGAAGGTGGAGTCGGAGGACAGGTTCGAGTGGATCGGCGGCAGCTCCGTTGGCGGCGGCACCTTCTGGGGGCTTGGGGCGCTGCTCACCAAGACAAAGAAGTTCGACGAGCTGCTCCACCTGGCCTCCAAGGGCCAGCACGCCAACGTGGACATGCTGGTGCAGGACATCTATGGCGGGGCCCACCAGACGCTGGGGCTTAGCGGCAACCTCATAGCCAGCAGCTTCGGGAAGTCGGCCACGGCTGACAGAGAGTTCTCCAGAGAAGACATGGCCAAGAGCCTGCTGCATATGATCAGCAATGACATTGGGCAGCTCGCCTGTCTCTATGCAAAGCTCCATGGCCTGGACAGAGTGTACTTCGGGGGCTTCTTCATCCGGGGCCACCCTGTGACCATGCATACCATCACCTACAGCATTAACTTCTTCTCCAAGGGAGAAGTGCAGGCGCTGTTCCTGAGACACGAAGGCTACCTGGGGGCCATCGGAGCATTCCTAAAAGGAGCCGAGCAAGACAATCCTAACCAGTACAGCTGGGGCGAGAACTACGCAGGCAGCTCTGGCCTGATGAGCACGTCACCTGAGCTGTGCCCAACACAGCGGGTGCGGAGTGGCACATTTGACCTGCTGGAGATGGACCGGCTGGAGAGGCCCCTGGTCAACCTGCCCCTCCTCCTGGACCCATCCTCCTATGTGCCCGACACGGTGGACCTCACAGACGATGCCCTGGCCCGAAAGTACTGGCTCACGTGCTTCGAGGAGGCCCTGGATGGGGTGGTGAAACGCGCTGTGGCCAGCCAGCCTGAGTCAGCGGACGCGGCCGAGAGGGCCAGGAAGTTCCGGCAGAAGTACTGGAGCAAGCTGCAGACGCTGCGGCATCAGCCCTTCGCTTACGGGACTCTGACTGTGCGCAGCCTGCTGGACACGAGGGAGCACTGTTTGAACGAGTTCAGCTTCCCAGACCCGTACTCCAAGGTGAAGCAGGAGGAGAACGGCGTGGCACTCAAGTGCTTCCAGTGCGTGGTCCAAGCCCTGGACGCGCTCAGCTGGGAGGAGCGGCAGCTGGCCCTGGCCAGGGGGCTGCTGGCGGGCAACGTCTTTGACTGGGGGGCCAAGGCCGTGTCGGATGTCCTTGAATCTGACCCCCGGTTTGGGTTTGAAGAAGCGAAGAAGAAGCTACAAGATAACAGTGGAATAGACCTCATTTTGGGAGTCTTCCCCTTTGTCAGGGAGCTACTCCTTAGAGGGACGGAGGTCATTCTGGCGTGCAACTCGGGCCCCGCCCTGAACGACGTGACCTACAGCGAGTCTCTCCTCGTGGCCGAGCGCATTGCAGCCATGGACCCCATCATCCACTCTGCGCTCCAAGAAGAGAGGCTGCTGCTGGTACAGACAGGCTCCAGTTCCCCGTGCCTCGACCTCAGCCGCCTGGACAAGGGGCTGGCCGTGCTGGTGCGGGAGCGTGGCGCCGACCTGGCAGTCATCGAGGGCATGGGCCGGGCCGTGCACACCAACTACTACGCCGCGCTGCGCTGCGAGAGCCTCAAGCTGGCAGTGGTCAAGAACGCCTGGCTGGCTGAGCGGCTGGGCGGCCCGCTCTTCAGCGTCATCTTCAAGTATGAGGTTCCAGCCGAGTGA

XM_004863791.1 Coding sequence

unclassified transcription discrepancy mRNA

High confidence: 4 potential gene matches
Length: 4263 bp    Location: 7556202..7533872   Strand: -
>XM_004863791.1
ATGCCTGGCCCCCAGCCATCCACCACCAGCNTGGGCACAGGCGCGGTGGCCTGCCTGGCCGAGGCACTGCTCTGGGTTGGAGGGAGTGTGGTGGTGTCGCCATGGTGGCAGCTCGGCCCAGGAATGGAGCGGTGCATGAGTGCCATGCAGGAGGGAACGCAGATGGTGAAGCTCCGCGGCAGTTCCAAGGGCCTGGTCCGCTTCTACTACCTGGATGAGCACCGCTCCTGCCTGCGCTGGAGGCCCTCACGCAAGAATGAGAAGGCCAAGATCTCCATTGACTCCATCCAGGAGGTGAGCGAGGGGCGGCAGTCTGAGATATTCCAGCGCTACCCCGACGGCAGCTTTGACCCCAACTGCTGCTTCAGCATCTACCACGGCAGCCACCGCGAGTCGCTGGACCTGGTCTCCCCCAGTGGGGACAAGGCCCGGACCTGGGTCACGGGCCTGCGCTACCTCATGGCCGGCATCAGCGATGAGGACAGCCTGGCCCGCCGCCAGCGCACCCGGGACCAGTGGCTGAAGCAGACGTTCGACGAGGCCGACAAGAACGGGGACGGCAGCCTGAGCATTGGCGAGGTCCTGCAGCTGCTGCACAAGCTCAATGTGAACCTGCCCCGCCAGCGGGTGAAGCAGATGTTCCGGGAGGCAGACACGGATGACCGGCAGGGGACGCTGGGCTTCGAGGAGTTCTGTGCCTTCTACAAGATGATGTCCACGCGCCGGGACCTCTACCTGCTACTGCTCACCTACAGCAACCACAAGGACCACCTGGACGCAGCCGACCTGCAGCGCTTCCTGGAGGTGGAGCAGAAGGTGCAGGCTGTGACCCTCCAGAGCTGCCTCGACATCATCCAGCAGTTCGAGCCCTGCCCAGAAAACCAGAGCAAGGGTGTGCTGGGCATTGACGGCTTCACCAACTACACGCGGAGCCCTGCAGGCGACATCTTCAACCCCAAGCACCACGGCGTGCACCAGGACATGACGCGGCCACTGAGCCACTACTTCATCACCTCGTCCCACAACACCTACCTTGTGGGGGATCAGCTCATGTCTCAGTCACGGGCGGACATGTACGCCCGGGTCCTGCAGGCCGGCTGCCGCTGTGTGGAGGTGGACTGCTGGGACGGGCCCGACGGGGAGCCCATTGTGCACCACGGCTACACGCTGACCTCCAAGATCCTCTTCAGAGATGTTATCGAGACCATCAACAAATATGCCTTCCTGAAGAACGAGTACCCAGTGATCCTGTCCATCGAGAACCACTGTAGCGTCATCCAGCAGAAGAAGATGGCCCAGTACCTGACCGACATCCTTGGGGACAAGCTGGACCTGTCGGCCGTGAGCAGCGAGGACGCTACCATGCTTCCTTCTCCCCAGATGCTCAAGGGCAAGATCCTGGTGAAGGGGAAGAAGCTCCCGGCCAACATCAGCGAGGACGTGGAGGAGGGCGAGGTGTCGGATGAAGACAGTGCTGATGAGATCGATGAGGACTGCAAGCTCCTCAATGGGGACGTCTCCACCAACCGGAAGCGTGTGGAAAACATTGCCAAGAAGAAGCTGGATTCTCTAATCAAGGAGTCAAAGATTCGCGACTGTGAAGACCCCAACGACTTCACAGTGTCCACCATGTTCCCGTTGGGGAAACCTGGACCCAGAGCAGAGGCCAGAAAGGGGCAGAGCAAGGCTGAGGAGGACGTGGAGTCGAGAGCGGACACCCGGGCCAGCAGACGCGACGGCCGCCTGCTCGTGAGCAGCTTCTCCAAGCGCAAGAGAAAGGGCAGCAAGCTGAAGAAGGTGGCCAGCATGGAGGAGGGCGTCGAGGACCCAGACTCGGCAGGAAGCCACCCCCGAGGGACAGTCCGGCAGAAGAAGACCATGAAGCTGTCCCGGGCCCTCTCGGACCTGGTGAAATACACCAAGTCCGTGGGCACTCACGACGTGGACACTGAGGTGGCCTCCAGCTGGCAGGTGTCGTCCTTCAGCGAGACCAAGGCCCACCAGATCCTGCAGCAGAGGCCAGTGCGGTACCTGCACTTCAACCAGCAGCAGCTCTCACGGGTCTACCCCTCGCCCTACCGTGTGGACTCCAGCAACTACGACCCGCAGCCCTTCTGGAACGCCGGCTGCCAGATGGTCGCCCTGAACTACCAATCGGAGGGGCGGATGCTGCAGCTGAATCGGGCCAAGTTCAGTGCCAATGGCAACTGCGGCTACGTGCTCAAGCCCCCATGCATGTGCCAGGGCGTCTTCAACCCCAACTCTGAGGACCCCCTGCCCGGACAGCTCAAGAAGCAGCTGGCCTTGAGGATCATCAGCGGGCAGCAGCTCCCCAAGCCGCGGGACTCCATGCTGGGCGACCGCGGGGAGATCATTGACCCCTTCGTGGAGGTGGAGGTCATCGGGCTCCCCGTGGACTGCGGCAAGGAGCAGACCCGTGTGGTGGATGATAATGGATTCAACCCCATGTGGGAGGAGACGCTGGTGTTCACCGTGCACATGCCTGAGATTGCGCTGGTGCGCTTCCTCGTCTGGGACCACGACCCCATCGGGCGCGACTTCATCGGCCAGAGGACGCTGGCCTTCAGCAGCATGATGCCAGGCTACCGGCACGTGTACCTGGAGGGGATGGAAGAGGCCTCCATCTTCGTGCATGTGGCCATCAGCGACATCAGCGGTAAGGCCAGGCAGGCTCTGGGCCTAAAAGGCCTCTTCCTCCGCGCTGCAAAGCCAGGCTCCCTGGACAGTCATGCTGCTGGTCAGCCCCCGCCCCGGCCCTCCGTTAGCCAGCGGCTCCTGCGGCGCACGGCCAGCGCCCCGACCAAGAGCCAGAAGCCGGGCCGCAAGGGCTTCCCAGAGCTGGCGCTGGGCACACAGGACGTGGGCTCTGAGAGGGCAGCTGACGATGTGGTGTCCCCCAGCCCTGGCCCCACTCCAGAGACCCCGGCCCGTGACGCACCAGGCAGCAGCATCCCCCGAGATGCCTGCCCCCTCTCCACACAGCGGTCCGTCTCCCCCTTGTGCAGCCTGGAGCCCATCATGGAAGAGCCGGCCGTGGGCCCCGGTGCTCCCGCGCAGGCGGCCACCCCCAGCAGCCCTCCCGGGGAGCGGTCCCCGCACTTCCCAGGACCTGTGGCCAAAGCGGCCAGTCCCCCACAGACAGCTCGGGGACCCCCGGGGCCCCTCCAGCTCAGGACTGGGGGCCATGGGGATGACAAACAGGCTCCCAGGAGGCTGCTCGATGGGGGGGGGCCCACTGGGGCATGCGAGGGGGCCTCGGGCAGCCAGCAGGACAGTGGAAGCCAGCCACGAGTTCTGGGCCTTCTGCCCTCGGTCAGAAGGGCCAAGAGTGAGAGCCAAGTGTCCCTGGAGCCCCCGGGCACGTGGCGGCCACTGGCCGGCCCGACCCCCAGCCCTGCTGTCCACTCGGACGCCACAGGCAGTGACCGGATATGGCAGCGGCTGGAGCCAGGCAGCCACCGGGACAGCGTGTCCTCGTCCTCCAGCATGTCCTCCAGCGACACCGTCATTGACCTCTCCCTGACCAGCCTGGCCGGGACCCCGCTGGGCCGCCTGCCCTCGAGACCCTGCTCGGCCCCCACTGCCCACCCGGACCTGCCTCCTGTGGCTAAGAGCAAGTCGAACCCCAACCTTTGGGCAGCGGGCCAGCTGCCTCCCGCGCCCGACGCACCGCAGCCCCGGCCTCTGGCGCCACGGCTGCCCGGCCCCCGACCCCGGCCCTCCTGGGGCCGCCTCGCCCCGGGGTGCCTGCAGGACTGCCCGGTGGCTGCCAAGTCGAAGAGCCTGGGGGACCTGACAGCAGATGACTTTGCCCCCAGCTTCCAGGGCAGCTCCCGCAGCCTGGGCCAGGGTCCCGGGCCCCGGGGCTCCGCACGGCAGGACACCCTGACAGAACAGCTGCGCTGGCTCACTGGCTTCCAGCAGGCCGGGGACATCACATCACCCACCAGCTTAGGCCCGGCTGGGGACAGGGCAGAGGGGGGCCCCGGGTTCCTGCGCCGGCCCTCCTCCCGCAGCCAGAGCCGAGTGCGCGCCATTGCCAGCCGGGCCCGCCAGGCTCAGGAGCGGCAGCAGCGGCTTCGGGGACTGGACCCACAGGACCCCCCAGAGGAGGAGCGGGGCACCCCTGAGGGCGCCTGCTCCGTGGGCCTCGAGGGCTGCGTGGACGCCACAGGCCTCCCTAAGGGCGCCCCGGAGCAGGTGCCTCATGCTGCTGACAGCCTGCTCCTGCTGAGGCTCTGA

XM_004863796.1 Coding sequence

Pex10 peroxisomal biogenesis factor 10, transcript variant X2

Length: 978 bp    Location: 7598470..7603623   Strand: +
>XM_004863796.1
ATGGCTTGGTCCGCCGGCCCTCCGGAGGTGATCCGCGCGGCGCAGAAGGACGAGTACTACCGCGGCGGGCTGCGGAGCGCGGCGGGCGGTGCCCTGCACAGCCTGGCAGGTGCCAAGAAATGGCTGGAGTGGAGGAAAGAGATTGAATTGCTCTCAGACGTAGCCTACTTTGGCCTCACCACGCTGGCAGGCTACCAGACACTCGGGGAGGAGTACGTGGGCATCGTCCAGGTAGACCCTTCCCAGCAGCGCGTGCCCTCCAGGCTCCGCCGCAGCGTGCTGGTCACACTCCATGCAGTCCTGCCCTACCTGCTGGACAAGGCCCTGCTGCCACTGGAGCAAGAGCTGCAGGCCGACAGCGATGGAGCCCGGGCCTTGCAGAGCAGCCTGGTGCCCAGCAGACGGGGCTGGTCGGGGACACGGCGCTGGGTGCGTCGCCACACGGCCTCCCTGACCGAGCAGCAGAGGAAGACACTGCAGCGGGCGACCTTCGTCCTCAGGCAGGGCCTTGCCTGCCTCCATCGGCTCCACGTTGCCTGGTTTTACATCCATGGTGTTTTCTATCACCTGGCTAAGAGGCTTTCGGGGGTCACTTACCTCCGCATCTGCCATCTGCCCAGAGAGGACCTGAAGGCGCGTGCTGGCTACCGGCTGCTCGGGCTGCTCTCCCTGCTGCACCTGGCGCTCTCTGTGGCACTGCAGCTGTACACCTTCCAGCAGAGGCAGCGAGCCCGCAAGGAGTGGCGGCTGCACCGCATCCTGTCTCACCACAGGACCTCCCTGGAAGACCGAGCTGCGCCCAGAGCCCCACTCTGCACCCTGTGCCTGGAGGACCGCAGGCACTCGACGGCCACGCCCTGCGGCCACCTCTTCTGCTGGGAGTGCATCACCGAGTGGTGCAACACCAAGACGGAGTGCCCCCTGTGCAGGGAGAAGTTCCCTCCCCAGAAGCTGGTCTACCTGCGGCACTACCGCTGA

XM_004863795.1 Coding sequence

Pex10 peroxisomal biogenesis factor 10, transcript variant X1

High confidence: 4 potential gene matches
Length: 1071 bp    Location: 7598474..7603623   Strand: +
>XM_004863795.1
ATGGCTTGGTCCGCCGGCCCTCCGGAGGTGATCCGCGCGGCGCAGAAGGACGAGTACTACCGCGGCGGGCTGCGGAGCGCGGCGGGCGGTGCCCTGCACAGCCTGGCAGGTGCCAAGAAATGGCTGGAGTGGAGGAAAGAGATTGAATTGCTCTCAGACGTAGCCTACTTTGGCCTCACCACGCTGGCAGGCTACCAGACACTCGGGGAGGAGTACGTGGGCATCGTCCAGGTAGACCCTTCCCAGCAGCGCGTGCCCTCCAGGCTCCGCCGCAGCGTGCTGGTCACACTCCATGCAGTCCTGCCCTACCTGCTGGACAAGGCCCTGCTGCCACTGGAGCAAGAGCTGCAGGCCGACAGCGATGGAGCCCGGGCCTTGCAGAGCAGCCTGGTGCCCAGCAGACGGGGCTGGTCGGGGACACGGCGCTGGGTGCGTCGCCACACGGCCTCCCTGACCGAGCAGCAGAGGAAGACACTGCAGCGGGCGACCTTCGTCCTCAGGCAGGGCCTTGCCTGCCTCCATCGGCTCCACGTTGCCTGGTTTTACATCCATGGTGTTTTCTATCACCTGGCTAAGAGGCTTTCGGGGGTCACTTACCTCCGCATCTGCCATCTGCCCAGAGAGGACCTGAAGGCGCGTGCTGGCTACCGGCTGCTCGGGCTGCTCTCCCTGCTGCACCTGGCGCTCTCTGTGGCACTGCAGCTGTACACCTTCCAGCAGAGGCAGCGAGCCCGCAAGGAGTGGCGGCTGCACCGCATCCTGTCTCACCACAGGTGCACAGGGTCTGGGGCACCCTCCACACTGGTCAGCATGGTGGGCGGTGCCCTCACCTGTGTCCCCACCCTCCCTTCCGCAGGACCTCCCTGGAAGACCGAGCTGCGCCCAGAGCCCCACTCTGCACCCTGTGCCTGGAGGACCGCAGGCACTCGACGGCCACGCCCTGCGGCCACCTCTTCTGCTGGGAGTGCATCACCGAGTGGTGCAACACCAAGACGGAGTGCCCCCTGTGCAGGGAGAAGTTCCCTCCCCAGAAGCTGGTCTACCTGCGGCACTACCGCTGAGCCACGCTAG

XM_004863797.1 Coding sequence

Pex10 peroxisomal biogenesis factor 10, transcript variant X3

Length: 972 bp    Location: 7598475..7604893   Strand: +
>XM_004863797.1
ATGGCTTGGTCCGCCGGCCCTCCGGAGGTGATCCGCGCGGCGCAGAAGGACGAGTACTACCGCGGCGGGCTGCGGAGCGCGGCGGGCGGTGCCCTGCACAGCCTGGCAGGTGCCAAGAAATGGCTGGAGTGGAGGAAAGAGATTGAATTGCTCTCAGACGTAGCCTACTTTGGCCTCACCACGCTGGCAGGCTACCAGACACTCGGGGAGGAGTACGTGGGCATCGTCCAGGTAGACCCTTCCCAGCAGCGCGTGCCCTCCAGGCTCCGCCGCAGCGTGCTGGTCACACTCCATGCAGTCCTGCCCTACCTGCTGGACAAGGCCCTGCTGCCACTGGAGCAAGAGCTGCAGGCCGACAGCGATGGAGCCCGGGCCTTGCAGAGCAGCCTGGTGCCCAGCAGACGGGGCTGGTCGGGGACACGGCGCTGGGTGCGTCGCCACACGGCCTCCCTGACCGAGCAGCAGAGGAAGACACTGCAGCGGGCGACCTTCGTCCTCAGGCAGGGCCTTGCCTGCCTCCATCGGCTCCACGTTGCCTGGTTTTACATCCATGGTGTTTTCTATCACCTGGCTAAGAGGCTTTCGGGGGTCACTTACGACCTCCCTGGAAGACCGAGCTGCGCCCAGAGCCCCACTCTGCACCCTGTGCCTGGAGGACCGCAGGCACTCGACGGCCACGCCCTGCGGCCACCTCTTCTGCTGGGAGTGCATCACCGAGTGGTGCAACACCAAGACGGAGTGCCCCCTGTGCAGGGAGAAGTTCCCTCCCCAGAAGCTGGTCTACCTGCGGCACTACCGCTGAGCCACGCTAGGTGGGCTTCAGGGAGTACATGGAGAAAGCAGTTTGTCCTCAGGATTAGCCAGTTGCACAGAAATTGTAATACCCTCACCCAGGCTGCTGGGCCAGATTCCTGGGCAGAGGACAGAAAGATGAAGCTAGCAGGGCCCTGTCCCATAGCCTTCAGAACCTAG

XM_004863793.1 Coding sequence

Rer1 RER1 retention in endoplasmic reticulum 1 homolog (S. cerevisiae), transcript variant X2

Length: 591 bp    Location: 7616395..7604853   Strand: -
>XM_004863793.1
ATGTCTGAAGGGGACAGCGTTGGAGATTCTGTCCATGGGAAGCCATCAGTGGTGTACAGATTTTTCACACGCCTGGGACAGATTTATCAGTCCTGGCTGGACAAGTCCACACCTTACACAGCTGTGCGGTGGGTCGTGACACTGGGCCTGAGCTTCATCTACATGATTAGAGTTTACCTGTTGCAGGGCTGGTACATCGTGACCTACGCCCTGGGGATCTACCACCTCAACCTCTTCATAGCGTTCCTCTCTCCCAAAGTGGACCCCTCCCTGATGGAAGACTCAGACGACGGCCCTTCGTTACCAACCAAACAGAACGAGGAGTTTCGCCCTTTCATTCGAAGGCTTCCAGAGTTTAAATTTTGGCATGCAGCTACAAAGGGCATCCTCGTGGCTATGGTCTGCACCTTCTTTGAGGCTTTCAACGTCCCGGTGTTCTGGCCGATCCTGGTGATGTACTTCATCATGCTTTTCTGTATCACAATGAAGAGGCAAATAAAGCACATGATTAAATACCGGTACATACCATTCACACACGGGAAGAGGAGATACAAAGGGAAGGAGGACGTGGGCAAGACGTTTGCTAGTTAG

XM_004863794.1 Coding sequence

Rer1 RER1 retention in endoplasmic reticulum 1 homolog (S. cerevisiae), transcript variant X3

High confidence: 4 potential gene matches
Length: 591 bp    Location: 7616391..7604853   Strand: -
>XM_004863794.1
ATGTCTGAAGGGGACAGCGTTGGAGATTCTGTCCATGGGAAGCCATCAGTGGTGTACAGATTTTTCACACGCCTGGGACAGATTTATCAGTCCTGGCTGGACAAGTCCACACCTTACACAGCTGTGCGGTGGGTCGTGACACTGGGCCTGAGCTTCATCTACATGATTAGAGTTTACCTGTTGCAGGGCTGGTACATCGTGACCTACGCCCTGGGGATCTACCACCTCAACCTCTTCATAGCGTTCCTCTCTCCCAAAGTGGACCCCTCCCTGATGGAAGACTCAGACGACGGCCCTTCGTTACCAACCAAACAGAACGAGGAGTTTCGCCCTTTCATTCGAAGGCTTCCAGAGTTTAAATTTTGGCATGCAGCTACAAAGGGCATCCTCGTGGCTATGGTCTGCACCTTCTTTGAGGCTTTCAACGTCCCGGTGTTCTGGCCGATCCTGGTGATGTACTTCATCATGCTTTTCTGTATCACAATGAAGAGGCAAATAAAGCACATGATTAAATACCGGTACATACCATTCACACACGGGAAGAGGAGATACAAAGGGAAGGAGGACGTGGGCAAGACGTTTGCTAGTTAG

XM_004863792.1 Coding sequence

Rer1 RER1 retention in endoplasmic reticulum 1 homolog (S. cerevisiae), transcript variant X1

Length: 591 bp    Location: 7612999..7604853   Strand: -
>XM_004863792.1
ATGTCTGAAGGGGACAGCGTTGGAGATTCTGTCCATGGGAAGCCATCAGTGGTGTACAGATTTTTCACACGCCTGGGACAGATTTATCAGTCCTGGCTGGACAAGTCCACACCTTACACAGCTGTGCGGTGGGTCGTGACACTGGGCCTGAGCTTCATCTACATGATTAGAGTTTACCTGTTGCAGGGCTGGTACATCGTGACCTACGCCCTGGGGATCTACCACCTCAACCTCTTCATAGCGTTCCTCTCTCCCAAAGTGGACCCCTCCCTGATGGAAGACTCAGACGACGGCCCTTCGTTACCAACCAAACAGAACGAGGAGTTTCGCCCTTTCATTCGAAGGCTTCCAGAGTTTAAATTTTGGCATGCAGCTACAAAGGGCATCCTCGTGGCTATGGTCTGCACCTTCTTTGAGGCTTTCAACGTCCCGGTGTTCTGGCCGATCCTGGTGATGTACTTCATCATGCTTTTCTGTATCACAATGAAGAGGCAAATAAAGCACATGATTAAATACCGGTACATACCATTCACACACGGGAAGAGGAGATACAAAGGGAAGGAGGACGTGGGCAAGACGTTTGCTAGTTAG

XM_004863799.1 Coding sequence

Ski v-ski sarcoma viral oncogene homolog (avian)

High confidence: 4 potential gene matches
Length: 2187 bp    Location: 7736230..7674184   Strand: -
>XM_004863799.1
ATGGAGGCGGCGGGCGGCCGCGGCGGCTTTCAGCCTCACCCGGGGCTGCAGAAGACGCTGGAGCAGTTCCACCTGAGCTCCATGAGCTCCCTGGGCGGCCCGGCCGCCTTCTCTGCGCGCTGGGCGCAAGAGGCCTACAAGAAGGAGAGCGCTAAAGATGCGGGCGCCGCTTCAGTGCCGGCCCCGTTGCCCGCGGCCACGGAGCCGCCGCCCGTGCTGCACCTGCCCGCCATCCAGCCGCCACCGCCGGTGCTGCCCGGGCCCTTCTTCATGCCGTCCGACCGCTCCACCGAGCGCTGCGAGACCGTGCTGGAGGGCGAGACCATCTCCTGCTTCGTGGTGGGCGGTGAGAAGCGCCTGTGCCTGCCACAGATCCTCAACTCCGTGCTGCGCGACTTCTCGCTGCAGCAGATCAACTCGGTGTGCGACGAGCTGCACATCTACTGTTCGCGCTGCACGGCTGACCAGCTGGAGATCCTCAAAGTCATGGGCATCCTGCCCTTCTCTGCGCCCTCGTGCGGGCTGATCACCAAGACGGACGCCGAGCGCCTGTGCAACGCGCTGCTCTACGGAGGCGCCTACCCGCCGCCTTGCAAGAAGGAGCTGGCCGCCAGCCTGGCGCTCGGCCTGGAGCTCAGCGAGCGCAGTGTCCGCGTGTACCACGAGTGCTTTGGCAAGTGCAAGGGGCTGCTGGTGCCCGAGCTGTACAGCAGCCCCAGCGCAGCCTGTATCCAGTGCCTCGATTGCCGCCTCATGTACCCGCCGCACAAGTTCGTAGTGCACTCTCACAAGGCCTTGGAGAACCGGACCTGCCACTGGGGCTTTGACTCGGCCAACTGGCGAGCCTACATCCTGCTGAGCCAGGACTACACGGGCAAGGAGGAGCAGGCCCGCCTCGGCCGCTGCCTTGACGACGTGAAAGAGAAGTTTGATTACGGCAACAAGTACAAGCGGCGGGTGCCCCGGGTCTCCTCTGAACCCCCGGCCTCCTTAAGACCCAAAACAGACGATGCCTCCTCCCAGTCCCCCGCGTCTTCTGAGAAGGACAAGCAGTCCAGCTGGCTGCGGACCTTGGCCAGCTCCTCCAACAAGAGCCTGGGCTGCATTCACCCTCGCCAGCGCCTCTCTGCTTTCCGACCCTGGTCCCCTGCAGTGTCATCCAGCGAGAAAGAGATCTCCCCACACCTCCCAGCCCTGATCCGAGACAGCTTCTACTCCTACAAGAGCTTCGAGACGGCAGGGGCCCCCAACGTGGCCCTTGCCCCGCCAGCCCAGCAGAAGGCCACGAGCAGCCCGCCATGCACCACCATGGTCCCCCGGGGCCCCGAGCCTCTGCCCACTTGTATCCAGCCCCGGAAGCGGAAGCTGATTGCAGACACCCCTGGAGCCCTGGAGACGCTGCTGCCGGTTACTGCCGTGGAGGAGGACAAGGACTCGGAGGCTGAGGTCGAAGTGGAGAGCAGAGAGGAACTCGCTTCCTCCTTGTCCTCGCTGTCCTCGCCGTCCTTCACCTCGTCCAGCTCCGCCAAGGATCTCAGCTCCCCAGGTGTGCATGCCCCTCCCGTGGCTGCCCCGGATGCTGCAGCCCACACTGACGCCCCCAGTGGGCTGGAGGCAGAGCTGGAGCACCTGCGGCAGGCCCTGGAGGGCGGGCTGGACACCAAGGAAGCCAAAGAGAAGTTCCTGCACGAAGTGGTCAAGATGCGTGTGAAGCAGGAGGAGAAGCTGAACGCCGCGCTGCAGGCCAAACGCAGCCTCCACCAGGAGCTGGAGTTTCTGCGTGTGGCCAAGAAGGAGAAGCTGCGGGAGGCCACGGAGGCCAAGCGCAGCCTGCGGAAGGAGATCGAGCGCCTCCGTGCCGAAAACGAGAAGAAGATGAAGGAGGCCAACGAGTCTCGGGCGCGCCTGAAGCGGGAGCTGGAGCAGGCGCGGCAGGTCCGGGTGTGCGACAAAGGCTGCGAGGCCGGCCGGCTGCGCGCCAAGTACTCGGCCCAGATCGAGGACCTGCAGGTGAAGCTGCAGCACGCGGAGGCCGACCGTGAGCAGCTGCGGGCTGACCTGCTGCGGGAACGCGAGGCACGCGAGCACCTGGAGAAGGTGGTGAAGGAGCTGCAGGAGCAGCTGTGGCCGCGGCCGCGCCCTGAGAGCGGAGGGAGCGGGGAGGGCGCCCCGGAGTTGGAGCCCTAG

XM_004863802.1 Coding sequence

LOC101697702 chromosome unknown open reading frame, human C1orf86, transcript variant X3

Length: 627 bp    Location: 7747664..7756824   Strand: +
>XM_004863802.1
ATGGAGGCCTGCCCCAGGCCTCCCGCTGCAGAAGGGCCCAGTGACCCTCTCGTGTCGCCCATGGTCCCCAGCGGCAGCCCCCAGTGTCCCCCCAGCAGTGGCGAGAGCAAGCTGTGGGCTGCACTGCTGCGTGCTGTGCTCTCAGATCCAGTCCTGGACGGCCTGCCGCTGTCCCCGCTGCCCACCTTTCCCAGCCAGGAAGCAGGGCCGGAGAACCTCGAATCCCCTGAGGTCTTCACCGTGGGGACCAAGGCCTTTACCTGGACACCTTTTCCGCCAGCCCATGGGGGCCAAGGCCATGCTGAGAGGCCAGTGAGAGGTCCTGCGGGTCCCCTGGGGTCCCCCACCCCATCCCTGGAAGGACAGCATGTACCTGATCCCTGTGGGACCCCCAGGCCCCAGGAGCAGCTGACCAAGGAGGGGGCCTTGGCCCTGCAGAGCTGCCCCATGTGCCAGAAGGAGTTCACGGCTGACCTCCCTGAGTGCTGGGATCACATAGGTGTGTGTGCATCACTACGCCTGGCTTTGGCCTTCTTGAAGAAGTCAACCAGTCCACGTGGTCACACCGATGGGCCAGTGCCCGCCCCACCGAGCAGGCCTCCATCGCAGCCAGCAGTCTCAGCCTGA

XM_004863804.1 Coding sequence

LOC101697702 chromosome unknown open reading frame, human C1orf86, transcript variant X5

Length: 567 bp    Location: 7751348..7756823   Strand: +
>XM_004863804.1
ATGGTCCCCAGCGGCAGCCCCCAGTGTCCCCCCAGCAGTGGCGAGAGCAAGCTGTGGGCTGCACTGCTGCGTGCTGTGCTCTCAGATCCAGTCCTGGACGGCCTGCCGCTGTCCCCGCTGCCCACCTTTCCCAGCCAGGAAGCAGGGCCGGAGAACCTCGAATCCCCTGAGGTCTTCACCGTGGGGACCAAGGCCTTTACCTGGACACCTTTTCCGCCAGCCCATGGGGGCCAAGGCCATGCTGAGAGGCCAGTGAGAGGTCCTGCGGGTCCCCTGGGGTCCCCCACCCCATCCCTGGAAGGACAGCATGTACCTGATCCCTGTGGGACCCCCAGGCCCCAGGAGCAGCTGACCAAGGAGGGGGCCTTGGCCCTGCAGAGCTGCCCCATGTGCCAGAAGGAGTTCACGGCTGACCTCCCTGAGTGCTGGGATCACATAGGTGTGTGTGCATCACTACGCCTGGCTTTGGCCTTCTTGAAGAAGTCAACCAGTCCACGTGGTCACACCGATGGGCCAGTGCCCGCCCCACCGAGCAGGCCTCCATCGCAGCCAGCAGTCTCAGCCTGA

XM_004863800.1 Coding sequence

LOC101697702 chromosome unknown open reading frame, human C1orf86, transcript variant X1

Length: 777 bp    Location: 7751460..7756825   Strand: +
>XM_004863800.1
ATGGGGTCGTCCCGGCCCTGGCGCGGGGGCGGGGCCCGGTTCTGGGGTGGGGTCAGGTTTGGGGCCGGGCCTGCGTCGCACTTCCGCCTGCACCGGATGGAGGAGGCGGCTTGGAGGCCGCGCGGGAAGCTGAGCCGCCGGAGGGCGCCCTCCGGGGGCGGCCCCAGGCCTCCCGCTGCAGAAGGGCCCAGTGACCCTCTCGTGTCGCCCATGGTCCCCAGCGGCAGCCCCCAGTGTCCCCCCAGCAGTGGCGAGAGCAAGCTGTGGGCTGCACTGCTGCGTGCTGTGCTCTCAGATCCAGTCCTGGACGGCCTGCCGCTGTCCCCGCTGCCCACCTTTCCCAGCCAGGAAGCAGGGCCGGAGAACCTCGAATCCCCTGAGGTCTTCACCGTGGGGACCAAGGCCTTTACCTGGACACCTTTTCCGCCAGCCCATGGGGGCCAAGGCCATGCTGAGAGGCCAGTGAGAGGTCCTGCGGGTCCCCTGGGGTCCCCCACCCCATCCCTGGAAGGACAGCATGTACCTGATCCCTGTGGGACCCCCAGGCCCCAGGAGCAGCTGACCAAGGAGGGGGCCTTGGCCCTGCAGAGCTGCCCCATGTGCCAGAAGGAGTTCACGGCTGACCTCCCTGAGTGCTGGGATCACATAGGTGTGTGTGCATCACTACGCCTGGCTTTGGCCTTCTTGAAGAAGTCAACCAGTCCACGTGGTCACACCGATGGGCCAGTGCCCGCCCCACCGAGCAGGCCTCCATCGCAGCCAGCAGTCTCAGCCTGA

XM_004863801.1 Coding sequence

LOC101697702 chromosome unknown open reading frame, human C1orf86, transcript variant X2

Length: 696 bp    Location: 7751462..7756968   Strand: +
>XM_004863801.1
ATGGGGTCGTCCCGGCCCTGGCGCGGGGGCGGGGCCCGGTTCTGGGGTGGGGTCAGGTTTGGGGCCGGGCCTGCGTCGCACTTCCGCCTGCACCGGATGGAGGAGGCGGCTTGGAGGCCGCGCGGGAAGCTGAGCCGCCGGAGGGCGCCCTCCGGGGGCGGCCCCAGGCCTCCCGCTGCAGAAGGGCCCAGTGACCCTCTCGTGTCGCCCATGGTCCCCAGCGGCAGCCCCCAGTGTCCCCCCAGCAGTGGCGAGAGCAAGCTGTGGGCTGCACTGCTGCGTGCTGTGCTCTCAGATCCAGTCCTGGACGGCCTGCCGCTGTCCCCGCTGCCCACCTTTCCCAGCCAGGAAGCAGGGCCGGAGAACCTCGAATCCCCTGAGGTCTTCACCGTGGGGACCAAGGCCTTTACCTGGACACCTTTTCCGCCAGCCCATGGGGGCCAAGGCCATGCTGAGAGGCCAGTGAGAGGTCCTGCGGGTCCCCTGGGGTCCCCCACCCCATCCCTGGAAGGACAGCATGTACCTGATCCCTGTGGGACCCCCAGGCCCCAGGAGCAGCTGACCAAGGAGGGGGCCTTGGCCCTGCAGAGCTGCCCCATGTGCCAGAAGGAGTTCACGGCTGAGCTGACACAGCTGGACGTGGACGGCCACCTTGCACAGTGCCTGGCTGAGAGCACGGAAGATGTGGAGTGGTAG

XM_004863803.1 Coding sequence

LOC101697702 chromosome unknown open reading frame, human C1orf86, transcript variant X4

Length: 567 bp    Location: 7751462..7756823   Strand: +
>XM_004863803.1
ATGGTCCCCAGCGGCAGCCCCCAGTGTCCCCCCAGCAGTGGCGAGAGCAAGCTGTGGGCTGCACTGCTGCGTGCTGTGCTCTCAGATCCAGTCCTGGACGGCCTGCCGCTGTCCCCGCTGCCCACCTTTCCCAGCCAGGAAGCAGGGCCGGAGAACCTCGAATCCCCTGAGGTCTTCACCGTGGGGACCAAGGCCTTTACCTGGACACCTTTTCCGCCAGCCCATGGGGGCCAAGGCCATGCTGAGAGGCCAGTGAGAGGTCCTGCGGGTCCCCTGGGGTCCCCCACCCCATCCCTGGAAGGACAGCATGTACCTGATCCCTGTGGGACCCCCAGGCCCCAGGAGCAGCTGACCAAGGAGGGGGCCTTGGCCCTGCAGAGCTGCCCCATGTGCCAGAAGGAGTTCACGGCTGACCTCCCTGAGTGCTGGGATCACATAGGTGTGTGTGCATCACTACGCCTGGCTTTGGCCTTCTTGAAGAAGTCAACCAGTCCACGTGGTCACACCGATGGGCCAGTGCCCGCCCCACCGAGCAGGCCTCCATCGCAGCCAGCAGTCTCAGCCTGA

XM_004863808.1 Coding sequence

Prkcz protein kinase C, zeta, transcript variant X3

Length: 1458 bp    Location: 7822054..7759514   Strand: -
>XM_004863808.1
ATGCACGCGGACGAATCCATCTACCGCCGTGGAGCCAGAAGATGGAGGAAGCTCTACCGTGCCAACGGCCATCTCTTCCAAGCCAAGCGCTTTAACAGGCGGGCGTACTGCGGCCAGTGCAGCGAAAGGATATGGGGCCTCTCACGGCAAGGCTACAGATGCATCAACTGCAAGCTGCTGGTCCATAAACGCTGCCACGTGCTCGTCCCGCTGACCTGCAGAAGGCATATGGATTCTGTCATGCCTTCCCAAGAGCCTCCCGCAGACGAGAAGAGTGACGGCGTGGACCTGCCCTCCGAGGACACCGATGGAATTGCTTATATCTCTTCAACCCGCAAGCACGACAACATTAAAGATGATTCTGAGGACCTTAAGCCAGTTATCGACGGGGTCGACGGGATCAAAATCTCTCAGGGGCTCGGGCTGCAGGACTTCGACCTCATCAGAGTCATCGGGCGTGGGAGCTACGCCAAGGTCCTGCTGGTGCGGCTGAAGAAGAACGACCAGATCTACGCCATGAAGGTGGTGAAGAAGGAGCTGGTGCATGATGATGAGGACATCGACTGGGTGCAGACAGAGAAGCACGTGTTCGAGCAGGCGTCCAGCAACCCCTTCCTGGTCGGCTTGCATTCCTGCTTCCAGACGACGAGCCGGCTGTTCCTGGTCATCGAGTACGTCAACGGCGGGGACCTCATGTTCCACATGCAGAGGCAGAGGAAACTTCCAGAGGAGCATGCCAGGTTCTACGCTGCTGAGATCTGCATTGCCCTCAACTTCCTGCATGAGAGAGGCATCATCTACCGGGACCTGAAGCTGGACAATGTGCTGCTGGACGCCGATGGGCACATCAAGCTGACGGACTACGGCATGTGCAAGGAGGGCCTGGGCCCTGGCGACACGACGAGCACTTTCTGTGGAACTCCGAATTACATCGCCCCGGAAATCCTGCGGGGAGAGGAGTACGGGTTCAGCGTGGACTGGTGGGCATTGGGCGTCCTCATGTTCGAGATGATGGCTGGGCGCTCCCCCTTCGACATCATCACCGACAACCCTGACATGAACACGGAGGACTACTTGTTCCAAGTGATCCTGGAGAAGCCCATCCGCATCCCCCGCTTCCTGTCCGTCAAAGCCTCCCACGTCTTGAAAGGATTTCTGAACAAGGACCCCAAAGAGAGGCTCGGCTGCCGGCCCCAGACTGGATTTTCCGACATCAAGTCCCACGCCTTCTTCCGCAGCATAGACTGGGACCTGCTGGAGAAGAAGCAAGCCCTGCCGCCCTTCCAGCCGCAGATCTCCGACGACTACGGCCTGGAGAACTTCGACACGCAGTTCACCAGCGAGCCCGTGCAGCTGACCCCGGATGACGAGGACGTCATAAAGAGGATCGACCAGTCAGAGTTTGAAGGCTTCGAGTACATCAACCCACTTTTGCTGTCCACTGAGGAGTCCGTGTGA

XM_004863809.1 Coding sequence

Gabrd gamma-aminobutyric acid (GABA) A receptor, delta, transcript variant X1

Length: 2085 bp    Location: 7864984..7856797   Strand: -
>XM_004863809.1
ATGAGAGGTCAGAGGGTTGGGGTCGCCCGCGTGCTCTGGGCAGGGCACGGAGGGCTGGGGCGGGGCTTGCGGGCAGGGCCGGGCCTGGGCGGGCTCGAGGGAGTGGCTTCGACATGGGCGGGGCCGCGGCAGGACCGCCCCGTGCGCCCCCTTTCTGCCGCTTCGCTCCCTCGAGTTCGTCCGGGAGCCGCTTGGCCGCGGGCGAAGCAACTTTGCTGCGCGAGGCGGCGGCAACCTGGTCCCGGCCGGTCCGATCCAGCACGGAGCCACGAGGCCATGGGCGCGCTGGCCGGGCTGCTGGCCCCGCTGCTGCTGCTGTGCGCGCGGCTGCCCCGCGGCGCCAGAGCAATGAATGATATTGGGGACTATGTGGGCTCCAACCTGGAGATATCCTGGCTGCCCAACCTGGACGGCCTGGTGGAGGGCTACGCCCGCAACTTCCGGCCCGGCATCGGAGGGCCCCCCGTGAACGTGGCACTCGCCCTGGAGGTGGCCAGCATCGACCACATCTCAGAGGCGAACATGGTGGGTGCCGCCAGCTCTGTGCCTGCGCCTGTGCCTGTGCCCCCTGGCAGGAGGCGTGCTGACGGGTGCCCTCCACAGGAGTACACCATGACCGTGTTCCTGCACCAGAGCTGGAGGGACAGCAGGCTCTCCTACAACCACACCAATGAGACCCTGGGCCTGGACAGCCGCTTCGTGGACAAGCTCTGGCTCCCGGACACTTTCATCGTGAATGCCAAGTCCGCCTGGTTCCACGACGTGACGGTGGAGAACAAGCTGATTCGGCTGCAGCCCGACGGCGTCATCCTGTACAGCATCCGAATCACTTCCACAGTGGCCTGTGACATGGATCTGGCCAAGTACCCCATGGATGAGCAGGAGTGCATGCTGGACCTGGAGAGCTATGGCTACTCCTCCGAGGACATCGTCTACTACTGGTCCGAGAACCAGGAGCAGATCCACGGGCTGGACAGGCTGCAGCTGGCACAGTTCACCATCACCAGCTACCGCTTCACCACGGAGCTGATGAACTTCAAGTCAGCGGGCCAGTTCCCCAGGCTCAGCCTCCACTTCCACCTGCGGAGGAACCGGGGCGTCTACATCATCCAGTCCTACATGCCCTCTGTCCTCCTGGTCGCCATGTCCTGGGTCTCCTTCTGGATTAGTCAGGCAGCAGTGCCCGCCAGGGTGTCTCTAGGTATGGCTGGGGTCACTTCTCCCCCAGGGGCTGCTGGGAGGCCACACAGCAGGACCCTCCAGCCAGTTCTGGGCCTGGGCCTGGGCCATCTGTCCCCGGCAGTGACATGGGGCAGGGGGTGGGGCTGTTCCAGGACCCAGGCCCTGCTGAGCGGGGTGCAGAGAGGAGACAGTGGGGCTCCAACAAGGGCCCACCGGCACCCCCTGTCCCCAGGCATCACCACCGTGCTGACGATGACCACGCTCATGGTCAGCGCCCGCTCCTCCCTCCCACGGGCCTCGGCCATCAAGGCGCTGGACGTGTACTTCTGGATCTGCTACGTCTTCGTGTTTGCGGCACTGGTGGAGTACGCCTTCGCCCACTTTAATGCTGACTACAGGAAGAAGCGCAAGGCCAAGGTCAAGGTCACAAAGCCTCGGGCAGAGGTGAGAGGTGGGTGGGCTCCGGGCAGTGTGGGGAGGTGGTGCGGGCCCTGGATCCCCACCCAGCCTGCGCAGGCCACAGGGACAATGCTGAGGCAGAGTGGGCAGAGCTGCTGGGCACCTGGCAGCTGGGGCGGCTGGCTCAGCCCTGTCGCCCGCCTCATGCAGGTGGACGTGAGGAACGCCATCGTCCTGTTCTCCCTCTCCGCTGCGGGGGTCACCCAGGAGCTGGCTGTCTCCCGCCGCCAGTGTCGCACCCCTGGGAACCTCATGGGCTCCTACAGGTCTGTGGAGGTGGAGACAGGGCCAAGGAGGAAGGATGGGGCGCCAGGGGGCCGAGGGGGTCTCCGAGGCCGGCTCAAGCCCATCGACGCAGACACCATCGACATCTACGCCCGCGCTGTGTTCCCTGCGGCATTTGCGGCCGTCAACATCATCTATTGGGCGGCCTACGCCTTGTGA

XM_004863816.1 Coding sequence

Gabrd gamma-aminobutyric acid (GABA) A receptor, delta, transcript variant X8

Length: 1707 bp    Location: 7864975..7856797   Strand: -
>XM_004863816.1
ATGAGAGGTCAGAGGGTTGGGGTCGCCCGCGTGCTCTGGGCAGGGCACGGAGGGCTGGGGCGGGGCTTGCGGGCAGGGCCGGGCCTGGGCGGGCTCGAGGGAGTGGCTTCGACATGGGCGGGGCCGCGGCAGGACCGCCCCGTGCGCCCCCTTTCTGCCGCTTCGCTCCCTCGAGTTCGTCCGGGAGCCGCTTGGCCGCGGGCGAAGCAACTTTGCTGCGCGAGGCGGCGGCAACCTGGTCCCGGCCGGTCCGATCCAGCACGGAGCCACGAGGCCATGGGCGCGCTGGCCGGGCTGCTGGCCCCGCTGCTGCTGCTGTGCGCGCGGCTGCCCCGCGGCGCCAGAGCAATGAATGATATTGGGGACTATGTGGGCTCCAACCTGGAGATATCCTGGCTGCCCAACCTGGACGGCCTGGTGGAGGGCTACGCCCGCAACTTCCGGCCCGGCATCGGAGGGCCCCCCGTGAACGTGGCACTCGCCCTGGAGGTGGCCAGCATCGACCACATCTCAGAGGCGAACATGGTGGGTGCCGCCAGCTCTGTGCCTGCGCCTGTGCCTGTGCCCCCTGGCAGGAGGCGTGCTGACGGGTGCCCTCCACAGGAGTACACCATGACCGTGTTCCTGCACCAGAGCTGGAGGGACAGCAGGCTCTCCTACAACCACACCAATGAGACCCTGGGCCTGGACAGCCGCTTCGTGGACAAGCTCTGGCTCCCGGACACTTTCATCGTGAATGCCAAGTCCGCCTGGTTCCACGACGTGACGGTGGAGAACAAGCTGATTCGGCTGCAGCCCGACGGCGTCATCCTGTACAGCATCCGAATCACTTCCACAGTGGCCTGTGACATGGATCTGGCCAAGTACCCCATGGATGAGCAGGAGTGCATGCTGGACCTGGAGAGCTATGGCTACTCCTCCGAGGACATCGTCTACTACTGGTCCGAGAACCAGGAGCAGATCCACGGGCTGGACAGGCTGCAGCTGGCACAGTTCACCATCACCAGCTACCGCTTCACCACGGAGCTGATGAACTTCAAGTCAGCGGGCCAGTTCCCCAGGCTCAGCCTCCACTTCCACCTGCGGAGGAACCGGGGCGTCTACATCATCCAGTCCTACATGCCCTCTGTCCTCCTGGTCGCCATGTCCTGGGTCTCCTTCTGGATTAGTCAGGCAGCAGTGCCCGCCAGGGTGTCTCTAGGCATCACCACCGTGCTGACGATGACCACGCTCATGGTCAGCGCCCGCTCCTCCCTCCCACGGGCCTCGGCCATCAAGGCGCTGGACGTGTACTTCTGGATCTGCTACGTCTTCGTGTTTGCGGCACTGGTGGAGTACGCCTTCGCCCACTTTAATGCTGACTACAGGAAGAAGCGCAAGGCCAAGGTCAAGGTCACAAAGCCTCGGGCAGAGGTGGACGTGAGGAACGCCATCGTCCTGTTCTCCCTCTCCGCTGCGGGGGTCACCCAGGAGCTGGCTGTCTCCCGCCGCCAGTGTCGCACCCCTGGGAACCTCATGGGCTCCTACAGGTCTGTGGAGGTGGAGACAGGGCCAAGGAGGAAGGATGGGGCGCCAGGGGGCCGAGGGGGTCTCCGAGGCCGGCTCAAGCCCATCGACGCAGACACCATCGACATCTACGCCCGCGCTGTGTTCCCTGCGGCATTTGCGGCCGTCAACATCATCTATTGGGCGGCCTACGCCTTGTGA

XM_004863810.1 Coding sequence

Gabrd gamma-aminobutyric acid (GABA) A receptor, delta, transcript variant X2

Length: 1920 bp    Location: 7864980..7856797   Strand: -
>XM_004863810.1
ATGAGAGGTCAGAGGGTTGGGGTCGCCCGCGTGCTCTGGGCAGGGCACGGAGGGCTGGGGCGGGGCTTGCGGGCAGGGCCGGGCCTGGGCGGGCTCGAGGGAGTGGCTTCGACATGGGCGGGGCCGCGGCAGGACCGCCCCGTGCGCCCCCTTTCTGCCGCTTCGCTCCCTCGAGTTCGTCCGGGAGCCGCTTGGCCGCGGGCGAAGCAACTTTGCTGCGCGAGGCGGCGGCAACCTGGTCCCGGCCGGTCCGATCCAGCACGGAGCCACGAGGCCATGGGCGCGCTGGCCGGGCTGCTGGCCCCGCTGCTGCTGCTGTGCGCGCGGCTGCCCCGCGGCGCCAGAGCAATGAATGATATTGGGGACTATGTGGGCTCCAACCTGGAGATATCCTGGCTGCCCAACCTGGACGGCCTGGTGGAGGGCTACGCCCGCAACTTCCGGCCCGGCATCGGAGGGCCCCCCGTGAACGTGGCACTCGCCCTGGAGGTGGCCAGCATCGACCACATCTCAGAGGCGAACATGGTGGGTGCCGCCAGCTCTGTGCCTGCGCCTGTGCCTGTGCCCCCTGGCAGGAGGCGTGCTGACGGGTGCCCTCCACAGGAGTACACCATGACCGTGTTCCTGCACCAGAGCTGGAGGGACAGCAGGCTCTCCTACAACCACACCAATGAGACCCTGGGCCTGGACAGCCGCTTCGTGGACAAGCTCTGGCTCCCGGACACTTTCATCGTGAATGCCAAGTCCGCCTGGTTCCACGACGTGACGGTGGAGAACAAGCTGATTCGGCTGCAGCCCGACGGCGTCATCCTGTACAGCATCCGAATCACTTCCACAGTGGCCTGTGACATGGATCTGGCCAAGTACCCCATGGATGAGCAGGAGTGCATGCTGGACCTGGAGAGCTATGGCTACTCCTCCGAGGACATCGTCTACTACTGGTCCGAGAACCAGGAGCAGATCCACGGGCTGGACAGGCTGCAGCTGGCACAGTTCACCATCACCAGCTACCGCTTCACCACGGAGCTGATGAACTTCAAGTCAGCGGGCCAGTTCCCCAGGCTCAGCCTCCACTTCCACCTGCGGAGGAACCGGGGCGTCTACATCATCCAGTCCTACATGCCCTCTGTCCTCCTGGTCGCCATGTCCTGGGTCTCCTTCTGGATTAGTCAGGCAGCAGTGCCCGCCAGGGTGTCTCTAGGTATGGCTGGGGTCACTTCTCCCCCAGGGGCTGCTGGGAGGCCACACAGCAGGACCCTCCAGCCAGTTCTGGGCCTGGGCCTGGGCCATCTGTCCCCGGCAGTGACATGGGGCAGGGGGTGGGGCTGTTCCAGGACCCAGGCCCTGCTGAGCGGGGTGCAGAGAGGAGACAGTGGGGCTCCAACAAGGGCCCACCGGCACCCCCTGTCCCCAGGCATCACCACCGTGCTGACGATGACCACGCTCATGGTCAGCGCCCGCTCCTCCCTCCCACGGGCCTCGGCCATCAAGGCGCTGGACGTGTACTTCTGGATCTGCTACGTCTTCGTGTTTGCGGCACTGGTGGAGTACGCCTTCGCCCACTTTAATGCTGACTACAGGAAGAAGCGCAAGGCCAAGGTCAAGGTCACAAAGCCTCGGGCAGAGGTGGACGTGAGGAACGCCATCGTCCTGTTCTCCCTCTCCGCTGCGGGGGTCACCCAGGAGCTGGCTGTCTCCCGCCGCCAGTGTCGCACCCCTGGGAACCTCATGGGCTCCTACAGGTCTGTGGAGGTGGAGACAGGGCCAAGGAGGAAGGATGGGGCGCCAGGGGGCCGAGGGGGTCTCCGAGGCCGGCTCAAGCCCATCGACGCAGACACCATCGACATCTACGCCCGCGCTGTGTTCCCTGCGGCATTTGCGGCCGTCAACATCATCTATTGGGCGGCCTACGCCTTGTGA

XM_004863813.1 Coding sequence

Gabrd gamma-aminobutyric acid (GABA) A receptor, delta, transcript variant X5

Length: 1737 bp    Location: 7864409..7856797   Strand: -
>XM_004863813.1
ATGAATGATATTGGGGACTATGTGGGCTCCAACCTGGAGATATCCTGGCTGCCCAACCTGGACGGCCTGGTGGAGGGCTACGCCCGCAACTTCCGGCCCGGCATCGGAGGGCCCCCCGTGAACGTGGCACTCGCCCTGGAGGTGGCCAGCATCGACCACATCTCAGAGGCGAACATGGTGGGTGCCGCCAGCTCTGTGCCTGCGCCTGTGCCTGTGCCCCCTGGCAGGAGGCGTGCTGACGGGTGCCCTCCACAGGAGTACACCATGACCGTGTTCCTGCACCAGAGCTGGAGGGACAGCAGGCTCTCCTACAACCACACCAATGAGACCCTGGGCCTGGACAGCCGCTTCGTGGACAAGCTCTGGCTCCCGGACACTTTCATCGTGAATGCCAAGTCCGCCTGGTTCCACGACGTGACGGTGGAGAACAAGCTGATTCGGCTGCAGCCCGACGGCGTCATCCTGTACAGCATCCGAATCACTTCCACAGTGGCCTGTGACATGGATCTGGCCAAGTACCCCATGGATGAGCAGGAGTGCATGCTGGACCTGGAGAGCTATGGCTACTCCTCCGAGGACATCGTCTACTACTGGTCCGAGAACCAGGAGCAGATCCACGGGCTGGACAGGCTGCAGCTGGCACAGTTCACCATCACCAGCTACCGCTTCACCACGGAGCTGATGAACTTCAAGTCAGCGGGCCAGTTCCCCAGGCTCAGCCTCCACTTCCACCTGCGGAGGAACCGGGGCGTCTACATCATCCAGTCCTACATGCCCTCTGTCCTCCTGGTCGCCATGTCCTGGGTCTCCTTCTGGATTAGTCAGGCAGCAGTGCCCGCCAGGGTGTCTCTAGGTATGGCTGGGGTCACTTCTCCCCCAGGGGCTGCTGGGAGGCCACACAGCAGGACCCTCCAGCCAGTTCTGGGCCTGGGCCTGGGCCATCTGTCCCCGGCAGTGACATGGGGCAGGGGGTGGGGCTGTTCCAGGACCCAGGCCCTGCTGAGCGGGGTGCAGAGAGGAGACAGTGGGGCTCCAACAAGGGCCCACCGGCACCCCCTGTCCCCAGGCATCACCACCGTGCTGACGATGACCACGCTCATGGTCAGCGCCCGCTCCTCCCTCCCACGGGCCTCGGCCATCAAGGCGCTGGACGTGTACTTCTGGATCTGCTACGTCTTCGTGTTTGCGGCACTGGTGGAGTACGCCTTCGCCCACTTTAATGCTGACTACAGGAAGAAGCGCAAGGCCAAGGTCAAGGTCACAAAGCCTCGGGCAGAGGTGAGAGGTGGGTGGGCTCCGGGCAGTGTGGGGAGGTGGTGCGGGCCCTGGATCCCCACCCAGCCTGCGCAGGCCACAGGGACAATGCTGAGGCAGAGTGGGCAGAGCTGCTGGGCACCTGGCAGCTGGGGCGGCTGGCTCAGCCCTGTCGCCCGCCTCATGCAGGTGGACGTGAGGAACGCCATCGTCCTGTTCTCCCTCTCCGCTGCGGGGGTCACCCAGGAGCTGGCTGTCTCCCGCCGCCAGTGTCGCACCCCTGGGAACCTCATGGGCTCCTACAGGTCTGTGGAGGTGGAGACAGGGCCAAGGAGGAAGGATGGGGCGCCAGGGGGCCGAGGGGGTCTCCGAGGCCGGCTCAAGCCCATCGACGCAGACACCATCGACATCTACGCCCGCGCTGTGTTCCCTGCGGCATTTGCGGCCGTCAACATCATCTATTGGGCGGCCTACGCCTTGTGA

XM_004863815.1 Coding sequence

Gabrd gamma-aminobutyric acid (GABA) A receptor, delta, transcript variant X7

Length: 1737 bp    Location: 7864286..7856797   Strand: -
>XM_004863815.1
ATGAATGATATTGGGGACTATGTGGGCTCCAACCTGGAGATATCCTGGCTGCCCAACCTGGACGGCCTGGTGGAGGGCTACGCCCGCAACTTCCGGCCCGGCATCGGAGGGCCCCCCGTGAACGTGGCACTCGCCCTGGAGGTGGCCAGCATCGACCACATCTCAGAGGCGAACATGGTGGGTGCCGCCAGCTCTGTGCCTGCGCCTGTGCCTGTGCCCCCTGGCAGGAGGCGTGCTGACGGGTGCCCTCCACAGGAGTACACCATGACCGTGTTCCTGCACCAGAGCTGGAGGGACAGCAGGCTCTCCTACAACCACACCAATGAGACCCTGGGCCTGGACAGCCGCTTCGTGGACAAGCTCTGGCTCCCGGACACTTTCATCGTGAATGCCAAGTCCGCCTGGTTCCACGACGTGACGGTGGAGAACAAGCTGATTCGGCTGCAGCCCGACGGCGTCATCCTGTACAGCATCCGAATCACTTCCACAGTGGCCTGTGACATGGATCTGGCCAAGTACCCCATGGATGAGCAGGAGTGCATGCTGGACCTGGAGAGCTATGGCTACTCCTCCGAGGACATCGTCTACTACTGGTCCGAGAACCAGGAGCAGATCCACGGGCTGGACAGGCTGCAGCTGGCACAGTTCACCATCACCAGCTACCGCTTCACCACGGAGCTGATGAACTTCAAGTCAGCGGGCCAGTTCCCCAGGCTCAGCCTCCACTTCCACCTGCGGAGGAACCGGGGCGTCTACATCATCCAGTCCTACATGCCCTCTGTCCTCCTGGTCGCCATGTCCTGGGTCTCCTTCTGGATTAGTCAGGCAGCAGTGCCCGCCAGGGTGTCTCTAGGTATGGCTGGGGTCACTTCTCCCCCAGGGGCTGCTGGGAGGCCACACAGCAGGACCCTCCAGCCAGTTCTGGGCCTGGGCCTGGGCCATCTGTCCCCGGCAGTGACATGGGGCAGGGGGTGGGGCTGTTCCAGGACCCAGGCCCTGCTGAGCGGGGTGCAGAGAGGAGACAGTGGGGCTCCAACAAGGGCCCACCGGCACCCCCTGTCCCCAGGCATCACCACCGTGCTGACGATGACCACGCTCATGGTCAGCGCCCGCTCCTCCCTCCCACGGGCCTCGGCCATCAAGGCGCTGGACGTGTACTTCTGGATCTGCTACGTCTTCGTGTTTGCGGCACTGGTGGAGTACGCCTTCGCCCACTTTAATGCTGACTACAGGAAGAAGCGCAAGGCCAAGGTCAAGGTCACAAAGCCTCGGGCAGAGGTGAGAGGTGGGTGGGCTCCGGGCAGTGTGGGGAGGTGGTGCGGGCCCTGGATCCCCACCCAGCCTGCGCAGGCCACAGGGACAATGCTGAGGCAGAGTGGGCAGAGCTGCTGGGCACCTGGCAGCTGGGGCGGCTGGCTCAGCCCTGTCGCCCGCCTCATGCAGGTGGACGTGAGGAACGCCATCGTCCTGTTCTCCCTCTCCGCTGCGGGGGTCACCCAGGAGCTGGCTGTCTCCCGCCGCCAGTGTCGCACCCCTGGGAACCTCATGGGCTCCTACAGGTCTGTGGAGGTGGAGACAGGGCCAAGGAGGAAGGATGGGGCGCCAGGGGGCCGAGGGGGTCTCCGAGGCCGGCTCAAGCCCATCGACGCAGACACCATCGACATCTACGCCCGCGCTGTGTTCCCTGCGGCATTTGCGGCCGTCAACATCATCTATTGGGCGGCCTACGCCTTGTGA

XM_004863812.1 Coding sequence

Gabrd gamma-aminobutyric acid (GABA) A receptor, delta, transcript variant X4

Length: 1737 bp    Location: 7864285..7856797   Strand: -
>XM_004863812.1
ATGAATGATATTGGGGACTATGTGGGCTCCAACCTGGAGATATCCTGGCTGCCCAACCTGGACGGCCTGGTGGAGGGCTACGCCCGCAACTTCCGGCCCGGCATCGGAGGGCCCCCCGTGAACGTGGCACTCGCCCTGGAGGTGGCCAGCATCGACCACATCTCAGAGGCGAACATGGTGGGTGCCGCCAGCTCTGTGCCTGCGCCTGTGCCTGTGCCCCCTGGCAGGAGGCGTGCTGACGGGTGCCCTCCACAGGAGTACACCATGACCGTGTTCCTGCACCAGAGCTGGAGGGACAGCAGGCTCTCCTACAACCACACCAATGAGACCCTGGGCCTGGACAGCCGCTTCGTGGACAAGCTCTGGCTCCCGGACACTTTCATCGTGAATGCCAAGTCCGCCTGGTTCCACGACGTGACGGTGGAGAACAAGCTGATTCGGCTGCAGCCCGACGGCGTCATCCTGTACAGCATCCGAATCACTTCCACAGTGGCCTGTGACATGGATCTGGCCAAGTACCCCATGGATGAGCAGGAGTGCATGCTGGACCTGGAGAGCTATGGCTACTCCTCCGAGGACATCGTCTACTACTGGTCCGAGAACCAGGAGCAGATCCACGGGCTGGACAGGCTGCAGCTGGCACAGTTCACCATCACCAGCTACCGCTTCACCACGGAGCTGATGAACTTCAAGTCAGCGGGCCAGTTCCCCAGGCTCAGCCTCCACTTCCACCTGCGGAGGAACCGGGGCGTCTACATCATCCAGTCCTACATGCCCTCTGTCCTCCTGGTCGCCATGTCCTGGGTCTCCTTCTGGATTAGTCAGGCAGCAGTGCCCGCCAGGGTGTCTCTAGGTATGGCTGGGGTCACTTCTCCCCCAGGGGCTGCTGGGAGGCCACACAGCAGGACCCTCCAGCCAGTTCTGGGCCTGGGCCTGGGCCATCTGTCCCCGGCAGTGACATGGGGCAGGGGGTGGGGCTGTTCCAGGACCCAGGCCCTGCTGAGCGGGGTGCAGAGAGGAGACAGTGGGGCTCCAACAAGGGCCCACCGGCACCCCCTGTCCCCAGGCATCACCACCGTGCTGACGATGACCACGCTCATGGTCAGCGCCCGCTCCTCCCTCCCACGGGCCTCGGCCATCAAGGCGCTGGACGTGTACTTCTGGATCTGCTACGTCTTCGTGTTTGCGGCACTGGTGGAGTACGCCTTCGCCCACTTTAATGCTGACTACAGGAAGAAGCGCAAGGCCAAGGTCAAGGTCACAAAGCCTCGGGCAGAGGTGAGAGGTGGGTGGGCTCCGGGCAGTGTGGGGAGGTGGTGCGGGCCCTGGATCCCCACCCAGCCTGCGCAGGCCACAGGGACAATGCTGAGGCAGAGTGGGCAGAGCTGCTGGGCACCTGGCAGCTGGGGCGGCTGGCTCAGCCCTGTCGCCCGCCTCATGCAGGTGGACGTGAGGAACGCCATCGTCCTGTTCTCCCTCTCCGCTGCGGGGGTCACCCAGGAGCTGGCTGTCTCCCGCCGCCAGTGTCGCACCCCTGGGAACCTCATGGGCTCCTACAGGTCTGTGGAGGTGGAGACAGGGCCAAGGAGGAAGGATGGGGCGCCAGGGGGCCGAGGGGGTCTCCGAGGCCGGCTCAAGCCCATCGACGCAGACACCATCGACATCTACGCCCGCGCTGTGTTCCCTGCGGCATTTGCGGCCGTCAACATCATCTATTGGGCGGCCTACGCCTTGTGA

XM_004863821.1 Coding sequence

Gnb1 guanine nucleotide binding protein (G protein), beta polypeptide 1, transcript variant X2

High confidence: 4 potential gene matches
Length: 1023 bp    Location: 7953927..8002796   Strand: +
>XM_004863821.1
ATGAGCGAGCTTGACCAGCTACGGCAGGAGGCCGAGCAGCTCAAGAACCAGATCAGAGATGCTCGGAAAGCATGTGCGGATGCAACTCTCTCACAGATCACAAACAGCATCGACCCAGTGGGAAGGATCCAGATGCGCACCAGGAGGACGCTGAGGGGGCACCTGGCCAAGATCTATGCCATGCACTGGGGCACAGACTCCAGGCTCCTGGTCAGCGCCTCACAGGATGGGAAACTCATCATCTGGGACAGCTACACCACAAACAAGGTCCACGCCATCCCCCTGCGCTCCTCCTGGGTCATGACCTGTGCTTACGCCCCCTCTGGGAACTACGTAGCCTGTGGTGGCCTGGACAACATCTGCTCCATTTACAATCTGAAGACTCGAGAAGGAAACGTGCGTGTGAGCCGTGAACTGGCGGGACACACAGGCTACCTGTCCTGCTGCCGATTCCTAGACGACAATCAGATCGTCACCAGCTCTGGAGACACCACGTGTGCACTGTGGGACATCGAGACTGGCCAGCAGACAACCACGTTCACTGGACACACTGGGGATGTCATGAGCCTCTCTCTGGCTCCCGACACCAGGCTCTTTGTTTCCGGTGCTTGTGACGCCTCAGCCAAGCTCTGGGACGTTCGAGAGGGCATGTGCCGGCAGACCTTCACTGGCCACGAGTCCGACATCAACGCCATCTGCTTCTTTCCAAATGGCAATGCATTTGCTACCGGCTCAGATGACGCTACCTGCAGGCTCTTTGACCTCCGTGCAGACCAGGAGCTCATGACCTACTCCCACGACAACATCATATGCGGGATCACCTCTGTCTCCTTCTCCAAGAGCGGGCGCCTCCTCCTCGCTGGGTACGACGACTTCAACTGCAACGTGTGGGATGCCCTCAAAGCTGACAGGGCAGGTGTCTTGGCTGGACATGACAACCGCGTCAGCTGCCTGGGGGTGACTGACGATGGCATGGCTGTGGCAACAGGGTCCTGGGACAGCTTCCTCAAGATCTGGAACTAA

XM_004863824.1 Coding sequence

Nadk NAD kinase, transcript variant X3

Length: 1401 bp    Location: 8006487..8025664   Strand: +
>XM_004863824.1
ATGCCCCGGTGCGGCGGTGTCTGTTTTTCTGGCAGAAGTTCTCAGCCATCACCTGTGGAAATGGAGCAAGCGAAGGTGAACATGAGCAAGGAGCTGGGTCCAGACACGGCTGCCTACTGCTGCCCCGAGTGCCGGGGTGACGAGAGCTGGAGCTGCAAACACCTGGTCCGCGGCCGGGCCAAGTCCCGGAGCCTGTCGGCCTCGCCCGCCCTGGGCAGCACCAAGGAGTTCAGGAGAACGCGCTCTCTCCATGGACCATGCCCAGTGACCACGTTTGGACCAAAGGCCTGCGTGCTGCAGAACCCCCAGACCATCATGCACATTCAGGACCCTGCGAGCCAGCGGTTGACGTGGAACAAGTCCCCGAAGAGTGTGCTCGTCATCAAGAAGATCCGAGATGCCAGCCTGCTTCAGCCCTTCAAGGAGCTCTGCATGTACCTCATGGAGGAGAATGGCATGATTGTGTACGTGGAGAAGAAGGTGCTGGAGGACCCTGCCATTGCATGTGACGACAACTTCGGACCAGTGAAGAAGAGGTTCTGCACCTTCCGGGAAGATTACGACGACATTTCCAACCAAATAGACTTCATCATATGCCTGGGAGGTGACGGGACCCTGCTGTACGCCTCCTCACTGTTCCAGGGCAGTGTGCCTCCTGTTATGGCCTTCCACCTGGGCTCCCTGGGCTTCCTGACCCCGTTCACCTTCAAGAGCTTCCAGTCGCAGCTGACCCAGGTGATCGAAGGGAACGCTGCCGTGGTGCTCCGGAGCCGGCTAAAGGTCAGGGTGGTGAAGGAGCCCCGCAGCAAGAAGATGGCCGAGCACAACGGACTCAGCGAGAACGGGCTGCCAGGCCCCTCACTCGAGGGCGGGAAGCAGGCCCTGCAGTACCAGGTCCTGAACGAGGTTGTGATCGACAGGGGCCCCTCCTCGTACCTGTCCAACGTGGATGTCTACCTGGACGGACACCTCATCACCACGGTGCAGGGCGACGGAGTGATCGTGTCCACCCCAACGGGCAGCACGGCGTACGCGGCCGCGGCCGGTGCCTCCATGATCCACCCCAACGTGCCAGCCATCATGATCACACCCATCTGCCCTCACTCGCTGTCCTTCCGGCCCATCGTGGTCCCCGCAGGGGTGGAGCTGAAGATCACGCTGTCACCAGAAGCCAGGAACACTGCGTGGGTGTCCTTGGACGGACGGAAGCGGCAGGAGATACGCCATGGAGACAGCATCACCATCACCACCTCCTGCTACCCGCTCCCCTCCATCTGCGTCCACGACCCTGTGAGTGACTGGTTTGAGAGCCTGGCGCAGTGTCTGCATTGGAATGTGCGCAAGAAGCAAGCCCACTTCGAGGAAGAGGAGGAGGCAGCCGAGGACGGCGAGGAGGGCTAG

XM_004863825.1 Coding sequence

Nadk NAD kinase, transcript variant X4

Length: 1401 bp    Location: 8006529..8025664   Strand: +
>XM_004863825.1
ATGGGGCGGCGGGCGGCAGCGTCGCTGGGGTCCAGAAGTTCTCAGCCATCACCTGTGGAAATGGAGCAAGCGAAGGTGAACATGAGCAAGGAGCTGGGTCCAGACACGGCTGCCTACTGCTGCCCCGAGTGCCGGGGTGACGAGAGCTGGAGCTGCAAACACCTGGTCCGCGGCCGGGCCAAGTCCCGGAGCCTGTCGGCCTCGCCCGCCCTGGGCAGCACCAAGGAGTTCAGGAGAACGCGCTCTCTCCATGGACCATGCCCAGTGACCACGTTTGGACCAAAGGCCTGCGTGCTGCAGAACCCCCAGACCATCATGCACATTCAGGACCCTGCGAGCCAGCGGTTGACGTGGAACAAGTCCCCGAAGAGTGTGCTCGTCATCAAGAAGATCCGAGATGCCAGCCTGCTTCAGCCCTTCAAGGAGCTCTGCATGTACCTCATGGAGGAGAATGGCATGATTGTGTACGTGGAGAAGAAGGTGCTGGAGGACCCTGCCATTGCATGTGACGACAACTTCGGACCAGTGAAGAAGAGGTTCTGCACCTTCCGGGAAGATTACGACGACATTTCCAACCAAATAGACTTCATCATATGCCTGGGAGGTGACGGGACCCTGCTGTACGCCTCCTCACTGTTCCAGGGCAGTGTGCCTCCTGTTATGGCCTTCCACCTGGGCTCCCTGGGCTTCCTGACCCCGTTCACCTTCAAGAGCTTCCAGTCGCAGCTGACCCAGGTGATCGAAGGGAACGCTGCCGTGGTGCTCCGGAGCCGGCTAAAGGTCAGGGTGGTGAAGGAGCCCCGCAGCAAGAAGATGGCCGAGCACAACGGACTCAGCGAGAACGGGCTGCCAGGCCCCTCACTCGAGGGCGGGAAGCAGGCCCTGCAGTACCAGGTCCTGAACGAGGTTGTGATCGACAGGGGCCCCTCCTCGTACCTGTCCAACGTGGATGTCTACCTGGACGGACACCTCATCACCACGGTGCAGGGCGACGGAGTGATCGTGTCCACCCCAACGGGCAGCACGGCGTACGCGGCCGCGGCCGGTGCCTCCATGATCCACCCCAACGTGCCAGCCATCATGATCACACCCATCTGCCCTCACTCGCTGTCCTTCCGGCCCATCGTGGTCCCCGCAGGGGTGGAGCTGAAGATCACGCTGTCACCAGAAGCCAGGAACACTGCGTGGGTGTCCTTGGACGGACGGAAGCGGCAGGAGATACGCCATGGAGACAGCATCACCATCACCACCTCCTGCTACCCGCTCCCCTCCATCTGCGTCCACGACCCTGTGAGTGACTGGTTTGAGAGCCTGGCGCAGTGTCTGCATTGGAATGTGCGCAAGAAGCAAGCCCACTTCGAGGAAGAGGAGGAGGCAGCCGAGGACGGCGAGGAGGGCTAG

XM_004863826.1 Coding sequence

Nadk NAD kinase, transcript variant X5

Length: 1398 bp    Location: 8008645..8025664   Strand: +
>XM_004863826.1
ATGCGAGTGCCCTTGGCCCTCCAGCTGGGGAGAAGTTCTCAGCCATCACCTGTGGAAATGGAGCAAGCGAAGGTGAACATGAGCAAGGAGCTGGGTCCAGACACGGCTGCCTACTGCTGCCCCGAGTGCCGGGGTGACGAGAGCTGGAGCTGCAAACACCTGGTCCGCGGCCGGGCCAAGTCCCGGAGCCTGTCGGCCTCGCCCGCCCTGGGCAGCACCAAGGAGTTCAGGAGAACGCGCTCTCTCCATGGACCATGCCCAGTGACCACGTTTGGACCAAAGGCCTGCGTGCTGCAGAACCCCCAGACCATCATGCACATTCAGGACCCTGCGAGCCAGCGGTTGACGTGGAACAAGTCCCCGAAGAGTGTGCTCGTCATCAAGAAGATCCGAGATGCCAGCCTGCTTCAGCCCTTCAAGGAGCTCTGCATGTACCTCATGGAGGAGAATGGCATGATTGTGTACGTGGAGAAGAAGGTGCTGGAGGACCCTGCCATTGCATGTGACGACAACTTCGGACCAGTGAAGAAGAGGTTCTGCACCTTCCGGGAAGATTACGACGACATTTCCAACCAAATAGACTTCATCATATGCCTGGGAGGTGACGGGACCCTGCTGTACGCCTCCTCACTGTTCCAGGGCAGTGTGCCTCCTGTTATGGCCTTCCACCTGGGCTCCCTGGGCTTCCTGACCCCGTTCACCTTCAAGAGCTTCCAGTCGCAGCTGACCCAGGTGATCGAAGGGAACGCTGCCGTGGTGCTCCGGAGCCGGCTAAAGGTCAGGGTGGTGAAGGAGCCCCGCAGCAAGAAGATGGCCGAGCACAACGGACTCAGCGAGAACGGGCTGCCAGGCCCCTCACTCGAGGGCGGGAAGCAGGCCCTGCAGTACCAGGTCCTGAACGAGGTTGTGATCGACAGGGGCCCCTCCTCGTACCTGTCCAACGTGGATGTCTACCTGGACGGACACCTCATCACCACGGTGCAGGGCGACGGAGTGATCGTGTCCACCCCAACGGGCAGCACGGCGTACGCGGCCGCGGCCGGTGCCTCCATGATCCACCCCAACGTGCCAGCCATCATGATCACACCCATCTGCCCTCACTCGCTGTCCTTCCGGCCCATCGTGGTCCCCGCAGGGGTGGAGCTGAAGATCACGCTGTCACCAGAAGCCAGGAACACTGCGTGGGTGTCCTTGGACGGACGGAAGCGGCAGGAGATACGCCATGGAGACAGCATCACCATCACCACCTCCTGCTACCCGCTCCCCTCCATCTGCGTCCACGACCCTGTGAGTGACTGGTTTGAGAGCCTGGCGCAGTGTCTGCATTGGAATGTGCGCAAGAAGCAAGCCCACTTCGAGGAAGAGGAGGAGGCAGCCGAGGACGGCGAGGAGGGCTAG

XM_004863827.1 Coding sequence

Nadk NAD kinase, transcript variant X6

Length: 1371 bp    Location: 8014889..8024421   Strand: +
>XM_004863827.1
ATGGGGCCAGGGTTCAGTCCTGGCAGCAGAACACAGAAACGAGCGTACGGTTGCTTGTGGCATGTGCCTCGTGCCTGTTCCGTGTGTGCTGACTTCTTTATTTCGTTGCATCAAGGTGTCTGTTTTTCTGGCAGAAGTTCTCAGCCATCACCTGTGGAAATGGAGCAAGCGAAGGTGAACATGAGCAAGGAGCTGGGTCCAGACACGGCTGCCTACTGCTGCCCCGAGTGCCGGGGTGACGAGAGCTGGAGCTGCAAACACCTGGTCCGCGGCCGGGCCAAGTCCCGGAGCCTGTCGGCCTCGCCCGCCCTGGGCAGCACCAAGGAGTTCAGGAGAACGCGCTCTCTCCATGGACCATGCCCAGTGACCACGTTTGGACCAAAGGCCTGCGTGCTGCAGAACCCCCAGACCATCATGCACATTCAGGACCCTGCGAGCCAGCGGTTGACGTGGAACAAGTCCCCGAAGAGTGTGCTCGTCATCAAGAAGATCCGAGATGCCAGCCTGCTTCAGCCCTTCAAGGAGCTCTGCATGTACCTCATGGAGGAGAATGGCATGATTGTGTACGTGGAGAAGAAGGTGCTGGAGGACCCTGCCATTGCATGTGACGACAACTTCGGACCAGTGAAGAAGAGGTTCTGCACCTTCCGGGAAGATTACGACGACATTTCCAACCAAATAGACTTCATCATATGCCTGGGAGGTGACGGGACCCTGCTGTACGCCTCCTCACTGTTCCAGGGCAGTGTGCCTCCTGTTATGGCCTTCCACCTGGGCTCCCTGGGCTTCCTGACCCCGTTCACCTTCAAGAGCTTCCAGTCGCAGCTGACCCAGGTGATCGAAGGGAACGCTGCCGTGGTGCTCCGGAGCCGGCTAAAGGTCAGGGTGGTGAAGGAGCCCCGCAGCAAGAAGATGGCCGAGCACAACGGACTCAGCGAGAACGGGCTGCCAGGCCCCTCACTCGAGGGCGGGAAGCAGGCCCTGCAGTACCAGGGGCCCCTCCTCGTACCTGTCCAACGTGGATGTCTACCTGGACGGACACCTCATCACCACGGTGCAGGGCGACGGAGTGATCGTGTCCACCCCAACGGGCAGCACGGCGTACGCGGCCGCGGCCGGTGCCTCCATGATCCACCCCAACGTGCCAGCCATCATGATCACACCCATCTGCCCTCACTCGCTGTCCTTCCGGCCCATCGTGGTCCCCGCAGGGGTGGAGCTGAAGATCACGCTGTCACCAGAAGCCAGGAACACTGCGTGGGTGTCCTTGGACGGACGGAAGCGGCAGGAGATACGCCATGGAGACAGCATCACCATCACCACCTCCTGCTACCCGCTCCCCTCCATCTGCGTCCACGACCCTGTGAGTGA

XM_004863830.1 Coding sequence

Slc35e2 solute carrier family 35, member E2, transcript variant X2

High confidence: 4 potential gene matches
Length: 1227 bp    Location: 8032148..8047254   Strand: +
>XM_004863830.1
ATGGCGGAGCCCCTGGCCCCAGGGGGGAGCTCACCCGGCTCCAGCTCCGGCTCCGGCTCTGAGGTGGAGCCCAAAGGGAAGCCACTGCTCGCCTGGGTCCCCCTGCTTGGCCACCGCGGCGAGAAGATCCTCTTTGCCAAGAGCGACGGCGGCGCTGAGGGCAGCCTGCTCACCGTCACCCTCACCGAGACCACCGTCATCGAGTCTGACCTGGGTGTGTGGAGCTCACGGGCGCTCACCTACCTCACGCTGTGGTTCTTCTTCAGCTTCTGCACGCTGTTCCTCAACAAGTACATCCTGTCACTGCTGGAGGGCGAGCCCAGCATGCTAGGCGCCGTGCAGATGCTGTCCACTACGCTCATCGGCTGCGTCAAGACTTTCGTCCCTTGCTGCCTGCACCAGCACAAGCCGCGGCTGTCCTACCCGCCCAACTTCATCATGACCATGCTCTTCGTGGGCCTCATGAGGTTTGCGACTGTGGTCCTGGGCTTGGTCAGCCTGAAAAACGTGGCAGTGTCGTTTGCAGAGACGGTGAAGAGCTCCGCCCCCATCTTCACGGTGATCATGTCGCGCATGATCCTGGGCGAGTACACAGGACTGCTGGTCAACCTGTCCCTCATCCCGGTCATGGGAGGGCTGGCGCTGTGCACCGCCACTGAGATCAGCTTCAACATCCTGGGCTTTTCGGCCGCACTGTCCACCAACATCATGGACTGTTTGCAGAACGTCTTCTCTAAGAAGCTGCTCAGCGGGGACAAGTACCGGTTCTCGGCCCCAGAGCTGCAGTTTTACACAAGTGCGGCCGCGGTGGTGATGCTCATCCCTGCCTGGATCTTCTTCATGGATGTACCTGTGATCGGCAGGAGCGGGAGGAGCTTCCACTACAGCCAGGATGTGGTGCTGCTGCTACTGACAGATGGTGCCCTGTTCCACCTGCAGAGTGTCACCGCATATGCCCTCATGGGCAAGATCTCCCCTGTGACCTTCAGTGTTGCCAGCACTGTGAAGCACGCCTTGTCCGTCTGGCTCAGCATCATCGTTTTTGGCAACAAGATCACCAGCCTGTCTGCTATTGGCACTGTCCTGGTGACAGTGGGTGTCCTGCTCTACAACAAGGCCCGGCAACACCAGCAGGAGGCCATGCAGAGCCTGGCCATGGCCACCAGCTGGGCCCCGGAGGATGCTGCTGAGCCACTGCTTCCCCAGGACCCCAGGCAGCACCACTGA

XM_004863829.1 Coding sequence

Slc35e2 solute carrier family 35, member E2, transcript variant X1

Length: 1269 bp    Location: 8038006..8047254   Strand: +
>XM_004863829.1
ATGGTAAAGCTCTGGGACGCTAAACACTCGCACGACCTCAGCATGGCGGAGCCCCTGGCCCCAGGGGGGAGCTCACCCGGCTCCAGCTCCGGCTCCGGCTCTGAGGTGGAGCCCAAAGGGAAGCCACTGCTCGCCTGGGTCCCCCTGCTTGGCCACCGCGGCGAGAAGATCCTCTTTGCCAAGAGCGACGGCGGCGCTGAGGGCAGCCTGCTCACCGTCACCCTCACCGAGACCACCGTCATCGAGTCTGACCTGGGTGTGTGGAGCTCACGGGCGCTCACCTACCTCACGCTGTGGTTCTTCTTCAGCTTCTGCACGCTGTTCCTCAACAAGTACATCCTGTCACTGCTGGAGGGCGAGCCCAGCATGCTAGGCGCCGTGCAGATGCTGTCCACTACGCTCATCGGCTGCGTCAAGACTTTCGTCCCTTGCTGCCTGCACCAGCACAAGCCGCGGCTGTCCTACCCGCCCAACTTCATCATGACCATGCTCTTCGTGGGCCTCATGAGGTTTGCGACTGTGGTCCTGGGCTTGGTCAGCCTGAAAAACGTGGCAGTGTCGTTTGCAGAGACGGTGAAGAGCTCCGCCCCCATCTTCACGGTGATCATGTCGCGCATGATCCTGGGCGAGTACACAGGACTGCTGGTCAACCTGTCCCTCATCCCGGTCATGGGAGGGCTGGCGCTGTGCACCGCCACTGAGATCAGCTTCAACATCCTGGGCTTTTCGGCCGCACTGTCCACCAACATCATGGACTGTTTGCAGAACGTCTTCTCTAAGAAGCTGCTCAGCGGGGACAAGTACCGGTTCTCGGCCCCAGAGCTGCAGTTTTACACAAGTGCGGCCGCGGTGGTGATGCTCATCCCTGCCTGGATCTTCTTCATGGATGTACCTGTGATCGGCAGGAGCGGGAGGAGCTTCCACTACAGCCAGGATGTGGTGCTGCTGCTACTGACAGATGGTGCCCTGTTCCACCTGCAGAGTGTCACCGCATATGCCCTCATGGGCAAGATCTCCCCTGTGACCTTCAGTGTTGCCAGCACTGTGAAGCACGCCTTGTCCGTCTGGCTCAGCATCATCGTTTTTGGCAACAAGATCACCAGCCTGTCTGCTATTGGCACTGTCCTGGTGACAGTGGGTGTCCTGCTCTACAACAAGGCCCGGCAACACCAGCAGGAGGCCATGCAGAGCCTGGCCATGGCCACCAGCTGGGCCCCGGAGGATGCTGCTGAGCCACTGCTTCCCCAGGACCCCAGGCAGCACCACTGA

XM_004863831.1 Coding sequence

Slc35e2 solute carrier family 35, member E2, transcript variant X3

Length: 1047 bp    Location: 8038006..8045819   Strand: +
>XM_004863831.1
ATGGTAAAGCTCTGGGACGCTAAACACTCGCACGACCTCAGCATGGCGGAGCCCCTGGCCCCAGGGGGGAGCTCACCCGGCTCCAGCTCCGGCTCCGGCTCTGAGGTGGAGCCCAAAGGGAAGCCACTGCTCGCCTGGGTCCCCCTGCTTGGCCACCGCGGCGAGAAGATCCTCTTTGCCAAGAGCGACGGCGGCGCTGAGGGCAGCCTGCTCACCGTCACCCTCACCGAGACCACCGTCATCGAGTCTGACCTGGGTGTGTGGAGCTCACGGGCGCTCACCTACCTCACGCTGTGGTTCTTCTTCAGCTTCTGCACGCTGTTCCTCAACAAGTACATCCTGTCACTGCTGGAGGGCGAGCCCAGCATGCTAGGCGCCGTGCAGATGCTGTCCACTACGCTCATCGGCTGCGTCAAGACTTTCGTCCCTTGCTGCCTGCACCAGCACAAGCCGCGGCTGTCCTACCCGCCCAACTTCATCATGACCATGCTCTTCGTGGGCCTCATGAGGTTTGCGACTGTGGTCCTGGGCTTGGTCAGCCTGAAAAACGTGGCAGTGTCGTTTGCAGAGACGGTGAAGAGCTCCGCCCCCATCTTCACGGTGATCATGTCGCGCATGATCCTGGGCGAGTACACAGGACTGCTGGTCAACCTGTCCCTCATCCCGGTCATGGGAGGGCTGGCGCTGTGCACCGCCACTGAGATCAGCTTCAACATCCTGGGCTTTTCGGCCGCACTGTCCACCAACATCATGGACTGTTTGCAGAACGTCTTCTCTAAGAAGCTGCTCAGCGGGGACAAGTACCGGTTCTCGGCCCCAGAGCTGCAGTTTTACACAAGTGCGGCCGCGGTGGTGATGCTCATCCCTGCCTGGATCTTCTTCATGGATGTACCTGTGATCGGCAGGAGCGGGAGGAGCTTCCACTACAGCCAGGATGTGGTGCTGCTGCTACTGACAGATGGTGCCCTGTTCCACCTGCAGAGTGTCACCGCATATGCCCTCATGGGCAAGATCTCCCCTGTGACCTTCAGCCCAGCAGGTGAATGA

XM_004863934.1 Coding sequence

LOC101713311 cyclin-dependent kinase 11B-like

Length: 1035 bp    Location: 8071152..8075321   Strand: +
>XM_004863934.1
ATGAATTCTAAGCATGGCCACCTCGCACAGCCCCTGTCCCTGTTCTCGGACTCAGCCGAGCCGGCTGGGACCTTAGACCTTGCACCCTTGTTCAGGGCCAGTCCCAGTTTATCTGTTAAAGTTCCAGAGTCGAGATTTGACCGAGACTCGGGGGACAGTGAAGAAGGGGAGGAAGAAGTGGGTGAGGGGACCCCACAGAGCAGCGCCCCAACTGAAGGGGACTACGTGCCTGACTCCCCAGCCCTGTCGCCCATTGAGCTCAAGCAGGAGCTGCCCAAGTACCTGCCGGCCCTGCAGGGCTGCCGCAGTGTGGAGGAGTTCCAGTGTCTGAACAGGACCCTGCCCCCCACCTGGCCTCCAGCACCTCTGTCCCTGCAGGTGGGTGACTTTGGCCTGGCGCGGGAGTACGGCTCACCCCTGAAGGCCTACACTCCTGTTGTCGTGACCCTGTGGTACCGCGCCCCAGAACTGCTGCTGGGTGCCAAGGAGTACTCCACGGCCGTTGACATGTGGTCTGTGGGCTGCATCTTCGGGGAGCTACTGACGCAGAAGCCACTGTTCCCCGGAAAGTCAGAAATCGATCAGATCAACAAAGTGTTTAAGGACCTAGGGACCCCCAGCGAGAAAATCTGGCCCGGCTACAACGACCTCCCCGCAGTGAAGAAAATGACCTTCAGCGAGTACCCGTACAACAACCTCCGCAAGCGCTTCGGGGCCTTGCTGTCGGACCAGGGCTTCGACCTCATGAACAAGTTCCTGACCTACTTCCCCGGGAGGAGGATCAACGCGGAGGACGGCCTCAAGCACGAGTACTTCCGGGAGACGCCGCTCCCCATCGACCCCTCCATGTTCCCCACGTGGCCTGCCAAGAGCGAGCAGCAGCGAGTGAAGCGCGGCACAAGCCCGCGGCCCCCCGAGGGCGGCCTGGGCTACAGCCAGCTGGGCGATGACGACCTGAAGGAGACGGGCTTCCACCTCACCACCACCAACCAGGGGGCCTCGGCTGCCGGCCCTGGCTTCAGCCTCAAGTTCTGA

XM_004863832.1 Coding sequence

Slc35e2 solute carrier family 35, member E2, transcript variant X4

Length: 1035 bp    Location: 8038006..8045819   Strand: +
>XM_004863832.1
ATGGTAAAGCTCTGGGACGCTAAACACTCGCACGACCTCAGCATGGCGGAGCCCCTGGCCCCAGGGGGGAGCTCACCCGGCTCCAGCTCCGGCTCCGGCTCTGAGGTGGAGCCCAAAGGGAAGCCACTGCTCGCCTGGGTCCCCCTGCTTGGCCACCGCGGCGAGAAGATCCTCTTTGCCAAGAGCGACGGCGGCGCTGAGGGCAGCCTGCTCACCGTCACCCTCACCGAGACCACCGTCATCGAGTCTGACCTGGGTGTGTGGAGCTCACGGGCGCTCACCTACCTCACGCTGTGGTTCTTCTTCAGCTTCTGCACGCTGTTCCTCAACAAGTACATCCTGTCACTGCTGGAGGGCGAGCCCAGCATGCTAGGCGCCGTGCAGATGCTGTCCACTACGCTCATCGGCTGCGTCAAGACTTTCGTCCCTTGCTGCCTGCACCAGCACAAGCCGCGGCTGTCCTACCCGCCCAACTTCATCATGACCATGCTCTTCGTGGGCCTCATGAGGTTTGCGACTGTGGTCCTGGGCTTGGTCAGCCTGAAAAACGTGGCAGTGTCGTTTGCAGAGACGGTGAAGAGCTCCGCCCCCATCTTCACGGTGATCATGTCGCGCATGATCCTGGGCGAGTACACAGGACTGCTGGTCAACCTGTCCCTCATCCCGGTCATGGGAGGGCTGGCGCTGTGCACCGCCACTGAGATCAGCTTCAACATCCTGGGCTTTTCGGCCGCACTGTCCACCAACATCATGGACTGTTTGCAGAACGTCTTCTCTAAGAAGCTGCTCAGCGGGGACAAGTACCGGTTCTCGGCCCCAGAGCTGCAGTTTTACACAAGTGCGGCCGCGGTGGTGATGCTCATCCCTGCCTGGATCTTCTTCATGGATGTACCTGTGATCGGCAGGAGCGGGAGGAGCTTCCACTACAGCCAGGATGTGGTGCTGCTGCTACTGACAGATGGTGCCCTGTTCCACCTGCAGAGTGTCACCGCATATGCCCTCATGGGCAAGATCTCCCCTGTGACCTTCAGGTGA

XM_004863836.1 Coding sequence

Mib2 mindbomb E3 ubiquitin protein ligase 2, transcript variant X4

Length: 2763 bp    Location: 8091719..8078677   Strand: -
>XM_004863836.1
ATGGACCCCGACCCCCAGGCGGGTGTTCAGGTGGGCATGCGCGTGGTGCGTGGTGTGGACTGGAAGTGGGGCCAGCAGGACGGAGGCGAGGGCGGCGTGGGCACCGTGGTAGAGCTGGGCCGGCATGGCAGCCCCTCGACACCTGACCGCACCGTCGTGGTGCAGTGGGACCAGGGCACCCGCACCAACTACAGAGCCGGCTACCAGGGTGCCCATGACCTGCTGCTCTACGACAACGCGCAGATTGGCATCCGCCACCCCAACATCATCTGCGACTGCTGCAAGAAGCACGGGCTGCGGGGCATGCGCTGGAAGTGCCGAGTCTGCTTCGACTACGACCTCTGCACGCAGTGCTACATGCACAACAAGCACGACCTCACCCACGCCTTCGAGCGCTATGAGACAGCCCACTCGCGCCCGGTCATGCTGGGTCCCCGCCAGGGCCTCCCGCGCGTCCCGCTCAGGGGCATCTTCCAGGGAGCGAAGGTGGTGCGAGGCCCCGACTGGGAGTGGGGCTCCCAGGACGGAGGGGAAGGGAAGCCGGGCCGCGTGGTGGACATCCGTGGCTGGGATGTGGAGACCGGCCGGAGTGTGGCCAGTGTGACCTGGGCTGACGGAACCACCAACGTGTACCGCGTGGGCCACAAGGGCAAGGTGGACCTCAAGTGTGTGGGCGAGGTGGCCGGCGGCTTCTACTACAAGGAGCACCTCCCACGGCTCGGCAAGCCGGCGGAGCTGCAGCGCAGGGTGAGTGCCGACGGCCAGCCCTTCCAGCGAGGGAACAAGGTCAAGTGTCTGTTGGACACAGAGGTCCTGAGGGACATGCAGGAAGGCCACGGCGGCTGGAACCCCAGGATGGCGGAGCACAACTCCTTCTGGGTGGGCGATGTGGTCCGGGTCATCGACGACCTTGACACCGTGAAGCAGCTGCAGGCTGGGCACGGCGAGTGGACGGATGACATGGCGCCTGCCCTGGGCAGAGTTGGAAAAGTGGTGAAGGTGTTTGGTGATGGCAGCCTGCGAGTGGCAGTTGGTGGGCAGCAGTGGACCTTCAGCCCCTCCTGCCTGGTGGCCTACCGCCCTGAGGAGGATACCAACCTGGACGTGGCCGAGCGTGCACGGGAGAACAAAAGCTCACTGAGTGTGGCCCTGGACAAGCTACGGGCCCAGAAGAGTGAGCCAGAGCACCCTGGGAGGCTGGTGGTGGAGGCGGCACTGGGTAATGTGGCACGGGCGCTGGACCTGCTGCAGAGACACCGAGAGCAGGTGGATACCAGGAACCAGGGCAGGACTGCCCTGCAGGTGGCCACCTACCTGGGACAGCTGGAGCTGGTGCATCTCCTGCTGCAGGCACAAGCAGATGTGGACCTGCTGGACGAGGAGGGCAACACCGCACTGCATTATGCGGCCTTGGGGAACCAGCCCGAGGCTGCCCGGGTGCTCCTGAGTGCAGGCTGTGGGGCCAACGCACTCAATGGCACCCGGAGCACAGCCCTGCATGTGGCAGTGCAGAGGGGCTTCCTGGAGGTGGTGCGGGTCCTGTGTGAGCGCGGCTGTGACGTCAACCTGCCCGACGCCCATGCAGACACACCCCTGCACTCAGCCATCTCGGCGGGCGCAGGCGCCAGTGGCATCGTCAAGGTCCTCACCGAGGTGCCAGGCATTAACATTACTGCCACCAACAGCCAGGGCTTCACACTGCTGCACCACGCGTCCCTCAAGGGCCATGCGCTGGCTGTCAGGAAGATTCTGGCACGGGCTCGGCAGCTGGTAGACGCCAAGAAAGAGGATGGCTTCACAGCCCTGCATCTGGCTGCCCTCAACAACCACCAAGAGGTGGCCCAGATCCTGATCCAGGAGGGCCGCTGCGACGTGAACGCGCGCAACCGCAAGCTCCAGTCCCCACTGCACCTGGCTGTGCAGCAAGGCCACGTGGGGCTGGTGCCCCTGCTGGTGGATTCGGGCTGCAGCGTCAACACGGAGGACGAGGAGGGGGACACAGCCCTGCACGTGGCCCTGCAGCGTCACCAACTGCTGCCCCTGGTGGCTGACAGGGCTGGGGGGGACCCAGGGCCCTTGCAGCTGCTGTCCAGGCTGCAGGCCTTGGGCCTCCCAGGCAGCACGGAGATGACCGTGGGCGCCGCGGTCGCCTGCTTTCTGGCACTGGAGGGCGCCGACGTGGGCTACACCAACCACCGCGGCCGGAGCCCCTTGGACCTGGCCTCCGAGGCCCGTGTGCTCAAGACCCTGCAGGGCTGTGCCCAGCGCTTCCGGGAGCGGCAGGCAGGCAGCGGGGTCGGCCGGGCCGCGGTCCCCAGGCTCACGCGCAGCACCCCGAACACCGTGACCAATCTGCACGTGGCCGCCGTGGGGCCCGAGGCCGCCGAGTGCCTGGTGTGCTCGGAGCTGGCGCCGCTGGTTCTGTTCTCACCGTGCCAGCACCGAACCGTGTGCGAGGAGTGTGCGCGCAGGATGAAGAAGTGCATCCGGTGCCAGGCGGCCATCGGCAAGAAGCTGCGCCCAGACGGCTCAGAGGTGGCGGGCGCTGCCCCTGCGTCCGGCCCGCCGCGGCAGCTGGTGGAGGAGCTGCAGAGCCGCTACCGGCAGATGGAGGAGCGCATCACCTGCCCGATCTGCATCGACAGCCACATCCGCCTGGTGTTCCAGTGCGGCCACGGCGCCTGCGCGCCCTGTGGCGCCGCGCTCAGCGCCTGCCCCATCTGCCGCCAGCCGATCCGCGACCGCATCCAGATCTTCGTGTGA

XM_004863833.1 Coding sequence

Mib2 mindbomb E3 ubiquitin protein ligase 2, transcript variant X1

Length: 2937 bp    Location: 8091719..8078677   Strand: -
>XM_004863833.1
ATGGACCCCGACCCCCAGGCGGGTGTTCAGGTGGGCATGCGCGTGGTGCGTGGTGTGGACTGGAAGTGGGGCCAGCAGGACGGAGGCGAGGGCGGCGTGGGCACCGTGGTAGAGCTGGGCCGGCATGGCAGCCCCTCGACACCTGACCGCACCGTCGTGGTGCAGTGGGACCAGGGCACCCGCACCAACTACAGAGCCGGCTACCAGGGTGCCCATGACCTGCTGCTCTACGACAACGCGCAGATTGGCATCCGCCACCCCAACATCATCTGCGACTGCTGCAAGAAGCACGGGCTGCGGGGCATGCGCTGGAAGTGCCGAGTCTGCTTCGACTACGACCTCTGCACGCAGTGCTACATGCACAACAAGCACGACCTCACCCACGCCTTCGAGCGCTATGAGACAGCCCACTCGCGCCCGGTCATGCTGGGTCCCCGCCAGGGCCTCCCGCGCGTCCCGCTCAGGGGCATCTTCCAGGGAGCGAAGGTGGTGCGAGGCCCCGACTGGGAGTGGGGCTCCCAGGACGGAGGGGAAGGGAAGCCGGGCCGCGTGGTGGACATCCGTGGCTGGGATGTGGAGACCGGCCGGAGTGTGGCCAGTGTGACCTGGGCTGACGGAACCACCAACGTGTACCGCGTGGGCCACAAGGGCAAGGTGGACCTCAAGTGTGTGGGCGAGGTGGCCGGCGGCTTCTACTACAAGGAGCACCTCCCACGGCTCGGCAAGCCGGCGGAGCTGCAGCGCAGGGTGAGTGCCGACGGCCAGCCCTTCCAGCGAGGGAACAAGGTCAAGTGTCTGTTGGACACAGAGGTCCTGAGGGACATGCAGGAAGGCCACGGCGGCTGGAACCCCAGGATGGCGGAGTTTATTGGACAGACGGGCACCGTGCACCGCATCACAGACCGTGGGGACGTGCGCGTGCAGTTCAGCCACGAGATCCGCTGGACCTTCCACCCTGGGGCTCTCACCAAGCACAACTCCTTCTGGGTGGGCGATGTGGTCCGGGTCATCGACGACCTTGACACCGTGAAGCAGCTGCAGGCTGGGCACGGCGAGTGGACGGATGACATGGCGCCTGCCCTGGGCAGAGTTGGAAAAGTGGTGAAGGTGTTTGGTGATGGCAGCCTGCGAGTGGCAGTTGGTGGGCAGCAGTGGACCTTCAGCCCCTCCTGCCTGGTGGCCTACCGCCCTGAGGAGGATACCAACCTGGACGTGGCCGAGCGTGCACGGGAGAACAAAAGCTCACTGAGTGTGGCCCTGGACAAGCTACGGGCCCAGAAGAGTGAGCCAGAGCACCCTGGGAGGCTGGTGGTGGAGGCGGCACTGGGTAATGTGGCACGGGCGCTGGACCTGCTGCAGAGACACCGAGAGCAGGTGGATACCAGGAACCAGGGCAGGACTGCCCTGCAGGTGGCCACCTACCTGGGACAGCTGGAGCTGGTGCATCTCCTGCTGCAGGCACAAGCAGATGTGGACCTGCTGGACGAGGAGGGCAACACCGCACTGCATTATGCGGCCTTGGGGAACCAGCCCGAGGCTGCCCGGGTGCTCCTGAGTGCAGGCTGTGGGGCCAACGCACTCAATGGCACCCGGAGCACAGCCCTGCATGTGGCAGTGCAGAGGGGCTTCCTGGAGGTGGTGCGGGTCCTGTGTGAGCGCGGCTGTGACGTCAACCTGCCCGACGCCCATGCAGACACACCCCTGCACTCAGCCATCTCGGCGGGCGCAGGCGCCAGTGGCATCGTCAAGGTCCTCACCGAGGTGCCAGGCATTAACATTACTGCCACCAACAGCCAGGGCTTCACACTGCTGCACCACGCGTCCCTCAAGGGCCATGCGCTGGCTGTCAGGAAGATTCTGGCACGGGCTCGGCAGCTGGTAGACGCCAAGAAAGAGGATGGCTTCACAGCCCTGCATCTGGCTGCCCTCAACAACCACCAAGAGGTGGCCCAGATCCTGATCCAGGAGGGCCGCTGCGACGTGAACGCGCGCAACCGCAAGCTCCAGTCCCCACTGCACCTGGCTGTGCAGCAAGGCCACGTGGGGCTGGTGCCCCTGCTGGTGGATTCGGGCTGCAGCGTCAACACGGAGGACGAGGAGGGGGACACAGCCCTGCACGTGGCCCTGCAGCGTCACCAACTGCTGCCCCTGGTGGCTGACAGGGCTGGGGGGGACCCAGGGCCCTTGCAGCTGCTGTCCAGGCTGCAGGCCTTGGGCCTCCCAGGCAGCACGGAGATGACCGTGGGCGCCGCGGTCGCCTGCTTTCTGGCACTGGAGGGCGCCGACGTGGGCTACACCAACCACCGCGGCCGGAGCCCCTTGGACCTGGCCTCCGAGGCCCGTGTGCTCAAGACCCTGCAGGGCTGTGCCCAGCGCTTCCGGGAGCGGCAGGCAGGCAGCGGGGTCGGCCGGGCCGCGGTCCCCAGGCTCACGCGCAGCACCCCGAACACCGTGACCAATCTGCACGTGGCCGCCGTGGGGCCCGAGGCCGCCGAGTGCCTGGTGTGCTCGGAGCTGGCGCCGCTGGTTCTGTTCTCACCGTGCCAGCACCGAACCGTGTGCGAGGGTGAGTGCCGGGCCCGCGGGGCGGGGGTCCTGGCCTGCGTGTGGCCAACGCGCTGCTGTCCCGCAGAGTGTGCGCGCAGGATGAAGAAGTGCATCCGGTGCCAGGCGGCCATCGGCAAGAAGCTGCGCCCAGACGGCTCAGAGGTGGCGGGCGCTGCCCCTGCGTCCGGCCCGCCGCGGCAGCTGGTGGAGGAGCTGCAGAGCCGCTACCGGCAGATGGAGGAGCGCATCACCTGCCCGATCTGCATCGACAGCCACATCCGCCTGGTGTTCCAGTGCGGCCACGGCGCCTGCGCGCCCTGTGGCGCCGCGCTCAGCGCCTGCCCCATCTGCCGCCAGCCGATCCGCGACCGCATCCAGATCTTCGTGTGA

XR_206047.1 Non-coding sequence

LOC101707677 PREDICTED: Heterocephalus glaber uncharacterized LOC101707677 (LOC101707677), misc_RNA.

Length: 709 bp     
>XR_206047.1
GGAGACCCCGCGCGTGTGACATTCCCGGCGCAGACTCGAGTGTACGGTTGCGATCGAACGGGTGGGCCTGGGCCGGCCGGGCCTGGGGCCTTCTGTGTCTGCGCGATCGCCTCCTGGCAAAGAAGGCCACATAGTGAGGAGAGGACGGTCCTCAGAAAGAGAGAGACTCGCGCCTGACGGTCAACTGGGCGAGCGGACACCGGGCACAGAAAGGGGCCGTGGGGAAGTCCCAGTAGATGAATAGCGTCCCACGTTCCAGCCAAGCACTCTCCCCCTGCAGCCTACACCAGCTGTTGCCTAGCCTGCCACACGGCTCTCAAAGAACCTTTTCTCTCTACTTTGCTGAAGTGAGTCCTCTAGCAGCCCCTGAGAAGGGCTGGAGTCGTTGTTTGACTGTATGTGAATGATATGGACAGTGGAAAGGCTCTGACCTGACCAAGGGCCCAAAGGGAGACAAAGAGGACTGCGAGGACCAGGCAACCTCATGCAAGAACCAAGGGACCCTCTGGAGTCCCTGCCCCAGCCTGCAATTCCCAGCTACACTGGACCTGCAGCTCTGCCTCAACGTGAGCCAGCACCAGCCTAGGAGGACCCAGTCCCTGACACTGCAGCTGCACCAGGAGAAAAAGACTGACTTTATCCTTGGTTTGAGAGAAAATTAAAATGGAAACAAAGCTTTTGTACATAGGGGAGGGGATTGAGGGGGAAA

XM_004863835.1 Coding sequence

Mib2 mindbomb E3 ubiquitin protein ligase 2, transcript variant X3

Length: 2829 bp    Location: 8091719..8078677   Strand: -
>XM_004863835.1
ATGGACCCCGACCCCCAGGCGGGTGTTCAGGTGGGCATGCGCGTGGTGCGTGGTGTGGACTGGAAGTGGGGCCAGCAGGACGGAGGCGAGGGCGGCGTGGGCACCGTGGTAGAGCTGGGCCGGCATGGCAGCCCCTCGACACCTGACCGCACCGTCGTGGTGCAGTGGGACCAGGGCACCCGCACCAACTACAGAGCCGGCTACCAGGGTGCCCATGACCTGCTGCTCTACGACAACGCGCAGATTGGCATCCGCCACCCCAACATCATCTGCGACTGCTGCAAGAAGCACGGGCTGCGGGGCATGCGCTGGAAGTGCCGAGTCTGCTTCGACTACGACCTCTGCACGCAGTGCTACATGCACAACAAGCACGACCTCACCCACGCCTTCGAGCGCTATGAGACAGCCCACTCGCGCCCGGTCATGCTGGGTCCCCGCCAGGGCCTCCCGCGCGTCCCGCTCAGGGGCATCTTCCAGGGAGCGAAGGTGGTGCGAGGCCCCGACTGGGAGTGGGGCTCCCAGGACGGAGGGGAAGGGAAGCCGGGCCGCGTGGTGGACATCCGTGGCTGGGATGTGGAGACCGGCCGGAGTGTGGCCAGTGTGACCTGGGCTGACGGAACCACCAACGTGTACCGCGTGGGCCACAAGGGCAAGGTGGACCTCAAGTGTGTGGGCGAGGTGGCCGGCGGCTTCTACTACAAGGAGCACCTCCCACGGCTCGGCAAGCCGGCGGAGCTGCAGCGCAGGGTGAGTGCCGACGGCCAGCCCTTCCAGCGAGGGAACAAGGTCAAGTGTCTGTTGGACACAGAGGTCCTGAGGGACATGCAGGAAGGCCACGGCGGCTGGAACCCCAGGATGGCGGAGCACAACTCCTTCTGGGTGGGCGATGTGGTCCGGGTCATCGACGACCTTGACACCGTGAAGCAGCTGCAGGCTGGGCACGGCGAGTGGACGGATGACATGGCGCCTGCCCTGGGCAGAGTTGGAAAAGTGGTGAAGGTGTTTGGTGATGGCAGCCTGCGAGTGGCAGTTGGTGGGCAGCAGTGGACCTTCAGCCCCTCCTGCCTGGTGGCCTACCGCCCTGAGGAGGATACCAACCTGGACGTGGCCGAGCGTGCACGGGAGAACAAAAGCTCACTGAGTGTGGCCCTGGACAAGCTACGGGCCCAGAAGAGTGAGCCAGAGCACCCTGGGAGGCTGGTGGTGGAGGCGGCACTGGGTAATGTGGCACGGGCGCTGGACCTGCTGCAGAGACACCGAGAGCAGGTGGATACCAGGAACCAGGGCAGGACTGCCCTGCAGGTGGCCACCTACCTGGGACAGCTGGAGCTGGTGCATCTCCTGCTGCAGGCACAAGCAGATGTGGACCTGCTGGACGAGGAGGGCAACACCGCACTGCATTATGCGGCCTTGGGGAACCAGCCCGAGGCTGCCCGGGTGCTCCTGAGTGCAGGCTGTGGGGCCAACGCACTCAATGGCACCCGGAGCACAGCCCTGCATGTGGCAGTGCAGAGGGGCTTCCTGGAGGTGGTGCGGGTCCTGTGTGAGCGCGGCTGTGACGTCAACCTGCCCGACGCCCATGCAGACACACCCCTGCACTCAGCCATCTCGGCGGGCGCAGGCGCCAGTGGCATCGTCAAGGTCCTCACCGAGGTGCCAGGCATTAACATTACTGCCACCAACAGCCAGGGCTTCACACTGCTGCACCACGCGTCCCTCAAGGGCCATGCGCTGGCTGTCAGGAAGATTCTGGCACGGGCTCGGCAGCTGGTAGACGCCAAGAAAGAGGATGGCTTCACAGCCCTGCATCTGGCTGCCCTCAACAACCACCAAGAGGTGGCCCAGATCCTGATCCAGGAGGGCCGCTGCGACGTGAACGCGCGCAACCGCAAGCTCCAGTCCCCACTGCACCTGGCTGTGCAGCAAGGCCACGTGGGGCTGGTGCCCCTGCTGGTGGATTCGGGCTGCAGCGTCAACACGGAGGACGAGGAGGGGGACACAGCCCTGCACGTGGCCCTGCAGCGTCACCAACTGCTGCCCCTGGTGGCTGACAGGGCTGGGGGGGACCCAGGGCCCTTGCAGCTGCTGTCCAGGCTGCAGGCCTTGGGCCTCCCAGGCAGCACGGAGATGACCGTGGGCGCCGCGGTCGCCTGCTTTCTGGCACTGGAGGGCGCCGACGTGGGCTACACCAACCACCGCGGCCGGAGCCCCTTGGACCTGGCCTCCGAGGCCCGTGTGCTCAAGACCCTGCAGGGCTGTGCCCAGCGCTTCCGGGAGCGGCAGGCAGGCAGCGGGGTCGGCCGGGCCGCGGTCCCCAGGCTCACGCGCAGCACCCCGAACACCGTGACCAATCTGCACGTGGCCGCCGTGGGGCCCGAGGCCGCCGAGTGCCTGGTGTGCTCGGAGCTGGCGCCGCTGGTTCTGTTCTCACCGTGCCAGCACCGAACCGTGTGCGAGGGTGAGTGCCGGGCCCGCGGGGCGGGGGTCCTGGCCTGCGTGTGGCCAACGCGCTGCTGTCCCGCAGAGTGTGCGCGCAGGATGAAGAAGTGCATCCGGTGCCAGGCGGCCATCGGCAAGAAGCTGCGCCCAGACGGCTCAGAGGTGGCGGGCGCTGCCCCTGCGTCCGGCCCGCCGCGGCAGCTGGTGGAGGAGCTGCAGAGCCGCTACCGGCAGATGGAGGAGCGCATCACCTGCCCGATCTGCATCGACAGCCACATCCGCCTGGTGTTCCAGTGCGGCCACGGCGCCTGCGCGCCCTGTGGCGCCGCGCTCAGCGCCTGCCCCATCTGCCGCCAGCCGATCCGCGACCGCATCCAGATCTTCGTGTGA

XM_004863837.1 Coding sequence

LOC101707916 E3 ubiquitin-protein ligase MIB2-like

Length: 1179 bp    Location: 8100603..8097152   Strand: -
>XM_004863837.1
ATGGACCCCGACCCCCAGGCGGGTGTTCAGGTGGGCATGCGCGTGGTGCGTGGTGTGGACTGGAAGTGGGGCCAGCAGGACGGAGGCGAGGGCGGCGTGGGCACCGTGGTAGAGCTGGGCCGGCATGGCAGCCCCTCGACACCTGACCGCACCGTCGTGGTGCAGTGGGACCAGGGCACCCGCACCAACTACAGAGCCGGCTACCAGGGTGCCCATGACCTGCTGCTCTACGACAACGCGCAGATTGGCATCCGCCACCCCAACATCATCTGCGACTGCTGCAAGAAGCACGGGCTGCGGGGCATGCGCTGGAAGTGCCGAGTCTGCTTCGACTACGACCTCTGCACGCAGTGCTACATGCACAACAAGCACGACCTCACCCACGCCTTCGAGCGCTATGAGACAGCCCACTCGCGCCCGGTCATGCTGGGTCCCCGCCAGGGCCTCCCGCGCGTCCCGCTCAGGGGCATCTTCCAGGGAGCGAAGGTGGTGCGAGGCCCCGACTGGGAGTGGGGCTCCCAGGACGGAGGGGAAGGGAAGCCGGGCCGCGTGGTGGACATCCGTGGCTGGGATGTGGAGACCGGCCGGAGTGTGGCCAGTGTGACCTGGGCTGACGGAACCACCAACGTGTACCGCGTGGGCCACAAGGGCAAGGTGGACCTCAAGTGTGTGGGCGAGGTGGCCGGCGGCTTCTACTACAAGGAGCACCTCCCACGGCTCGGCAAGCCGGCGGAGCTGCAGCGCAGGGTGAGTGCCGACGGCCAGCCCTTCCAGCGAGGGAACAAGGTCAAGTGTCTGTTGGACACAGAGGTCCTGAGGGACATGCAGGAAGGCCACGGCGGCTGGAACCCCAGGATGGCGGAGTTTATTGGACAGACGGGCACCGTGCACCGCATCACAGACCGTGGGGACGTGCGCGTGCAGTTCAGCCACGAGATCCGCTGGACCTTCCACCCTGGGGCTCTCACCAAGGTGCCTAGGGGCTGGGCCGAGCCTCCCCTGGGTACCTGCTTGGCTGCCAGGGCACCGGTGCCCCAGGAGTCGCAGACCTGGAGGGTGGGGTGGGGCCCAGAGGAGTGGCGGGCGCTGGAGAGGGCAGCTCAGATTGGACTCGAGGGCTGGGCTTGGTCTCCGAGGTCTCCCTGCGGGCGCAGCATAGGGCAGATCAGAGGCCTGTGA

XM_004863839.1 Coding sequence

LOC101708278 chromosome unknown open reading frame, human C1orf233, transcript variant X2

Length: 669 bp    Location: 8120230..8122176   Strand: +
>XM_004863839.1
ATGCGCGCCCCGCCGCTCCTGCTGCTCCTGGCCGCCTGCGCGCCGCCCGCCACCGCCGTGGCCGCCCCGACGCCGCCCGGCTGGGAGCCCGCGGCCGACGCGCCCTGGTGCCCCTACAAGGTGCTGTCCGAGGGCCCCGAGGCGGGCGGCGGGCGCCTCTGCTTCCGCAGTCCCTCGCGCGGCTTCCGCTGCCGGGCGCCCGATTGCGCGGCGCGCGCCTCGGCTGGGGGCTCGCTGCGCGCCAGCGTCCTGCGCAACCGCAGCGTGCTCCTGCAGTGGCGCCGCCCGCCGGGGCCCGCACGCCGCGCGCGCGCCTTCGCGCTCAACTGCTCGTGGCGCGGCGCCCACACGCGCTTCCCGTGCGAGCGCGTGCTGCTCGGCGCCGCCTGCCGCGACTACCTGCTTCCCTTCGTGCACGACGGCGTGCGCTACCGCCTGTGCCTGCAGCCGCTGCCGCCGCGCACCGAGCCCGCCGTGGCTGCGGAGCCCGCCGAGTGCGTGGAGTTCACGGCCGAGCCTGCCGCCATGCGCGAGATCGTGGTGGCCATGACGGCCGTGGGCGGCTCCATCTGCGTCATGCTGGTGGTCATCTGCCTGCTGGTGGCCTACATCACCGAGAACCTCATGAACCCCGCGCCACGGCGCCCCGGCCTGCGCAGGCAGGCCTGA

XM_004863838.1 Coding sequence

LOC101708278 chromosome unknown open reading frame, human C1orf233, transcript variant X1

Length: 669 bp    Location: 8120230..8122176   Strand: +
>XM_004863838.1
ATGCGCGCCCCGCCGCTCCTGCTGCTCCTGGCCGCCTGCGCGCCGCCCGCCACCGCCGTGGCCGCCCCGACGCCGCCCGGCTGGGAGCCCGCGGCCGACGCGCCCTGGTGCCCCTACAAGGTGCTGTCCGAGGGCCCCGAGGCGGGCGGCGGGCGCCTCTGCTTCCGCAGTCCCTCGCGCGGCTTCCGCTGCCGGGCGCCCGATTGCGCGGCGCGCGCCTCGGCTGGGGGCTCGCTGCGCGCCAGCGTCCTGCGCAACCGCAGCGTGCTCCTGCAGTGGCGCCGCCCGCCGGGGCCCGCACGCCGCGCGCGCGCCTTCGCGCTCAACTGCTCGTGGCGCGGCGCCCACACGCGCTTCCCGTGCGAGCGCGTGCTGCTCGGCGCCGCCTGCCGCGACTACCTGCTTCCCTTCGTGCACGACGGCGTGCGCTACCGCCTGTGCCTGCAGCCGCTGCCGCCGCGCACCGAGCCCGCCGTGGCTGCGGAGCCCGCCGAGTGCGTGGAGTTCACGGCCGAGCCTGCCGCCATGCGCGAGATCGTGGTGGCCATGACGGCCGTGGGCGGCTCCATCTGCGTCATGCTGGTGGTCATCTGCCTGCTGGTGGCCTACATCACCGAGAACCTCATGAACCCCGCGCCACGGCGCCCCGGCCTGCGCAGGCAGGCCTGA

XM_004863841.1 Coding sequence

Ssu72 SSU72 RNA polymerase II CTD phosphatase homolog (S. cerevisiae), transcript variant X2

Length: 585 bp    Location: 8147185..8177684   Strand: +
>XM_004863841.1
ATGCCGTCGTCGCCGCTGCGTGTGGCGGTGGTGTGCTCGAGCAACCAGAACCGGAGCATGGAGGCGCACAATATCCTCAGCAAGCGAGGCTTCAGCGTCCGGTCCTTCGGAACAGGAACTCACGTGAAGCTCCCAGGACCTGCACCCGACAAGCCCAATGTCTATGATTTCAAAACCACATATGACCAGATGTACAATGACCTTCTCAGGAAAGACAAAGAACTCTATACGCAGAATGGAATCTTGCATATGTTGGACAGAAATAAGAGAATCAAGCCTCGGCCAGAAAGGTTCCAGAACTGCAAAGACCTGTTTGACCTGATCCTGACCTGTGAGGAGAGGGTCTACGACCAGGTGGTGGAAGATCTGAATTCCAGAGAACAGGAGACCTGCCAGCCAGTACATGTGGTCAATGTGGACATTCAGGACAACCACGAGGAGGCCACCCTCGGGGCCTTCCTCATCTGCGAGCTCTGCCAGTGTATCCAGCACACGGAGGACATGGAGAACGAGATCGACGAGCTGCTGCAGGAGTTCGAGGAGAAGAGCGGCCGGGCCTTCCTGCACACCGTGTGCTTCTACTGA

XM_004863840.1 Coding sequence

Ssu72 SSU72 RNA polymerase II CTD phosphatase homolog (S. cerevisiae), transcript variant X1

High confidence: 3 potential gene matches
Length: 609 bp    Location: 8147185..8177291   Strand: +
>XM_004863840.1
ATGCCGTCGTCGCCGCTGCGTGTGGCGGTGGTGTGCTCGAGCAACCAGAACCGGAGCATGGAGGCGCACAATATCCTCAGCAAGCGAGGCTTCAGCGTCCGGTCCTTCGGAACAGGAACTCACGTGAAGCTCCCAGGACCTGCACCCGACAAGCCCAATGTCTATGATTTCAAAACCACATATGACCAGATGTACAATGACCTTCTCAGGAAAGACAAAGAACTCTATACGCAGAATGGAATCTTGCATATGTTGGACAGAAATAAGAGAATCAAGCCTCGGCCAGAAAGGTTCCAGAACTGCAAAGACCTGTTTGACCTGATCCTGACCTGTGAGGAGAGGGTCTACGACCAGGTGGTGGAAGATCTGAATTCCAGAGAACAGGAGACCTGCCAGCCAGTACATGTGGTCAATGTGGACATTCAGGACAACCACGAGGAGGCCACCCTCGGGGCCTTCCTCATCTGCGAGCTCTGCCAGTGTGTGAGTACTGGGATGCCTGGATGGGACAGCCCGAGGTCACCCTCTTGTGCTGCAGAGGCTGACAGTTGCGTGCAGTGCTGTGCACACCTTTGGCTCAAGAACCGCCTGGCACTTGTGTTCATGTGA

XM_004863844.1 Coding sequence

Atad3a ATPase family, AAA domain containing 3A, transcript variant X2

High confidence: 3 potential gene matches
Length: 1764 bp    Location: 8199169..8183459   Strand: -
>XM_004863844.1
ATGTCTTGGCTCTTTGGTATCAACAAAGGCCCCAAGGGCGAAGGCACGGGCCCCCCCTTGGCCTTGCCGCCCATGCCACCTGGGGCTGAGGGAGGCGGCGACCGCGGCGCGGGAGACCGGCCGGCGCCCAAGGACAAATGGAGCAACTTTGACCCGACAGGCCTGGAACGCGCGGCCAAGGCGGCGCGCGAGCTGGAGCACTCGCGACACGCCAAAGAGGCACTGAGTCTGGCACAGATGCAGGAGCAGACGCTGCAGCTGGAGCAACAGTCCAAGCTCAAGGAGTACGAGGCTGCCGTGGAGCAGCTGAAGAGCGAGCAGATCCGAGTGCAGGCTGAGGAGAGGAGGAAGACCCTGAGCGAGGAGACGCGGCAGCACCAGGCGAGGGCCCAGTACCAGGACAAACTGTCCCGGCAGCGCTACGATGACCAGCTGAAGCAGCAGCAACTTCTCAATGAGGAGAATTTACGGAAGCAGGAGGAGTCTGTGCAGAAGCAGGAGGCCATGCGGCAAGCCACTGTGGAGCGGGAGATGGAACTGCGGCACAGGAATGAGATGCTGCGTGTGGAGGCGGAGGCGCGGGCCCGGGCCAAGGCAGAGAGGGAGAATGCAGACATCATCCGTGAGCAGATCCGCCTGAAGGCCGCGGAGCACCGCCAGACCATCCTGGAGTCCATCAGGACCGCTGGCACCCTGTTTGGTGAAGGATTCCGTGCCTTTGTGACCGACTGGGACAAAGTGACAGCCACGGTGGCAGGGCTGACGCTGTTGGCCGTCGGGGTCTACTCTGCCAAGAACGCCACTGCCGTTGCTGGCCGGTACATTGAGGCCCGGCTAGGGACCCCGTCGCTGGTGCGGGAGACTTCTCGCATCTCGGTGCTGGAGGCGCTGAGGCACCCTGTGCAGGTCAGCAGGCGGCTGCTCAGCAGGCCCCAGGATGCACTGGAAGGAGTCATTCTCAGTCCCAGCCTGGAGGCGCGGGTGCGGGACATCGCCATAGCGACAAGGAACACCAAGAAGAACAGGAGTCTGTACCGGAACCTTCTGATGTACGGACCTCCCGGAACCGGCAAAACGCTGTTCGCCAAGAAACTGGCGCTGCACTCTGGCATGGACTACGCCATCATGACTGGCGGGGACGTGGCGCCCATGGGGCGGGAGGGAGTGACCGCCATGCACAAGGTCTTCGACTGGGCCAACAGCAGCAGGCGAGGCCTCCTGCTCTTCGTGGATGAAGCAGACGCCTTCCTAAGGAAGCGGGCGACTGAGAAGATCAGCGAAGACCTCAGGGCGACCCTGAACGCCTTCCTGCACAGAACGGGCCAGCACAGCAGCAAGTTCATGCTGGTGCTGGCCAGCAACCAGCCCGAGCAGTTCGACTGGGCCATCAACGACCGCATCGATGAGATGGTCTGCTTCGGCCTGCCGCTGCGCGAGGAGCGCGAGCGCCTGGTGAGGATGTATTTCGACAAGCATGTCCTTGAGCCAGCCACGGGAGGGAAGCAGCGTCTGAAGCTGGCTGAGTTTGACTACGGGAAGAAGTGCTCGGAGGTGGCCCAGCTGACGGAGGGCCTGTCGGGCCGGGAGATCGCCCAGCTGGCCGTGGCATGGCAGGCCATGGCGTATGCCTCTGAAGATGGGGTCCTCACCGAGGCCATGATGGATGCCCGTGTCCAGGATGCTGTCCAGCAGCACCAGCAGAAGATGCAGTGGCTGAAGGTGGAGGGACCCACAGTGACCGTGCCAGGCCCCCCTGACACTTGA

XM_004863845.1 Coding sequence

Tmem88b transmembrane protein 88B

Length: 498 bp    Location: 8217422..8214623   Strand: -
>XM_004863845.1
ATGAGTGAACAGGAAAGGGAGATAGAAGAGGACGAGGGAGGGGGCACCTCGGACATGGAGCCCATGCTGCCCCGAAGGCCTCCTGACCACCAGAGCTCGGGCCCGACCTTCGCACGGCAGCCAGCCCTGGCCACCCGGGGCCTCAGGACCTTGCTGCTGCCCGGCAGGGCCCTGGCCTGGCTCCTGCTCCACCTGCTGCTTCCTGGAGCAGTCTTCCTGCTGGTGCTGCTGCCTGCAGCAGCTGTGGTCTACCTGGGATTCCTGTGCCACTCGAGGGTCCACCCGGCTCCCCGCGCCCAGTGCCGCGCGCTGCTCTCGGACCGCGGCTCCGCGGCGCTCATCGTGCTCGGCTTCCTCTTGCTGCCACCGCTGCTCGTGCTCGCCTCTGCCGCCCGCGCCCGCCTGATGCGACGCCTCCGCCCACTGCTGTCGCCCCCCGCGTGGACCCCCTGGTTCCCCGGCCCCGACGGGGAGGAGCAGCTCTGCGCCTGCGTGTGA

XM_004863846.1 Coding sequence

Ankrd65 ankyrin repeat domain 65, transcript variant X1

Length: 1194 bp    Location: 8218724..8221905   Strand: +
>XM_004863846.1
ATGGACCCCAGCAGGCTGGGACCCAGTGCGCAAGACCTGGCCGAGGCGCAGCTGGAGCTGCGGTGGGTGGAGCTGGGCTCAGAGGCCCCTGGAGCCAGGGGAGAGAGGCCCAGCGCTCCCCAGGCCTGGAGCCGCCTGCTCCAGGCGGTGTGTTGCGGTTCCCCAGGCCTGGTAATGCAGCTGCTGCGGAAAGGCGCCAGCATAGAGGAGAGGGACGGCATGGGCCGCACCCCGCTGCACCTGGCGGTGCTGCGCGGCCACGCACCCCTCGTGCACCTGTTGCTGCGACGCGGGGCGCAGTCGGACGCGGCGGACGGCGCGGGGCGCACGCCGCTGCATGAGGCCGCCTGGCACGGGCACTCGCGCGTGGCCGAGCTGCTGCTGCGGCGCGGGGCCCCGGCGGGCGCGGCGGACGTCGCGGGGCTGGCACCACTGCACTGGGCCTGCGCGCTAGGCCGCACGCCACTCGCGGGTCTCCTGCTGGCCGCGCCGGGCCCTAGCCCCGACCAGATGGGGGATGCTCACGGCTGGACGGCAGCGCACTGGGCTGCGGTGGGCGCGCGGCTGCCGGCGCTCGAGCTGCTGGCGGCGCGCGACGGCGCGGACCTGGATGGCGCCCTGCTGGTGGCGGCCGAGGCCGGGCGCTCGGAGGCGCTGCGCCTCCTGCTGGCGCTCGGGGCGCGGGCAGACGGCGCAGACCGCGCGGGGACTTCGGCGCTCGGGCTGGCAGCGGGCCTGGGCCGCCTGGAGGTCATGGAGGTGCTGCTGGCCCACGGGGCCGACCCGGGAGTCCGGGATAGGCACGGCCGCTCCGCGCTCCACAGAGCTGCGGCTGGGGGACACCTGCCCGCCGTCCAGCTGTTGGTGGCCTGGGGAGCCGCGGTGGACGCGCAGGACTCTCTGGGCCTCACGCCCCTGCACCGCGCAGCGCGGGCCGGGCGCGCTGAGATCGCTGGCCACCTCCTGGACAGCGGTGCGCAGGTCAACGCTGCCGGCTGGCTCCACAAGACCCCGCTGCACCTCGCCACAGAGCACAACCAGAGAGCCACAGTGGAGCTCTTGCTGAGCCGAGGGGCCAGCCCCACCCTGAGGACGCAGTGGGGTGAAGTGGCCCAGACGTCCACTGGGGGCCCGCCCCAGGAGCTGCCTGGCCCCTGGCCGCCTCTGGAGGAGGCTGAGCCTCTGCACCCGTAG

XM_004863847.1 Coding sequence

Ankrd65 ankyrin repeat domain 65, transcript variant X2

Length: 1194 bp    Location: 8218724..8221905   Strand: +
>XM_004863847.1
ATGGACCCCAGCAGGCTGGGACCCAGTGCGCAAGACCTGGCCGAGGCGCAGCTGGAGCTGCGGTGGGTGGAGCTGGGCTCAGAGGCCCCTGGAGCCAGGGGAGAGAGGCCCAGCGCTCCCCAGGCCTGGAGCCGCCTGCTCCAGGCGGTGTGTTGCGGTTCCCCAGGCCTGGTAATGCAGCTGCTGCGGAAAGGCGCCAGCATAGAGGAGAGGGACGGCATGGGCCGCACCCCGCTGCACCTGGCGGTGCTGCGCGGCCACGCACCCCTCGTGCACCTGTTGCTGCGACGCGGGGCGCAGTCGGACGCGGCGGACGGCGCGGGGCGCACGCCGCTGCATGAGGCCGCCTGGCACGGGCACTCGCGCGTGGCCGAGCTGCTGCTGCGGCGCGGGGCCCCGGCGGGCGCGGCGGACGTCGCGGGGCTGGCACCACTGCACTGGGCCTGCGCGCTAGGCCGCACGCCACTCGCGGGTCTCCTGCTGGCCGCGCCGGGCCCTAGCCCCGACCAGATGGGGGATGCTCACGGCTGGACGGCAGCGCACTGGGCTGCGGTGGGCGCGCGGCTGCCGGCGCTCGAGCTGCTGGCGGCGCGCGACGGCGCGGACCTGGATGGCGCCCTGCTGGTGGCGGCCGAGGCCGGGCGCTCGGAGGCGCTGCGCCTCCTGCTGGCGCTCGGGGCGCGGGCAGACGGCGCAGACCGCGCGGGGACTTCGGCGCTCGGGCTGGCAGCGGGCCTGGGCCGCCTGGAGGTCATGGAGGTGCTGCTGGCCCACGGGGCCGACCCGGGAGTCCGGGATAGGCACGGCCGCTCCGCGCTCCACAGAGCTGCGGCTGGGGGACACCTGCCCGCCGTCCAGCTGTTGGTGGCCTGGGGAGCCGCGGTGGACGCGCAGGACTCTCTGGGCCTCACGCCCCTGCACCGCGCAGCGCGGGCCGGGCGCGCTGAGATCGCTGGCCACCTCCTGGACAGCGGTGCGCAGGTCAACGCTGCCGGCTGGCTCCACAAGACCCCGCTGCACCTCGCCACAGAGCACAACCAGAGAGCCACAGTGGAGCTCTTGCTGAGCCGAGGGGCCAGCCCCACCCTGAGGACGCAGTGGGGTGAAGTGGCCCAGACGTCCACTGGGGGCCCGCCCCAGGAGCTGCCTGGCCCCTGGCCGCCTCTGGAGGAGGCTGAGCCTCTGCACCCGTAG

XM_004863848.1 Coding sequence

Mrpl20 mitochondrial ribosomal protein L20

High confidence: 4 potential gene matches
Length: 450 bp    Location: 8228004..8231009   Strand: +
>XM_004863848.1
ATGGTCTTCCTCACGACGCGACTCTACCTGCGGAACCGCGTTACCGACCGCTACTTTCGGATCCAGGAGGTGCTGAAGCATGCGCGGCACTTTAGGGGGAGGAAGAACCGCTGCTACCGGCTGGCCGTCAGGGCTGTCACCAGGGCCTTCGTGAAATGCACCCGGGCCCGCAAGCTAAAGAAGCGGAACCTGAGGACCCTTTGGATTAATCGAATCACAGGTGCCTCCCAGGAACATGGCCTGAAGTACTGGGTGTTTGTTACCAATTTAATCAAGTGCCAGGTGGAGCTCAACAGGAAAGTACTTGCAGACCTGGCCATCTATGAACCAAAAACTTTTAAATCTTTGGCTGCTTTGGCCCAACGGAGGCGACAGGAAGGATTTGCAGCTGCCTTGGGGAATGGAAAGGAGCCTGAAGGCATATTTTCCAGGGTGGTGCACTACCACTGA

XM_004863850.1 Coding sequence

Ccnl2 cyclin L2, transcript variant X2

High confidence: 4 potential gene matches
Length: 1557 bp    Location: 8233575..8242542   Strand: +
>XM_004863850.1
ATGGCGACAGCGACGGCGGCCGCTGGAGTCCCCGGGTCGGCAGTGCTCACTGCGGCGGCCGGCGCCACCGGCTCGGGGGGCGCCACGCCCGGGTCGCAGGGGGTGCTGATCGGGGACAAGCTGTACTCAGGAGTGCTCATCACCCTGGAGAACTGCCTGCTGCCTGACGACAAACTGCGCTTCACACCATCCATGTCGAGCGGCCTGGACCCCGACACCGAGACCGGCCTCCGCGTGGTGGGCTGCGAACTCATCCAGGCGGCCGGCATCCTGCTGCGCCTGCCGCAGGTGGCCATGGCTACGGGGCAGGTGCTGTTCCAGCGATTCTTTTACACCAAGTCCTTCGTGAAGCATTCCATGGAGCATGTATCCATGGCTTGTGTGCACTTGGCCTCCAAAATAGAAGAAGCTCCAAGAAGAATTCGGGATGTCATCAATGTGTTTCATCGCCTTCGACATTTGAGAGAGAAAAAGAAACCTGTGCCTCTGCTACTGGACCAAGATTATGTTAACTTAAAGAACCAAATCATCAAGGCAGAAAGACGTGTTCTTAAGGAGCTGGGCTTCTGTGTCCACGTGAAGCACCCTCACAAGATAATCGTTATGTACCTTCAGGTGTTAGAATGTGAGCGTAACCAGCACCTGGTCCAGACTGCATGGAACTATATGAACGACAGCCTCCGCACAGACGTCTTTGTGCGCTTCCAGCCTGAGAGCATTGCCTGTGCCTGCATCTACCTCGCTGCCCGGACGCTGGAGATCCCTTTGCCCAATCGTCCCCATTGGTTTCTTTTGTTTGGAGCAACTGAAGAAGAAATTCAAGAAATCTGCTTAAAAATCCTGCAGCTTTATACGCGGAAAAAGGTGGATCTGACATACCTGGAGAGTGAAGTGGAGAAGAGAAAGCATGCCCTGGAGGAGGCAAAGGCACAAGCTCGGGGCCTGCTGCCTGGGGGTGCACCCGTAGCGGACAGCGGTGCGGGGTTCTCCCCTGCTCCGAGGCCAGAGTCGCCCACAGGAGGCAGAGGAAACAAGCCTTCTCCACTGTCTGTGAAGACTGCCAAGAGGAGAGTGGAGGGTGCAAAGAAAGCCAAGGCCGACAGCCCTGTGAATGGCTTGCCGAGGGTGCGCGAGAGCGAGAGCCAGAGCAGGGAGCAGAGCCGCTCGAGGTCCCCTTCCAGGTCCACGTCTCCCAAGAGGAGGAAAAGTGACAGCGGCTCCACGTCTGGGGGGTCCAAGTCACAGAGCCGCTCACGGAGTCGGAGTGACTCGCCACCAAGGCAGGCGCACCGAGGTGCTCCCTACAAAGGCTCTGAGGTGAGGAGCTCCCGGAAGCCCAAGGATTGCAAGTACCCCACTCAGAAGCCACACAAGTCTCGGAGCCGCAGCTCATCCCGTTCTCGAAGCCGGTCACGGGAGCGGCTGGATCACTCTGGAAAATACAAGAAGAAAAGTCATTACTACAGAGATCAGCGGCGGGAGCGCTCGAGGTCCTATGAGCGCAGTGGCCATCGCTATGAGCGGGACCACCCCGGGCACAGCAGGCATCGGCGGTGA

XM_004863851.1 Coding sequence

Ccnl2 cyclin L2, transcript variant X3

Length: 681 bp    Location: 8233575..8239640   Strand: +
>XM_004863851.1
ATGGCGACAGCGACGGCGGCCGCTGGAGTCCCCGGGTCGGCAGTGCTCACTGCGGCGGCCGGCGCCACCGGCTCGGGGGGCGCCACGCCCGGGTCGCAGGGGGTGCTGATCGGGGACAAGCTGTACTCAGGAGTGCTCATCACCCTGGAGAACTGCCTGCTGCCTGACGACAAACTGCGCTTCACACCATCCATGTCGAGCGGCCTGGACCCCGACACCGAGACCGGCCTCCGCGTGGTGGGCTGCGAACTCATCCAGGCGGCCGGCATCCTGCTGCGCCTGCCGCAGGTGGCCATGGCTACGGGGCAGGTGCTGTTCCAGCGATTCTTTTACACCAAGTCCTTCGTGAAGCATTCCATGGAGCATGTATCCATGGCTTGTGTGCACTTGGCCTCCAAAATAGAAGAAGCTCCAAGAAGAATTCGGGATGTCATCAATGTGTTTCATCGCCTTCGACATTTGAGAGAGAAAAAGAAACCTGTGCCTCTGCTACTGGACCAAGATTATGTTAACTTAAAGAACCAAATCATCAAGGCAGAAAGACGTGTTCTTAAGGAGCTGGGCTTCTGTGTCCACGTGAAGCACCCTCACAAGATAATCGTTATGTACCTTCAGGTGTTAGAATGTGAGCGTAACCAGCACCTGGTCCAGACTGCATGGGTAGCCTCTGAGGGTAAGTGA

XM_004863856.1 Coding sequence

Mxra8 matrix-remodelling associated 8, transcript variant X4

Length: 1380 bp    Location: 8258746..8264821   Strand: +
>XM_004863856.1
ATGGAGCTGTGGTCCCGAGTCCTGCTGTGGGAACTTGTGCTTCTACAGAGCTCCACTGTCCATCTGTTCTCAGGGCCCTGGGGGCCTGCGACCAGCGACAGCTCAGTGGTGTCCGAGTCTGCCGTGACCGGGGAGGCGGGCAGCCAGGCGGTACTGCGCTGCCAGAGCCCGCGCATGGTGTGGACGCAGGACCGACTGCACGACCGCCAGCGCGTTGTGCACTGGGACCTGGGTGGCCGTCCTGGCCCCGCACGCCGGCTTGTGGACATGTACTCGGCTGGCGAGGTGCGCGTGTACGAGCCCCGGGACCGCGGCCGCCTGGTGCTGTCGCCCTCTGCCTTCCAAGACGGCAACTTCTCCCTGCTCATCCGCGCCGTGGAAGACAGTGATGCGGGCCTGTACACCTGCAACCTGCACCACCACTACTGCCACCTGTACGAGAGCCTGGCCGTGCGCCTGGAGGTCACCGACCACCCCCGGGCCGCGCGCGCGCACTGGGACAATGAGAAGGAGGTGCTGACAGCGGCGCGAGGCACGGCCGCCCTGCTGACCTGCGTGAACCGCGCGGCCGTGTGGACCGAGCGGCACCTGGAGGAGGCGCAGCAGGTGGTGCACTGGGACCGGCAGCCGCCTGGGGTCCCGCACGACCGCGCAGACCGCCTGCTGGACCTGTATGCATCCGGCGAGCGCCGCGCCTATGCGCCGCCCTTCCTGCGCGACCGCGTGGCCGTGGGCGCCGACGCCTTCGCGCGCGGGGACTTTTCGCTGCGCATCGACCCCCTGGAGCCGGCCGATGAGGGCACCTACTCCTGCCACCTGCACCACCACTACTGCGGCCTGCACGAGCGCCGCGTCTTCCACCTGCGCGTGGCCGAGCCCGCCGCCCTCCCGTCGCGCCCGCGCACGCCTCCAGGCCCCAGCCCAGACCCCACGCTGGCGCGAGGCCGCAGCGTTGTCAATGTCATCGTCCCCGAGGGCCGAGCGCACTTCTTCCAGCAGCTGGGCTACGTGCTGGCCACGCTGCTTCTCTTCATCTTGCTGCTAATCACGGTGGTCCTGGCCGCCCGCCAGCGCCGCCAAGGGGGTGAGGCCGGCTACCCGGGCGGGCGGGCGCGGACGCGGGCACCGGAGCCCTTGACACCCTCACCCTCCGCAGGCGACGACCACGCGGACCAGAAGTCTGCGAAGGCCAAAGGCAAAGACTTGAACCTGGCCGAGTTTGCAGTGGCCACAGGGGACCAGTCTTCCTACAAGAGCGAGAATCTCCAGCTAGATTACAAAAACAACATCCTGAAGGAGAGGGTTGAACTGGCCCACAGCTCCCTGCCTGCCAAGAACATCGACCTGGACAAAGGTGAGTGCTGCCCACCTTCAGCCTGA

XM_004863855.1 Coding sequence

Mxra8 matrix-remodelling associated 8, transcript variant X3

Length: 1389 bp    Location: 8258746..8264821   Strand: +
>XM_004863855.1
ATGGAGCTGTGGTCCCGAGTCCTGCTGTGGGAACTTGTGCTTCTACAGAGCTCCACTGTCCATCTGTTCTCAGGGCCCTGGGGGCCTGCGACCAGCGACAGCTCAGTGGTGTCCGAGTCTGCCGTGACCGGGGAGGCGGGCAGCCAGGCGGTACTGCGCTGCCAGAGCCCGCGCATGGTGTGGACGCAGGACCGACTGCACGACCGCCAGCGCGTTGTGCACTGGGACCTGGGTGGCCGTCCTGGCCCCGCACGCCGGCTTGTGGACATGTACTCGGCTGGCGAGGTGCGCGTGTACGAGCCCCGGGACCGCGGCCGCCTGGTGCTGTCGCCCTCTGCCTTCCAAGACGGCAACTTCTCCCTGCTCATCCGCGCCGTGGAAGACAGTGATGCGGGCCTGTACACCTGCAACCTGCACCACCACTACTGCCACCTGTACGAGAGCCTGGCCGTGCGCCTGGAGGTCACCGACCACCCCCGGGCCGCGCGCGCGCACTGGGACAATGAGAAGGAGGTGCTGACAGCGGCGCGAGGCACGGCCGCCCTGCTGACCTGCGTGAACCGCGCGGCCGTGTGGACCGAGCGGCACCTGGAGGAGGCGCAGCAGGTGGTGCACTGGGACCGGCAGCCGCCTGGGGTCCCGCACGACCGCGCAGACCGCCTGCTGGACCTGTATGCATCCGGCGAGCGCCGCGCCTATGCGCCGCCCTTCCTGCGCGACCGCGTGGCCGTGGGCGCCGACGCCTTCGCGCGCGGGGACTTTTCGCTGCGCATCGACCCCCTGGAGCCGGCCGATGAGGGCACCTACTCCTGCCACCTGCACCACCACTACTGCGGCCTGCACGAGCGCCGCGTCTTCCACCTGCGCGTGGCCGAGCCCGCCGCCCTCCCGTCGCGCCCGCGCACGCCTCCAGGCCCCAGCCCAGACCCCACGCTGGCGCGAGGCCGCAGCGTTGTCAATGTCATCGTCCCCGAGGGCCGAGCGCACTTCTTCCAGCAGCTGGGCTACGTGCTGGCCACGCTGCTTCTCTTCATCTTGCTGCTAATCACGGTGGTCCTGGCCGCCCGCCAGCGCCGCCAAGGGGGCGACGACCACGCGGACCAGAAGTCTGCGAAGGCCAAAGGCAAAGACTTGAACCTGGCCGAGTTTGCAGTGGCCACAGGGGACCAGTCTTCCTACAAGAGCGAGAATCTCCAGCTAGGTAGGGGTTGGGACGCCCAGGCACAGGCCGGGCGGGCCTGGGCGGGGGACGGGGATCCTCAGCTTGCTCTCCCTGCACCAGATTACAAAAACAACATCCTGAAGGAGAGGGTTGAACTGGCCCACAGCTCCCTGCCTGCCAAGAACATCGACCTGGACAAAGGTGAGTGCTGCCCACCTTCAGCCTGA

XM_004863857.1 Coding sequence

Mxra8 matrix-remodelling associated 8, transcript variant X5

High confidence: 4 potential gene matches
Length: 1308 bp    Location: 8258746..8264821   Strand: +
>XM_004863857.1
ATGGAGCTGTGGTCCCGAGTCCTGCTGTGGGAACTTGTGCTTCTACAGAGCTCCACTGTCCATCTGTTCTCAGGGCCCTGGGGGCCTGCGACCAGCGACAGCTCAGTGGTGTCCGAGTCTGCCGTGACCGGGGAGGCGGGCAGCCAGGCGGTACTGCGCTGCCAGAGCCCGCGCATGGTGTGGACGCAGGACCGACTGCACGACCGCCAGCGCGTTGTGCACTGGGACCTGGGTGGCCGTCCTGGCCCCGCACGCCGGCTTGTGGACATGTACTCGGCTGGCGAGGTGCGCGTGTACGAGCCCCGGGACCGCGGCCGCCTGGTGCTGTCGCCCTCTGCCTTCCAAGACGGCAACTTCTCCCTGCTCATCCGCGCCGTGGAAGACAGTGATGCGGGCCTGTACACCTGCAACCTGCACCACCACTACTGCCACCTGTACGAGAGCCTGGCCGTGCGCCTGGAGGTCACCGACCACCCCCGGGCCGCGCGCGCGCACTGGGACAATGAGAAGGAGGTGCTGACAGCGGCGCGAGGCACGGCCGCCCTGCTGACCTGCGTGAACCGCGCGGCCGTGTGGACCGAGCGGCACCTGGAGGAGGCGCAGCAGGTGGTGCACTGGGACCGGCAGCCGCCTGGGGTCCCGCACGACCGCGCAGACCGCCTGCTGGACCTGTATGCATCCGGCGAGCGCCGCGCCTATGCGCCGCCCTTCCTGCGCGACCGCGTGGCCGTGGGCGCCGACGCCTTCGCGCGCGGGGACTTTTCGCTGCGCATCGACCCCCTGGAGCCGGCCGATGAGGGCACCTACTCCTGCCACCTGCACCACCACTACTGCGGCCTGCACGAGCGCCGCGTCTTCCACCTGCGCGTGGCCGAGCCCGCCGCCCTCCCGTCGCGCCCGCGCACGCCTCCAGGCCCCAGCCCAGACCCCACGCTGGCGCGAGGCCGCAGCGTTGTCAATGTCATCGTCCCCGAGGGCCGAGCGCACTTCTTCCAGCAGCTGGGCTACGTGCTGGCCACGCTGCTTCTCTTCATCTTGCTGCTAATCACGGTGGTCCTGGCCGCCCGCCAGCGCCGCCAAGGGGGCGACGACCACGCGGACCAGAAGTCTGCGAAGGCCAAAGGCAAAGACTTGAACCTGGCCGAGTTTGCAGTGGCCACAGGGGACCAGTCTTCCTACAAGAGCGAGAATCTCCAGCTAGATTACAAAAACAACATCCTGAAGGAGAGGGTTGAACTGGCCCACAGCTCCCTGCCTGCCAAGAACATCGACCTGGACAAAGAGTTCAGGAAGGAGTACTGCAAATAG

XM_004863859.1 Coding sequence

Mxra8 matrix-remodelling associated 8, transcript variant X7

Length: 1158 bp    Location: 8258746..8264821   Strand: +
>XM_004863859.1
ATGGAGCTGTGGTCCCGAGTCCTGCTGTGGGAACTTGTGCTTCTACAGAGCTCCACTGTCCATCTGTTCTCAGGGCCCTGGGGGCCTGCGACCAGCGACAGCTCAGTGGTGTCCGAGTCTGCCGTGACCGGGGAGGCGGGCAGCCAGGCGGTACTGCGCTGCCAGAGCCCGCGCATGGTGTGGACGCAGGACCGACTGCACGACCGCCAGCGCGTTGTGCACTGGGACCTGGGTGGCCGTCCTGGCCCCGCACGCCGGCTTGTGGACATGTACTCGGCTGGCGAGGTGCGCGTGTACGAGCCCCGGGACCGCGGCCGCCTGGTGCTGTCGCCCTCTGCCTTCCAAGACGGCAACTTCTCCCTGCTCATCCGCGCCGTGGAAGACAGTGATGCGGGCCTGTACACCTGCAACCTGCACCACCACTACTGCCACCTGTACGAGAGCCTGGCCGTGCGCCTGGAGGTCACCGACCACCCCCGGGCCGCGCGCGCGCACTGGGACAATGAGAAGGAGGTGCTGACAGCGGCGCGAGGCACGGCCGCCCTGCTGACCTGCGTGAACCGCGCGGCCGTGTGGACCGAGCGGCACCTGGAGGAGGCGCAGCAGGTGGTGCACTGGGACCGGCAGCCGCCTGGGGTCCCGCACGACCGCGCAGACCGCCTGCTGGACCTGTATGCATCCGGCGAGCGCCGCGCCTATGCGCCGCCCTTCCTGCGCGACCGCGTGGCCGTGGGCGCCGACGCCTTCGCGCGCGGGGACTTTTCGCTGCGCATCGACCCCCTGGAGCCGGCCGATGAGGGCACCTACTCCTGCCACCTGCACCACCACTACTGCGGCCTGCACGAGCGCCGCGTCTTCCACCTGCGCGTGGCCGAGCCCGCCGCCCTCCCGTCGCGCCCGCGCACGCCTCCAGGCCCCAGCCCAGACCCCACGCTGGCGCGAGGCCGCAGCGTTGTCAATGTCATCGTCCCCGAGGGCCGAGCGCACTTCTTCCAGCAGCTGGGCTACGTGCTGGCCACGCTGCTTCTCTTCATCTTGCTGCTAATCACGGTGGTCCTGGCCGCCCGCCAGCGCCGCCAAGGGGGCGACGACCACGCGGACCAGAAGTCTGCGAAGGCCAAAGGATTACAAAAACAACATCCTGAAGGAGAGGGTTGA

XM_004863854.1 Coding sequence

Mxra8 matrix-remodelling associated 8, transcript variant X2

Length: 1437 bp    Location: 8258746..8264821   Strand: +
>XM_004863854.1
ATGGAGCTGTGGTCCCGAGTCCTGCTGTGGGAACTTGTGCTTCTACAGAGGCCCTGGGGGCCTGCGACCAGCGACAGCTCAGTGGTGTCCGAGTCTGCCGTGACCGGGGAGGCGGGCAGCCAGGCGGTACTGCGCTGCCAGAGCCCGCGCATGGTGTGGACGCAGGACCGACTGCACGACCGCCAGCGCGTTGTGCACTGGGACCTGGGTGGCCGTCCTGGCCCCGCACGCCGGCTTGTGGACATGTACTCGGCTGGCGAGGTGCGCGTGTACGAGCCCCGGGACCGCGGCCGCCTGGTGCTGTCGCCCTCTGCCTTCCAAGACGGCAACTTCTCCCTGCTCATCCGCGCCGTGGAAGACAGTGATGCGGGCCTGTACACCTGCAACCTGCACCACCACTACTGCCACCTGTACGAGAGCCTGGCCGTGCGCCTGGAGGTCACCGACCACCCCCGGGCCGCGCGCGCGCACTGGGACAATGAGAAGGAGGTGCTGACAGCGGCGCGAGGCACGGCCGCCCTGCTGACCTGCGTGAACCGCGCGGCCGTGTGGACCGAGCGGCACCTGGAGGAGGCGCAGCAGGTGGTGCACTGGGACCGGCAGCCGCCTGGGGTCCCGCACGACCGCGCAGACCGCCTGCTGGACCTGTATGCATCCGGCGAGCGCCGCGCCTATGCGCCGCCCTTCCTGCGCGACCGCGTGGCCGTGGGCGCCGACGCCTTCGCGCGCGGGGACTTTTCGCTGCGCATCGACCCCCTGGAGCCGGCCGATGAGGGCACCTACTCCTGCCACCTGCACCACCACTACTGCGGCCTGCACGAGCGCCGCGTCTTCCACCTGCGCGTGGCCGAGCCCGCCGCCCTCCCGTCGCGCCCGCGCACGCCTCCAGGCCCCAGCCCAGACCCCACGCTGGCGCGAGGCCGCAGCGTTGTCAATGTCATCGTCCCCGAGGGCCGAGCGCACTTCTTCCAGCAGCTGGGCTACGTGCTGGCCACGCTGCTTCTCTTCATCTTGCTGCTAATCACGGTGGTCCTGGCCGCCCGCCAGCGCCGCCAAGGGGGTGAGGCCGGCTACCCGGGCGGGCGGGCGCGGACGCGGGCACCGGAGCCCTTGACACCCTCACCCTCCGCAGGCGACGACCACGCGGACCAGAAGTCTGCGAAGGCCAAAGGCAAAGACTTGAACCTGGCCGAGTTTGCAGTGGCCACAGGGGACCAGTCTTCCTACAAGAGCGAGAATCTCCAGCTAGGTAGGGGTTGGGACGCCCAGGCACAGGCCGGGCGGGCCTGGGCGGGGGACGGGGATCCTCAGCTTGCTCTCCCTGCACCAGATTACAAAAACAACATCCTGAAGGAGAGGGTTGAACTGGCCCACAGCTCCCTGCCTGCCAAGAACATCGACCTGGACAAAGGTGAGTGCTGCCCACCTTCAGCCTGA

XR_206049.1 Non-coding sequence

Dvl1 PREDICTED: Heterocephalus glaber dishevelled segment polarity protein 1 (Dvl1), transcript variant X5, misc_RNA.

Length: 2256 bp     
>XR_206049.1
CCCGGCGTCCGAGCCGCGGGCCGGGCCCTGAACACCGCGCGGGCCCCGCGCCTTCGCCGCGCGCCATGGCGGAGACCAAGATCATCTACCACATGGACGAAGAGGAGACGCCGTACCTGGTCAAGCTGCCGGTGGCCCCCGAGCGCGTCACGCTGGCGGACTTCAAGAACGTGCTCAGCAACCGGCCCGTGCACGCCTACAAATTCTTCTTCAAGTCCATGGACCAGGACTTCGGGGTGGTGAAGGAAGAGATCTTTGATGACAACGCCAAGCTGCCCTGCTTCAATGGCCGAGTGGTCTCCTGGCTGGTCCTGGCCGAGGGTGCTCACTCAGACGCCGGGTCCCAGGGCACCGACAGCCACACTGACCTGCCCCCGGCCCTCGAGCGGACAGGTGGCATCGGGGACTCCCGGCCGCCTTCCTTCCACCCAAATGTGGCCGGCAGCCGCGATGGGATGGACCACGAGACCGGCTCAGAGTCCGTGGTCAGTCGCCGGCGGGAGCGAGCCCGGCGCCGGAACCGTGAGGAGGCCACGCGCACCAATGGGCACCCAAGGGGCGACCGGCGGCGGGACCTGGGGCTGCCCTCGGACAGTGCATCTGCTGTGCTGAGCAGCGAACTGGAGTCCAGCAGCTTCGTGGACTCAGAGGACGACAGCACGAGCCGGCTGAGCAGTTCCACAGAGCAGAGCACCTCCTCTCGGCTTATCCGGAAGCACAAGCGCCGGCGCAGGAAGCAGCGCCTGCGGCAGACAGACCGGGCCTCCTCCTTCAGCAGCATCACTGACTCCACAATGTCGCTGAACATCATCACCGTCACACTCAACATGGAGAGGCACCACTTCCTGGGCATCAGCATCGTGGGCCAGAGCAATGACCGGGGTGACGGTGGCATCTACATCGGTTCCATCATGAAGGGCGGGGCAGTGGCCGCCGACGGCCGCATCGAGCCGGGCGACATGCTGCTGCAGGTGAACGATGTGAACTTTGAGAACATGAGCAACGACGACGCTGTGCGGGTGCTCCGGGAGATCGTGTCCCAAACAGGGCCCATCAGCCTCACAGTGGCCAAGTGCTGGGACCCAACCCCCCGGAGCTACTTCACTATCCCGAGGGCTGACCCTGTGCGGCCCATCGACCCAGCCGCCTGGCTGTCCCACACGGCAGCGCTGACCGGCGCCCTGCCCCGCTACGGTACGAGCCCCTGCTCCAGCGCCGTCACGCGCTCCAGCTCCTCCTCACTAACCAGCTCAGTGCCTGGCGCTCCACAGCTGGAAGAAGCACCTCTGACAGTGAAGAGCGACATGAGCGCCATTGCCCGGGTCATGCAGCTGCCAGACTCGGGATTGGAGATCCGTGACCGCATGTGGCTCAAGATTACCATTGCCAATGCTGTTATCGGGGCGGATGTGGTGGACTGGCTGTACACGCACGTAGAGGGCTTCCGGGAGCGGCGCGAAGCCAGGAAGTATGCCGGCAGCATGCTGAGGCGCGGCTTCCTGCGGCACACGGTGAACAAGATCACCTTCTCCGAGCAGTGCTACTATGTGTTCGGGGACCTGTGCAGTGATCTCGCAGCCCTGAATCTCCACAGTGGCTCCAGCGGAGCCTCGGATCAGGACACCCTGGCCCCACTGCCCCACCCAGCCACAGCCTGGCCCCTAGGCCAGGGCTACCCCTACCAGTACCCTGGGCCCCCACCCTGCTTCCCGCCTGCCTACCAGGACCCCAGCTTCAGCTATGGCAGTGGCAGCGCTGGGAGCCAGCAGAGTGAAGGTGAGAGCCTGCCAAGTGACCCTGTTGCCCACCGCCCACCCTGCTCTCCGGCTGCTGCCCTGAATCCCTGCTGTGTGCTTAGGACCTGGGGACTCCTCTGGGGTCTGGGGAGGAATTCAAGAAACCTGGGGCTTTGCCGTTGTGCCTGGGGTGGCTGGTGGTCCAGGTTTGGCAGAGGCCAGAGCTCAAGGATGGTGTGGTGGGGCCGTGTGGCCAGAGGGGTGATGATCAAGAGCATTGGTCAGGATCACTTTCCAGGCCTAGGACAGGAGGGTGGACTCCATCCCCGGGGCCCTGCAGCCCACAAGGAATTGTGGAGAGCTGGGAAGACCTTGGAGCCGAGCTGAGGCCGAGGGGCAACATGAAGACCGTGGCTGTGTGTGCAGGGTCTGGGGAGAGGTGCAGCCAGCTGGCCCAGGGGACAGGAGAGGGAGCAAAAGCAGTGGGTCCACCCGGAGCAGCCGCCGGGCCCCAGGCCGG

XR_206048.1 Non-coding sequence

Dvl1 PREDICTED: Heterocephalus glaber dishevelled segment polarity protein 1 (Dvl1), transcript variant X4, misc_RNA.

Length: 2443 bp     
>XR_206048.1
CCCGGCGTCCGAGCCGCGGGCCGGGCCCTGAACACCGCGCGGGCCCCGCGCCTTCGCCGCGCGCCATGGCGGAGACCAAGATCATCTACCACATGGACGAAGAGGAGACGCCGTACCTGGTCAAGCTGCCGGTGGCCCCCGAGCGCGTCACGCTGGCGGACTTCAAGAACGTGCTCAGCAACCGGCCCGTGCACGCCTACAAATTCTTCTTCAAGTCCATGGACCAGGACTTCGGGGTGGTGAAGGAAGAGATCTTTGATGACAACGCCAAGCTGCCCTGCTTCAATGGCCGAGTGGTCTCCTGGCTGGTCCTGGCCGAGGGTGCTCACTCAGACGCCGGGTCCCAGGGCACCGACAGCCACACTGACCTGCCCCCGGCCCTCGAGCGGACAGGTGGCATCGGGGACTCCCGGCCGCCTTCCTTCCACCCAAATGTGGCCGGCAGCCGCGATGGGATGGACCACGAGACCGGCTCAGAGTCCGTGGTCAGTCGCCGGCGGGAGCGAGCCCGGCGCCGGAACCGTGAGGAGGCCACGCGCACCAATGGGCACCCAAGGGGCGACCGGCGGCGGGACCTGGGGCTGCCCTCGGACAGTGCATCTGCTGTGCTGAGCAGCGAACTGGAGTCCAGCAGCTTCGTGGACTCAGAGGACGACAGCACGAGCCGGCTGAGCAGTTCCACAGAGCAGAGCACCTCCTCTCGGCTTATCCGGAAGCACAAGCGCCGGCGCAGGAAGCAGCGCCTGCGGCAGACAGACCGGGCCTCCTCCTTCAGCAGCATCACTGACTCCACAATGTCGCTGAACATCATCACCGTCACACTCAACATGGAGAGGCACCACTTCCTGGGCATCAGCATCGTGGGCCAGAGCAATGACCGGGGTGACGGTGGCATCTACATCGGTTCCATCATGAAGGGCGGGGCAGTGGCCGCCGACGGCCGCATCGAGCCGGGCGACATGCTGCTGCAGGTGAACGATGTGAACTTTGAGAACATGAGCAACGACGACGCTGTGCGGGTGCTCCGGGAGATCGTGTCCCAAACAGGGCCCATCAGCCTCACAGTGGCCAAGTGCTGGGACCCAACCCCCCGGAGCTACTTCACTATCCCGAGGGCTGACCCTGTGCGGCCCATCGACCCAGCCGCCTGGCTGTCCCACACGGCAGCGCTGACCGGCGCCCTGCCCCGCTACGGTACGAGCCCCTGCTCCAGCGCCGTCACGCGCTCCAGCTCCTCCTCACTAACCAGCTCAGTGCCTGGCGCTCCACAGCTGGAAGAAGCACCTCTGACAGTGAAGAGCGACATGAGCGCCATTGCCCGGGTCATGCAGCTGCCAGACTCGGGATTGGAGATCCGTGACCGCATGTGGCTCAAGATTACCATTGCCAATGCTGTTATCGGGGCGGATGTGGTGGACTGGCTGTACACGCACGTAGAGGGCTTCCGGGAGCGGCGCGAAGCCAGGAAGTATGCCGGCAGCATGCTGAGGCGCGGCTTCCTGCGGCACACGGTGAACAAGATCACCTTCTCCGAGCAGTGCTACTATGTGTTCGGGGACCTGTGCAGTGATCTCGCAGCCCTGAATCTCCACAGTGGCTCCAGCGGAGCCTCGGATCAGGACACCCTGGCCCCACTGCCCCACCCAGCCACAGCCTGGCCCCTAGGCCAGGGCTACCCCTACCAGTACCCTGGGCCCCCACCCTGCTTCCCGCCTGCCTACCAGGACCCCAGCTTCAGCTATGGCAGTGGCAGCGCTGGGAGCCAGCAGAGTGAAGGTGAGAGCCTGCCAAGTGACCCTGTTGCCCACCGCCCACCCTGCTCTCCGGCTGCTGCCCTGAATCCCTGCTGTGTGCTTAGGACCTGGGGACTCCTCTGGGGTCTGGGGAGGAATTCAAGAAACCTGGGGCTTTGCCGTTGTGCCTGGGGTGGCTGGTGGTCCAGGTTTGGCAGAGGCCAGAGCTCAAGGATGGTGTGGTGGGGCCGTGTGGCCAGAGGGGTGATGATCAAGAGCATTGGTCAGGATCACTTTCCAGGCCTAGGACAGGAGGGTGGACTCCATCCCCGGGGCCCTGCAGCCCACAAGGAATTGTGGAGAGCTGGGAAGACCTTGGAGCCGAGCTGAGGCCGAGGGGCAACATGAAGACCGTGGCTGTGTGTGCAGGGTCTGGGGAGAGGTGCAGCCAGCTGGCCCAGGGGACAGGAGAGGTGAGGGCAGGGGTGGCTGTGCCCAGGGAACCTGTTGGTCTTCAGACCCTGCACAGGCACTTGCTCCCACCCAAACCCGACCCGGCCGCTGCCAGGCCCAGCTGGTGGCAGGCCCGGTGTGTAACTTGTGCTATCCCTTGCTTTGTGCTGAGCAAGCCTTAGACTGAAGGACTAGCGGAGTGGACCCTCGGGGCCGGGAGCAAAAGCAGTGGGTCCACCCGGAGCAGCCGCCGGGCC

XM_004863861.1 Coding sequence

Dvl1 dishevelled segment polarity protein 1, transcript variant X1

High confidence: 4 potential gene matches
Length: 2088 bp    Location: 8267128..8278730   Strand: +
>XM_004863861.1
ATGGCGGAGACCAAGATCATCTACCACATGGACGAAGAGGAGACGCCGTACCTGGTCAAGCTGCCGGTGGCCCCCGAGCGCGTCACGCTGGCGGACTTCAAGAACGTGCTCAGCAACCGGCCCGTGCACGCCTACAAATTCTTCTTCAAGTCCATGGACCAGGACTTCGGGGTGGTGAAGGAAGAGATCTTTGATGACAACGCCAAGCTGCCCTGCTTCAATGGCCGAGTGGTCTCCTGGCTGGTCCTGGCCGAGGGTGCTCACTCAGACGCCGGGTCCCAGGGCACCGACAGCCACACTGACCTGCCCCCGGCCCTCGAGCGGACAGGTGGCATCGGGGACTCCCGGCCGCCTTCCTTCCACCCAAATGTGGCCGGCAGCCGCGATGGGATGGACCACGAGACCGGCTCAGAGTCCGTGGTCAGTCGCCGGCGGGAGCGAGCCCGGCGCCGGAACCGTGAGGAGGCCACGCGCACCAATGGGCACCCAAGGGGCGACCGGCGGCGGGACCTGGGGCTGCCCTCGGACAGTGCATCTGCTGTGCTGAGCAGCGAACTGGAGTCCAGCAGCTTCGTGGACTCAGAGGACGACAGCACGAGCCGGCTGAGCAGTTCCACAGAGCAGAGCACCTCCTCTCGGCTTATCCGGAAGCACAAGCGCCGGCGCAGGAAGCAGCGCCTGCGGCAGACAGACCGGGCCTCCTCCTTCAGCAGCATCACTGACTCCACAATGTCGCTGAACATCATCACCGTCACACTCAACATGGAGAGGCACCACTTCCTGGGCATCAGCATCGTGGGCCAGAGCAATGACCGGGGTGACGGTGGCATCTACATCGGTTCCATCATGAAGGGCGGGGCAGTGGCCGCCGACGGCCGCATCGAGCCGGGCGACATGCTGCTGCAGGTGAACGATGTGAACTTTGAGAACATGAGCAACGACGACGCTGTGCGGGTGCTCCGGGAGATCGTGTCCCAAACAGGGCCCATCAGCCTCACAGTGGCCAAGTGCTGGGACCCAACCCCCCGGAGCTACTTCACTATCCCGAGGGCTGACCCTGTGCGGCCCATCGACCCAGCCGCCTGGCTGTCCCACACGGCAGCGCTGACCGGCGCCCTGCCCCGCTACGGTACGAGCCCCTGCTCCAGCGCCGTCACGCGCTCCAGCTCCTCCTCACTAACCAGCTCAGTGCCTGGCGCTCCACAGCTGGAAGAAGCACCTCTGACAGTGAAGAGCGACATGAGCGCCATTGCCCGGGTCATGCAGCTGCCAGACTCGGGATTGGAGATCCGTGACCGCATGTGGCTCAAGATTACCATTGCCAATGCTGTTATCGGGGCGGATGTGGTGGACTGGCTGTACACGCACGTAGAGGGCTTCCGGGAGCGGCGCGAAGCCAGGAAGTATGCCGGCAGCATGCTGAGGCGCGGCTTCCTGCGGCACACGGTGAACAAGATCACCTTCTCCGAGCAGTGCTACTATGTGTTCGGGGACCTGTGCAGTGATCTCGCAGCCCTGAATCTCCACAGTGGCTCCAGCGGAGCCTCGGATCAGGACACCCTGGCCCCACTGCCCCACCCAGCCACAGCCTGGCCCCTAGGCCAGGGCTACCCCTACCAGTACCCTGGGCCCCCACCCTGCTTCCCGCCTGCCTACCAGGACCCCAGCTTCAGCTATGGCAGTGGCAGCGCTGGGAGCCAGCAGAGTGAAGGGAGCAAAAGCAGTGGGTCCACCCGGAGCAGCCGCCGGGCCCCAGGCCGGGAGAAGGAGCACCGGGCGGCTGGAGCTGGGGGCAGCGGCAGTGAGTCGGACCCTGCGGCGCCCAGCGGGGTGGGCAGCGCCGGCTGGTGGGAGCGCCCTGTAAGCCAGCTCAGCCAGGGCAGCAGCCCGCGTAGCCAGGCCTCGGCTGTTGCTCCAGGGCTCCCCCCACTGCACCCCCTGACAAAGGCCTACACAGTGGTGGGTGGGCCCCCGGGGGGACCTCCTGTCCGGGAGCTGGCTGCTATACCCCCAGAGCTGACTGGCAGCCGCCAGTCCTTCCAGAAGGCCATGGGAAACCCCTGCGAGTTCTTTGTGGACATCATGTAA

XM_004863863.1 Coding sequence

Dvl1 dishevelled segment polarity protein 1, transcript variant X3

Length: 1722 bp    Location: 8267128..8277247   Strand: +
>XM_004863863.1
ATGGCGGAGACCAAGATCATCTACCACATGGACGAAGAGGAGACGCCGTACCTGGTCAAGCTGCCGGTGGCCCCCGAGCGCGTCACGCTGGCGGACTTCAAGAACGTGCTCAGCAACCGGCCCGTGCACGCCTACAAATTCTTCTTCAAGTCCATGGACCAGGACTTCGGGGTGGTGAAGGAAGAGATCTTTGATGACAACGCCAAGCTGCCCTGCTTCAATGGCCGAGTGGTCTCCTGGCTGGTCCTGGCCGAGGGTGCTCACTCAGACGCCGGGTCCCAGGGCACCGACAGCCACACTGACCTGCCCCCGGCCCTCGAGCGGACAGGTGGCATCGGGGACTCCCGGCCGCCTTCCTTCCACCCAAATGTGGCCGGCAGCCGCGATGGGATGGACCACGAGACCGGCTCAGAGTCCGTGGTCAGTCGCCGGCGGGAGCGAGCCCGGCGCCGGAACCGTGAGGAGGCCACGCGCACCAATGGGCACCCAAGGGGCGACCGGCGGCGGGACCTGGGGCTGCCCTCGGACAGTGCATCTGCTGTGCTGAGCAGCGAACTGGAGTCCAGCAGCTTCGTGGACTCAGAGGACGACAGCACGAGCCGGCTGAGCAGTTCCACAGAGCAGAGCACCTCCTCTCGGCTTATCCGGAAGCACAAGCGCCGGCGCAGGAAGCAGCGCCTGCGGCAGACAGACCGGGCCTCCTCCTTCAGCAGCATCACTGACTCCACAATGTCGCTGAACATCATCACCGTCACACTCAACATGGAGAGGCACCACTTCCTGGGCATCAGCATCGTGGGCCAGAGCAATGACCGGGGTGACGGTGGCATCTACATCGGTTCCATCATGAAGGGCGGGGCAGTGGCCGCCGACGGCCGCATCGAGCCGGGCGACATGCTGCTGCAGGTGAACGATGTGAACTTTGAGAACATGAGCAACGACGACGCTGTGCGGGTGCTCCGGGAGATCGTGTCCCAAACAGGGCCCATCAGCCTCACAGTGGCCAAGTGCTGGGACCCAACCCCCCGGAGCTACTTCACTATCCCGAGGGCTGACCCTGTGCGGCCCATCGACCCAGCCGCCTGGCTGTCCCACACGGCAGCGCTGACCGGCGCCCTGCCCCGCTACGGTACGAGCCCCTGCTCCAGCGCCGTCACGCGCTCCAGCTCCTCCTCACTAACCAGCTCAGTGCCTGGCGCTCCACAGCTGGAAGAAGCACCTCTGACAGTGAAGAGCGACATGAGCGCCATTGCCCGGGTCATGCAGCTGCCAGACTCGGGATTGGAGATCCGTGACCGCATGTGGCTCAAGATTACCATTGCCAATGCTGTTATCGGGGCGGATGTGGTGGACTGGCTGTACACGCACGTAGAGGGCTTCCGGGAGCGGCGCGAAGCCAGGAAGTATGCCGGCAGCATGCTGAGGCGCGGCTTCCTGCGGCACACGGTGAACAAGATCACCTTCTCCGAGCAGTGCTACTATGTGTTCGGGGACCTGTGCAGTGATCTCGCAGCCCTGAATCTCCACAGTGGCTCCAGCGGAGCCTCGGATCAGGACACCCTGGCCCCACTGCCCCACCCAGCCACAGCCTGGCCCCTAGGCCAGGGCTACCCCTACCAGTACCCTGGGCCCCCACCCTGCTTCCCGCCTGCCTACCAGGACCCCAGCTTCAGCTATGGCAGTGGCAGCGCTGGGAGCCAGCAGAGTGAAGCCTTAGACTGA

XM_004863860.1 Coding sequence

LOC101715064 taste receptor type 1 member 3-like

Length: 2586 bp    Location: 8282386..8278868   Strand: -
>XM_004863860.1
ATGCCAGGGCTGGCGGTCCTGGGCCTCAGCCTAATGGCTCTCCTGGGCCTTGGAACAGGGGCCCTGTTGTGCCTGTCGAGGCAATTCAGGATGCAAGGGGACTACGTACTGGGAGGGCTCTTCCCCCTGGGCTTGGCTGAGGAGACTCAACTGCACCACAGGACACAGCCCGACAGCAGCACGTGCTCCAGGCTCTCGACTGTTGGCCTGTTCTTGGTGATGGCTTTGAAGATGGCCGTGGAGGAAATCAACAACAGTTCCACCCTGCTGCCTGGGCTGCAGCTGGGCTATGACCTCTTTGACACGTGCTCGGAGCCTGTGGTCACCATGAAGCCCAGTCTCATGTTCCTGGCCAAGGTGGACAGCCGCAACATTGCCGCCTACTGCAACTACACACAGTACCAGCCCCGAGTGCTGGCTGTCATTGGCCCCCACTCCTCGGAGCTCGCCCTCATCACGGGCAAGTTCTTTGGCTTCTTCCTCATGCCACAGGTCAGCTACGGCGCCAGCATGGACAGGCTGAGCAACCGGGAGACGTTTCCTTCCTTCTTCCGCACGGTGCCCAGCGACCGCGTCCAGCTGGAAGCCATGGTGACACTGCTGCAGTACTTTGGCTGGAACTGGGTGGCAGCCCTGGGTAGCGATGATGAGTACGGGAGAGAGGGTCTGAGCACCTTCTCAAACCTGGCCCATGCCCGGAACATCTGCGTTGCACACGAGAGCCTTGTGCTGCTGCCCCAAGCCGACAGCCTGCGGCTGGGCAAGGTGCAGGACGTGCTGCAGCAGGTGAACCAGAGCCAGGTGCAGGTGGTGGTGGTGTTCGCCTCGGCTCGTGCCGTCCACTCCCTGTTCCAGTACAGCATCAGCCACAGCCTCACGCCCAAGGTGTGGGTGGGCAGTGAGGCCTGGCTGACCTCAGATCTGGTCATGACGCTGCCTGGCATCCATCAGGTGGGCACCATTCTTGGGTTTGTGCAGAGAGGCGCCCTGCTGCCTGAGTTCTTCCACTACGTGAAGACCCACCTGGCCTTGGCCGCTGACCCAGCCTTCTGTGCCTCACTGGCTGCTGAGCGGGACCTGGAGGAGGACGTGGTGGGACCACGCTGCCCACAGTGTGATCAAATCACGTTGCAGAACCTGTCAGCAGGGCTGGTGCAGAACCTGTCAGCGGGCCAGCTGCACCACCAGATCTTTGCCACCTACGCAGCCGTGTACACTGTGGCCCAGGCCCTCCACCACACCCTGCAGTGCAGCCCCTGCAGCTGCCCCACACAGGAGCCCGTGAGGCCCTGGCAGCTCCTGGATAGCATGTACAACATGAGCTTCAGCATTCGAGGCCTGGAGCTGCAGTTCGATGACACTGGAAACGTGGATATGGAATATGACCTGAAAATGTGGGTGTGGCAGAGCCTGACACCCAAGTTGCACACCGTGGGGACCTTCAATGGCAGCCTCCAGCTGCAGCTCACACATATGCGCTGGCACACACCAACCAACCAGGCTCCAGTATCTCAGTGCTCCCAGGAGTGCCGTGAGGGCCAGGTGCGCCGGGTGAAGGGCTTCCATTCCTGCTGCTACGACTGTGTGGACTGCAAAGCAGGCAGCTACCGGCAGAACCCAGATGACCTCACCTGTACCCAATGTGACCAGGACCAGTGGTCCCCAGAGCGGAGCACTCGCTGCTTTCCCCGCAGGCCTAGGTTCCTGGAATGGGGAGATCCAGCCGTCCTGCTGCTGCTCTTGCTGCTGGGCCTGGTGCTGGGCCTGGTGCTGGCAGCCCTGGGGCTGTTCATCCACCACAGGGACAGCCCACTGGTCCAGGCCTCAGGGGGGCCACTGGCCTGCTTTGGCCTGGCCTGCCTGGGCCTTGTCTGCCTCAGTGTCCTCCTGTTCCCTGGCTGGCCGGGGTCCACCAGCTGCCTGGCCCAGCAGCCTGTGGCCCACCTCCCTCTCACAGGCTGCCTGAGTACACTGTTCCTGCAGGCAGCCGAGACCTTTGTAGAGTCGGAACTGCCGCTTGCCTGGGGAGCCTGGCTGCGTGGGCGCCTGCAGGGGCCCTGGGCCTGGCTGCTGGTGCTGCTGCTGACCCTGGTAGAGGGGGCACTCTGTGGCTGGTCCCTCACAGTCTTCCCATCCCAGGTGGTGATGGACTGGAGGGTGCTGCCCAGGGAGGTGCTGGTGCACTGCCACATGCACTCCTGGGTGGGCCTGGGCCTGGTGCATGTCACCAATGCCACACTGGCCTTCCTCTGCTTCCTGGGCACCTTTCTGGTGCAGAGCCAGCCTGGCCACTACAACCGCGCCCGTGGCCTCACCTTCGCCATGCTGGCCTACTTTGTCACCTGGGTCTCCTTCGTGCCCCTCCTGACCAACGTGCAGGTGTTGTACCAGCCTGCTGTGCAGATGGGTGCCATCCTCCTCTGTGCCCTGGGCATACTGGCCATCTTTCACCTGCCCAAGTGCTACCTGCTGCTGTGGTGGCCAGAGCTCAACACCCCCAAGTTCTTTCTAGGCCAGGGCGCTAGGGACACCACAGGTGGGGTTGGCAGCGCAGGCAGGGACAGGGCTCAGGGAGGCCCTGAGTGA

XM_004863866.1 Coding sequence

LOC101716570 glycolipid transfer protein domain-containing protein 1-like, transcript variant X3

Length: 645 bp    Location: 8287400..8283925   Strand: -
>XM_004863866.1
ATGGATGGTTCAGAGGCAGATTTCAACCTGAAAGTTGTCCTGGCCAGTTTTAAGCAGTGTTTCAACGAGAAGGAGGAGGTACTGCTGGACCACTACATCACCAGCTGGAAGGGACTGGTCAGGTTTTTGAACAGCCTGGGCACGGTCTTCTCATTCATTTCCAAGGACGTAGTCTCAAAGCTGCACATCATAGAGCACCTGAGGAGCAGCCCTCAGTGTGAGCACTACATGAGCCTGCAGTCCATGGTGGCCTACGAGGTGGGAAATGGGCTGGTAGACCTGGATCGTCGCTCCCGCCACCCTGACTCAGGCTGCCGAACCATGCTGCGCCTGCACCGGGCTCTGCACTGGCTGCAGCTGTTCCTGGAAGGCTTGCGCACTAGCCCTGAGGATGCACGCACCTCCACACTCTGCGTTGACTCCTACAATGCCTCGCTGGCTGCCTACCACCCGTGGATTGTGCGACAAGCTGTCACAGTAGCCTTCTGCACCCTGCCCTCACGCAAGGCCTTTCTTGAAGCCATGAACATGGGGTCCCCTAAGGAGGCTGTGGAGATGCTAGGCGAGGCCCTGCCCTTTATCAAGCAAGTGTATGACATTTCCCAGAGGCTCTATGCTGAGCACTCCCTGCTGAACCTGCCCTAG

XM_004863865.1 Coding sequence

LOC101716570 glycolipid transfer protein domain-containing protein 1-like, transcript variant X2

Length: 645 bp    Location: 8287400..8283925   Strand: -
>XM_004863865.1
ATGGATGGTTCAGAGGCAGATTTCAACCTGAAAGTTGTCCTGGCCAGTTTTAAGCAGTGTTTCAACGAGAAGGAGGAGGTACTGCTGGACCACTACATCACCAGCTGGAAGGGACTGGTCAGGTTTTTGAACAGCCTGGGCACGGTCTTCTCATTCATTTCCAAGGACGTAGTCTCAAAGCTGCACATCATAGAGCACCTGAGGAGCAGCCCTCAGTGTGAGCACTACATGAGCCTGCAGTCCATGGTGGCCTACGAGGTGGGAAATGGGCTGGTAGACCTGGATCGTCGCTCCCGCCACCCTGACTCAGGCTGCCGAACCATGCTGCGCCTGCACCGGGCTCTGCACTGGCTGCAGCTGTTCCTGGAAGGCTTGCGCACTAGCCCTGAGGATGCACGCACCTCCACACTCTGCGTTGACTCCTACAATGCCTCGCTGGCTGCCTACCACCCGTGGATTGTGCGACAAGCTGTCACAGTAGCCTTCTGCACCCTGCCCTCACGCAAGGCCTTTCTTGAAGCCATGAACATGGGGTCCCCTAAGGAGGCTGTGGAGATGCTAGGCGAGGCCCTGCCCTTTATCAAGCAAGTGTATGACATTTCCCAGAGGCTCTATGCTGAGCACTCCCTGCTGAACCTGCCCTAG

XM_004863864.1 Coding sequence

LOC101716570 glycolipid transfer protein domain-containing protein 1-like, transcript variant X1

Length: 765 bp    Location: 8286224..8283925   Strand: -
>XM_004863864.1
ATGACTCCTCCACCCCTCCTCCACCCTCCAGGGTGGACAGGAAATGAGGTGTGGAGTGAGCTGGGCAGCAAGACAGCCCAGAAGTTCTGTATAAAACTGTGTTTCAGTTCATATTGGAAAATGGATGGTTCAGAGGCAGATTTCAACCTGAAAGTTGTCCTGGCCAGTTTTAAGCAGTGTTTCAACGAGAAGGAGGAGGTACTGCTGGACCACTACATCACCAGCTGGAAGGGACTGGTCAGGTTTTTGAACAGCCTGGGCACGGTCTTCTCATTCATTTCCAAGGACGTAGTCTCAAAGCTGCACATCATAGAGCACCTGAGGAGCAGCCCTCAGTGTGAGCACTACATGAGCCTGCAGTCCATGGTGGCCTACGAGGTGGGAAATGGGCTGGTAGACCTGGATCGTCGCTCCCGCCACCCTGACTCAGGCTGCCGAACCATGCTGCGCCTGCACCGGGCTCTGCACTGGCTGCAGCTGTTCCTGGAAGGCTTGCGCACTAGCCCTGAGGATGCACGCACCTCCACACTCTGCGTTGACTCCTACAATGCCTCGCTGGCTGCCTACCACCCGTGGATTGTGCGACAAGCTGTCACAGTAGCCTTCTGCACCCTGCCCTCACGCAAGGCCTTTCTTGAAGCCATGAACATGGGGTCCCCTAAGGAGGCTGTGGAGATGCTAGGCGAGGCCCTGCCCTTTATCAAGCAAGTGTATGACATTTCCCAGAGGCTCTATGCTGAGCACTCCCTGCTGAACCTGCCCTAG

XM_004863868.1 Coding sequence

Pusl1 pseudouridylate synthase-like 1, transcript variant X2

High confidence: 3 potential gene matches
Length: 924 bp    Location: 8302320..8299631   Strand: -
>XM_004863868.1
ATGGGTCCACCGCTGCCTCCGGGCGCGGGGCTGGCGCGCTACCTCGTGTACTTCCAGTACGTGGGCACAGACTTTAACGGGGTCGCAGCTGTCAGGGGCGCCCAGCGGGCCGTCGGGGTCCAGAACTACCTGGAGGAGGCCGCGGAGCGGCTGAACTCGTTGGAGCCCATCAGGTTCACCCTCTCCAGCCGCACGGATGCAGGAGTTCATGCGCTCAGCAACGCGGCGCACCTCGATGTTCAGCGTCGCCAGGGCAAGCCGCCCTTCTCCCCCGAGATCTTGACTAAGGTTCTCAACACCCACCTGAGGCACCCAGCCATCAGGGTCCTGCAAGCCTTCCGAGTGCCCAGCGACTTTCATGCTCGCTATGCAGCCACCTCCAGGACATACCTGTACCGACTGGTGATGGGCTGTGACTGGCCTCACCAGCTGCCTGTGTTTGAACGAAACCTGTGCTGGGCTCTACCGGCAAACCACCTGGATGTGGCTGCCATGCAGGTGGCTGCCCAGCACCTCCTTGGGACACATGACTTCAGTGCCTTCCAGTCGACTGGTAGCCCAACCCCAAGCTCCATCCGCACACTGCGCCACATCTCAGTGTCCCCTGGCCTGGCCAGCCCCTTGGTCCCCTCCTCCCAGGAGAGCAGGAGGCTACAGTTCTGGAACCTGGAGTTTGAGAGCCAGTCTTTCCTGTACCGACAGGTTCGGAGGATGACAGCTGTGCTGGTGGCTGTGGGGCTAGGGGCTTTGAAGCCAGCCCAGGTGAAGGAGATTCTGGAAAGCAGAGACCCTCTAGGCAAGCACCAGGCTCGTGTGGCCCCAGCCCAGGGCTTGTTTCTGAAGTCAGTGATCTACGGAGACCTTGGGCAGGCTGGTCCTGCCTCCTACACCACACAGAGTCTACAGTATGGAAACTCCCAGTGA

XM_004863867.1 Coding sequence

Pusl1 pseudouridylate synthase-like 1, transcript variant X1

Length: 984 bp    Location: 8302320..8299692   Strand: -
>XM_004863867.1
ATGGGTCCACCGCTGCCTCCGGGCGCGGGGCTGGCGCGCTACCTCGTGTACTTCCAGTACGTGGGCACAGACTTTAACGGGGTCGCAGCTGTCAGGGGCGCCCAGCGGGCCGTCGGGGTCCAGAACTACCTGGAGGAGGCCGCGGAGCGGCTGAACTCGTTGGAGCCCATCAGGTTCACCCTCTCCAGCCGCACGGATGCAGGAGTTCATGCGCTCAGCAACGCGGCGCACCTCGATGTTCAGCGTCGCCAGGGCAAGCCGCCCTTCTCCCCCGAGATCTTGACTAAGGTTCTCAACACCCACCTGAGGCACCCAGCCATCAGGGTCCTGCAAGCCTTCCGAGTGCCCAGCGACTTTCATGCTCGCTATGCAGCCACCTCCAGGACATACCTGTACCGACTGGTGATGGGCTGTGACTGGCCTCACCAGCTGCCTGTGTTTGAACGAAACCTGTGCTGGGCTCTACCGGCAAACCACCTGGATGTGGCTGCCATGCAGGTGGCTGCCCAGCACCTCCTTGGGACACATGACTTCAGTGCCTTCCAGTCGACTGGTAGCCCAACCCCAAGCTCCATCCGCACACTGCGCCACATCTCAGTGTCCCCTGGCCTGGCCAGCCCCTTGGTCCCCTCCTCCCAGGAGAGCAGGAGGCTACAGTTCTGGAACCTGGAGTTTGAGAGCCAGTCTTTCCTGTACCGACAGGTTCGGAGGATGACAGCTGTGCTGGTGGCTGTGGGGCTAGGGGCTTTGAAGCCAGCCCAGGTGAAGGAGATTCTGGAAAGCAGAGACCCTCTAGGCAAGCACCAGGCTCGTGTGGCCCCAGCCCAGGGCTTGTTTCTGAAGTCAGTGATCTACGGAGACCTTGGGCAGGCTGGTAAGGGGTTCCCGCTGTGCACCCCACTGATTCCTCTCCCCAAGGCTGGATTCTCTGTAGGAGGGAGTTCATGGTGGCAGTCAAAGGCCTCCTATTGTCCTGGCCGATGA

XM_004863876.1 Coding sequence

Acap3 ArfGAP with coiled-coil, ankyrin repeat and PH domains 3, transcript variant X5

High confidence: 4 potential gene matches
Length: 2502 bp    Location: 8302884..8315878   Strand: +
>XM_004863876.1
ATGACGGTGGAGTTCGAGGAGTGCATCAAGGACTCGCCGCGCTTCAGAGCAACCATTGACGAGGTAGAAACAGATGTGGTGGAGATCGAGACCAAACTGGACAAGCTCGTCAGGCTGTGCAGTGGTATGATCGAGGCTGGCAAGGCCTATGTCACCACCAACAGGCTCTTCGTGAGTGGCGTCCGAGACCTGTCCCAGCAGTGCCAGGGTGACACTGTCATCTCCGAATGTCTGCAGCGCTTTGGAGACAGCTTGCAGGAGATGGTCAACTTCCACACGATCCTGTTTGACCAGGCCCAGAGATCTGTGCGACAGCAGCTCCACAACTTCATCAAAGAGGATGTTCGGAAGTTCAAAGAGACCAAGAAGCAGTTTGATAAGGTGCGGGAGGACATGGAGCTGTCCCTGGTGAGGAATGCCCAGGCCCCAAGGCACCGGCCCCACGAGGTAGAGGAGGCCACTGGTGCGCTCACACTCACCCGGAAGTGCTTCCGCCACCTCGCGCTAGACTATGTGCTCCAGATCAATGTCCTCCAGGCCAAGAAGAAGTTCGAGATCTTGGATTCTATGCTGTCCTTCATGCATGCCCAGTACAGCTTCTTCCAGCAGGGATACAGCCTCCTGCACCAGCTGGACCCCTACATGAAGAAGCTGGCAGCCGAGCTGGACCAGCTGGTGATCGATTCTGCCGTGGAGAAGCGGGAAATGGAGCGCAAGCACGCTGCCATCCAGCAGCGGACGCTACTGCAGGACTTTTCCTATGATGAATCCAAAGTAGAATTCGATGTGGATGCGCCCAGTGGCGTGGTGATGGAGGGCTATCTGTTCAAGAGGGCCAGCAATGCTTTCAAGACATGGAACCGGCGCTGGTTCTCCATCCAGAACAGCCAGCTGGTCTACCAGAAGAAGCTCAAGGACTCGCTGACTGTGGTGGTTGACGACCTCCGCCTATGCTCTGTGAAGCCATGTGAGGACACTGAGCGGAGGTTCTGCTTCGAGGTCGTGTCACCCACCAAGAGCTGCATGCTGCAGGCTGACTCAGAGAAGCTACGCCAGGCCTGGGTCCAAGCCGTGCAGGCCAGCATTGCCTCTGCCTACCGCGAGAGCCCTGACAGCTGCTACAGCGAGAGGCTGGACCGCACAGCATCCCCTTCCACAAGCAGCATCGACTCCACCACAGACTCTCGGGAGCGCGGCGTCAAGGGCGAGAGTGTGCTCCAGCGGGTGCAGAGTGTGGCTGGCAACAGCCAGTGTGGTGACTGTGGCCAGCCAGACCCCCGCTGGGCCAGCATCAACTTGGGTGTCCTGCTTTGCATCGAGTGCTCAGGCATCCACAGGAGCCTGGGTGTCCACTGCTCCAAGGTGCGATCTCTGACATTGGACTCCTGGGAGCCAGAGCTGCTGAAGCTGATGTGTGAGCTTGGAAACAGCACCATAAACCAGATCTATGAGTTCCAGTGTGAGGGTCCTAGTAGCAGGAAGCCCACAGCCAGCAGCCCCAGACAGGACAAGGAAGCCTGGATCAAAGACAAGTACGTGGAGAAGAAGTTCCTTGGGAAACTGCCCACAGTACCCACCCTGGAAGCCCCGAGGCACTGGCGAGGACAGAAGTGCCAGCGCCCCCACAGCTCCCCCCGACCCCCCCCCACCCGCCGAAAGGCCCGACTCGAGCCGGTCCTTCCCTCCTTGGCTGCTCTGTCTTCAGCAGGGACTCTGGAGCGCAGGTTCCGCCGGGACTCCCTCTTCTGCCCAGACGAGCTGGACTCTCTGTTCTCCTACTTCGATGCAGGGGCTGCGGGGGCTGGTCCACGCAGTCTGAGCAGCGACAGTGGCCTGGGGGGCAGCTCTGACGGCAGCTCCGATGTCCTGGCCTTCGGCGCGGGCTCGGTGGTGGACAGCGTCACCGAGGAGGAGGGTGCGGAGTCCGAGGAGTCCAGCGGTGAGGCGGATGGGGAGGCGGAGGCCTGGAGCCTGGCGGACGTGCGTGAGCTGCACCCCGGGCTGCTGGCGCACCGCGCGGCGCGCACCCGCGACCTCCCCGCACTGGCCGCGGCGCTGGCCCACGGGGCTGAGGTCAACTGGGCGGACGCGGAAGACGAGGGCAAGACTCCGCTGGTGCAGGCGGTGCTGGGGGGCTCCTTGATCATCTGTGAATTTCTTCTGCAAAACGGAGCTGATGTGAACCAAAGAGACAGCAGGGGCCGCGCGCCACTGCACCATGCCACGCTCCTTGGCCGCACCGGCCAGGTCTGCCTGTTCCTGAAGCGAGGAGCTGATCAGCACGCCCTGGACGAGCAGCAGCAGGACCCGCTGAGCATAGCTGTGCAGGCGGCCAATGCCGACATTGTCACACTGCTCCGTTTGGCCCGCATGGCTGAGGAGATGCGTGAGGCCGAGGCGCCCTCGGGCCAGCCGGGTCCACTGGCGGGCATCAGCCCCACTGAGCTCCAGTACCGCAGGTGCATCCAGGAATTCATTGGCCTCCACCTGGAGGAGAGCTAG

XM_004863879.1 Coding sequence

Ube2j2 ubiquitin-conjugating enzyme E2, J2

High confidence: 4 potential gene matches
Length: 780 bp    Location: 8326630..8347108   Strand: +
>XM_004863879.1
ATGAGCAGCAACAGCAACAAGAGAGCTCCGACAACAGCAACCCAGAGGCTGAAGCAGGACTACCTTCGGATTAAGAAAGACCCGGTGCCTTACATCTGTGCTGAACCCCTCCCTTCAAACATCCTTGAGTGGCACTATGTTGTCCGAGGCCCTGAGATGACCCCTTATGAAGGTGGCTATTATCACGGAAAGCTGATTTTCCCCAGAGAATTTCCTTTTAAGCCTCCTAGTATTTACATGATAACACCTAATGGAAGGTTCAAGTGCAACACAAGGCTGTGTCTCTCCATCACGGACTTCCACCCTGACACGTGGAACCCAGCCTGGTCCGTCTCCACAATCCTGACCGGACTGCTGAGCTTCATGGTGGAAAAGGGCCCCACCCTGGGCAGTATAGAGACATCAGACTTTACGAAAAGACAACTGGCAGCACAGAGTTTAGCGTTTAATTTAAAAGATAAAGTTTTTTGTGAATTATTTCCTGAAGTTGTGGAGGAAATTAAACAAAAACAGAAAGCACAAGACGAACTCAGTAGCAGGCCGCAGACTCTCCCCCTGCCAGACGTGGTTCCCGATGGGGAAACCCACCACGGGCAGAACGGGATCCAGCTTCTCAATGGGCATGCGCCTGGTGCTGGCCCGAACCTCGCAGGGCTCCAGCAGGCCAACCGGCACCATGGACTCCTGGGTGGCGCCCTGGCGAACTTGTTTGTCATAGTTGGGTTTGCAGCCTTTGCCTACACGGTCAAGTACGTGCTGAGGAGCATCGCACAGGAGTGA

XM_004863880.1 Coding sequence

Fam132a family with sequence similarity 132, member A

High confidence: 4 potential gene matches
Length: 927 bp    Location: 8348758..8352154   Strand: +
>XM_004863880.1
ATGCAGCCCTGGGCCCCGGCGGTGGCTGTGGTCCTCCTGTGGCCCCAGCTCGCGCTGCTCGGGGTTGGGGCGCGGCGGGAGCCCAAGAGGCCGCGCCCGCCCGGCCAGCGCGCAGAGTCCCCCAACACCACGGCGTCAGACAGCGAGGGGCTGCCAGGCTCCGCCAAGCCGCCGGAGGCCTCGGGCCCTGAGCTCTCAGATGCCCACATGACATGGCTGAACTTTGTCCGTCGGCCAGATGACAGCGCTTCCAAGCGCCGGTGCCGGTGCCGGGACAAGAAGTTGCGAGGCCTCTTGGGGCCCCCAGGACCGCCTGGGCCCCCTGGGCCCCCCGGCCCCCCTGGTGTGGAAGTCACCCCAGAGGCCCTGCTGCAGGAGTTTCAGGAGATGCTGAGAGAGGCCACAGAGCGAAGGTTCTCGGCACTGCTGGACGCATGGCTGCCGCAGGTGAGTGGCCGGCGACTGGTGGTCGAGGCCTTCCACTGCCGGCTGAATGCCCCCGTGCTGGTGGACCAGAGGACCCTGATGGAGATACGGGGCTTCCAGGCTCCCGCCGCCCAGGGCGCCTTCCTGAGGGGGTCCGGACTGAGCCTGGCCTCTGGCCGATTCACAGCCCCCACCTCTGCCATCTTCCAGTTCTCTGCCAGCCTTCATGTGGACCGCAGTGCACTGCAGGGCAGGGCCCAGCTGAGAGCCCGGGACACTGTGCGTGTCCTCATCTGCATCGAGTCCTTGTGCCAGCGCTACACGTCCCTGGAGGCCGTCTCAGGCCTGGAGAGCAATAGCAGGGTCTTCACAGCACAGGTGCAAGGGTTGCTGCAGCTGCAGGCTGGACAGTACGCCTCTGTGTTTGTGGACAATGGCTCTGGGGCGGCCCTCACCATCCAGGGGGGCTCCACCTTCTCTGGGTTGCTCCTGGGTACATGA

XM_004863881.1 Coding sequence

B3galt6 UDP-Gal:betaGal beta 1,3-galactosyltransferase polypeptide 6

High confidence: 4 potential gene matches
Length: 969 bp    Location: 8361817..8360321   Strand: -
>XM_004863881.1
ATGAAGCTGTTTCGCCGCGCGTGGCGGCGCCGGACGGCGCTCGGCCTGGGCGGCCTCGCGTTCGGCGGCGCCGCGCTGCTGTATCTGGCGCGCTGCGCGTCCCAGCCCGCCGCCCCCGCCACCGCCTCGCCCCGCGCCGCCGCCTTCCTGGCCGTGCTGGTGGCCAGCGCGCCCCGCGCCGCCGAACGCCGCAGCGCTGTCCGCAGCACGTGGCTGGCAGCGGCGCGGCGCGACGGCCCGGGCGACGTGTGGGCGCGCTTCGCCGTGGGCACGGGCGGCCTGGGCGCCGAGGAGCGTCACGCCCTGGAGCGCGAGCAGGCACTGCATGGAGACCTGCTGCTGCTGCCCACGCTGCGCGACGCCTACGAGAACCTCACGGCCAAGGTGCTGGCCATGCTGGCCTGGCTGGACGAGCACGTGGCCTTCGAGTTCGTGCTGAAGGCAGACGACGACACCTTCGCGCGGCTGGACGCGTTGCTGGCCGAGCTGCGCGCGCGCGAGCCCTCGCGCCGCCGCCGTCTCTACTGGGGCTTCTTTTCAGGCCGCGGGCGCGTGAAGCCGGCGGGGCGCTGGCGTGAAGCCGCCTGGCAGTTGTGCGACTACTACCTGCCCTATGCGCTGGGCGGTGGCTACGTGCTCTCAGCTGACCTGGTGCGCTACCTGCGCCGCAGCCGTGTGTACCTGCGCGAGTGGCACAGCGAGGACGTGTCGCTGGGCGCCTGGCTGGCACCCGTGGACGTGCAGCGCGAGCACGACCCGCGCTTCGACACCGAGTACAAGTCCCGCGGCTGCAACAACAAGTACCTGGTGACTCACAAGCAGAGCCCGGAGGACATGCTGGAGAAGCAGCGCTCGCTGCTGCACGATGGCCGGCTGTGCGCGAGCGAGGTGCAGCTGCGCCTCTCCTACGAGTACGACTGGTCGGCGCCGCCCTCGCAGTGCTGCCAGCGGAAGGAGGGCATCCCCTGA

XM_004863884.1 Coding sequence

Sdf4 stromal cell derived factor 4, transcript variant X3

Length: 1074 bp    Location: 8362108..8371967   Strand: +
>XM_004863884.1
ATGGCAATGGTTTCCAGGCAAGCCCCCCTCTGTGGCCTGGCCACACACTGCTTCTGGCTCCTGGGTTTTGTCCTTTTGATGGAGGCATCTGCACGGCCGGCCAATCACTCGTCCACCCGGGAGAGAGCGGCCAACAGGGAGGAAAAGGAGCTCCTGCCCCCAGACCACCTGAATGGGGTGAAGCTGGAGATGGATGGGCACCTCAACAAGGATTTCCACCAGGAGGTCTTCCTGGGGAAGGACGTGGGTGGCTTTGACGAGGACTCAGAGCCTCGCAGGAGCCGGAGGAAGCTGATGGTCATCTTCTCCAAAGTGGATGTGAACACAGACCGGAGGATCAGCGCCAAGGAGATGCAGCGCTGGATCATGGAGAAGACAGCTGAACACTTCCAGGAGGCTGTGAAGGAGAACAAGATGCACTTCCGGGCTGTGGACCCTGACGGCGATGGCCACGTGTCCTGGGATGAATACAAAGTGAAGTTTCTGACAAGCAAAGGCCACAATGAGAAAGAGGTTGCTGATGCGATCAGGAACCACGAGGAGCTGAAGGTGGATGAGGAGACACAGGAAGTCCTCGAGAACCTCAAAGACCGCTGGTATCAGGCAGACAACCCCCCTGCAGACCTGCTGCTGACTGAGGACGAGTTCTTGTCTTTCCTTCACCCTGAGCACAGCCGGGGCATGCTCAAGTTCATGGTCAAGGAGATTGTCCGGGACTTGGACCAGGATGGTGACAAGCAGCTTTCTCTGCCTGAGTTCATCTCCCTGCCTGTGGGCACAGTCGAGAACCAACAGGGCCAGGACATGGATGACAGCTGGGTCAGAGACAGGAAGAAAGAGTTCGAAGAGCTGATAGACTCCAACCATGATGGGATTGTGACCATGGAGGAGCTAGAGAACTACATGGACCCCATGAACGAGTACAGTGCCCTCAATGAGGCCAAGCAGATGATCGCCATTGCCGATGAGAACCAGAACCAGCACCTGGAGCCGGAGGAGATCCTCAAGTACAGCGAGTTCTTCACGGGCAGCAAGCTGGTGGACTACGCCCGGAACGTGCACGAGGAGTTCTGA

XM_004863902.1 Coding sequence

Klhl17 kelch-like family member 17, transcript variant X3

Length: 1926 bp    Location: 8550603..8545913   Strand: -
>XM_004863902.1
ATGCAGCCGCGCGGCGAGCGCCCGGCCGGCAGGACGCAGAGCCCGGAGCACGGCAGCCCGGGGCCCGGGCCCGAGGCGCCGCCGCCGCCACCGCCGCCGCCCGCCCCCGAGGCAGAGCGTGCCAGGCCCAGGCAGGCCCGGCCCCCAGCCCCCATGGAGGGAGCCATGCAGCTGCTGAGCCGGGAGGGCCACAGTGTGGCCCACAACTCCAAGCGGCACTACCACGACGCCTTCGTAGCCATGAGCCGCATGCGGCAGCGCGGCCTCCTGTGTGACATCGTCCTGCACGTGGCCGCCAAGGAGATCCGTGCACACAAGGTGGTGCTGGCCTCCTGCAGCCCCTACTTCCACGCCATGTTCACAAATGAGATGAGTGAGAGCCGCCAAACACATGTGACACTGCATGACATCGACCCTCAGGCCTTGGATCAACTGGTGCAGTTTGCATACACAGCTGAGATTGTGGTGGGCGAGGGCAATGTGCAGACACTGCTCCCTGCCGCCAGCCTTCTGCAGCTGAACGGTGTCAGAGATGCGTGCTGCAAGTTTCTGCTGAGTCAGCTGGACCCCTCCAACTGCCTGGGAATCCGGGGCTTTGCCGACACACACTCGTGCAGTGACCTACTCAAAGCAGCACACAGGTACGTGCTGCAGCACTTCGTGGACGTGGCCAAGACCGAGGAATTCATGCTCTTGCCACTGAAGCAGGTGCTGGAATTGGTCTCTAGCGACAGCCTGAATGTGCCTTCAGAGGAAGACGTTTACCGCGCAGTCCTGAGCTGGGTTAAACACGATGTGGACACTCGGAGGCAACACGTCCCCCGGCTGATGAAGTGTGTGCGGCTGCCCCTTCTGAGCCGTGACTTTCTGCTGGGCCACGTGGATGCTGAGAGCCTTGTGCGCCATCATCCTGACTGCAAAGACCTGCTCATTGAGGCCCTCAAGTTCCACCTGCTGCCCGAGCAGAGGGGCGTTCTAGGCACCAGCCGCACTCGGCCCCGGCGCTGTGAGGGTGCCGGCCCTGTGCTCTTTGCCGTGGGTGGTGGGAGCCTATTTGCCATCCATGGGGACTGTGAAGCATATGACACCCGAACTGACCGCTGGCATGTGGTGGCTTCCATGTCTACACGTCGAGCCAGGGTGGGAGTGGCTGCTGTTGGAAACAGGCTGTACGCTGTGGGCGGCTACGATGGGACCTCAGACCTGGCTACTGCGGAGTCATATGACCCTGTGACCAATACATGGCAGCCCGAGGTGTCCATGGGCACAAGGCGAAGCTGTCTGGGTGTAGCTGCCCTGCACGGGCTTCTGTACGCGGCTGGCGGCTATGACGGGGCCTCCTGCCTCAACAGTGCTGAACGCTATGACCCCCTGACGGGAACGTGGACATCCATTGCTGCCATGAGCACCAGGAGGCGCTATGTGCGTGTGGCCACACTCGATGGGAACCTGTATGCCGTGGGTGGCTATGACAGCTCCTCACACCTGGCCACTGTGGAGAAGTATGAGCCCCAGGTGAACTCATGGACCCCCGTGGCCTCCATGCTGAGCAGGCGAAGCTCTGCTGGCGTGGCAGTGCTAGAAGGCGCCCTGTACGTGGCAGGGGGAAATGATGGCACCAGCTGTCTCAACTCAGTGGAGAGATACAGCCCCAAGGCTGGGGCCTGGGAGAGCGTGGCGCCCATGAACATCCGCAGGAGCACGCACGACTTGGTGGCCATGGATGGATGGCTATATGCCGTGGGGGGCAACGACGGCAGCTCCAGCCTCAACTCCATTGAGAAGTACAACCCGAGGACCAACAAATGGGTGGCCGCCTCCTGCATGTTCACACGGCGCAGCAGCGTGGGTGTGGCAGTGCTGGAGCTGCTCAACTTCCCACCGCCGTCCTCACCGACGCTCTCCGTGTCCTCCACCAGCCTCTGA

XM_004863907.1 Coding sequence

Noc2l nucleolar complex associated 2 homolog (S. cerevisiae), transcript variant X3

Length: 2247 bp    Location: 8551411..8563760   Strand: +
>XM_004863907.1
ATGGCGGCGCGTGGCCGAAAGAGGCGCCTGGCGGAGTTGACGGTGGACGAGTTTCTTGCTTCGGGTTTTGATTCCGAGTCGGAGTCGGAGCCTGAAGGAGCTCCGGAGGCGGCGATACCCGGAACCCACGAACGCGGAACTGCCTGGAACTCGTGTGGGCCGGACCGGGGCGCCACGGCTAGCAGGCATAAAGGCCGTGCCTCTGAGCACAAAGACCAGCTCTCTCGGCTGAAGGACAAAGACCCTGAGTTCTACAAGTTCCTGCAGGAGAATGACCAGAGCCTACTGAATTTCAGTGACTCAGATAGCTCTGAGGAGGGAGACGAGCAGTTCCACTCTCTGCCGGATGCACTGGAGGAAGCAAGTGAAGAGGATGATGGAGGGGAGGATGGAGACAGAGTGCCCAGAGGACTGCAGGGGAAGAAGAATGAATCTACTCCTGTGACCCTTGGCATGGTTGAGCAGTGGAAGCAGGCAGCAAAGCAGCATCTCACTGCCAAGCTGTTTCATGAAGTTGTGCAGGCGTTCCGAGCTGCTGTGGCCACCACCCAGGGAGACCAGGAAGGGGCTGAGGACTGCAGATTCCAGGTCTCAGACAGTGCTGTGTTCAATGCACTGGTTACCTTCTGTGTCAGAGACCTCTTTGGCTACCTCCAGAAGCAGCTGTTTGGAAAGGCACCAATAGACAGCAACAGGGTGCTGCAGCCGTCCAGCAGTGCGCTCTGGGGGAAGTTCCGTGTGGATGTCAAGGCATACCTGAGTGCGCTCATGCAGCTGGTGACCTGTCTGGCAGAAGCCGTGGTGTTGGCAGCAGTCCTGCGGCATGTCAACAGCCTGGTACCCTACTACCTGACCTTCCCCAAGCAGTGCCGTGTGCTGCTCAAGAGGATGGTGATTCTGTGGAGCACTGGTGAGGAGTCCCTGCGGGTGTTGGCCTTCCTGGTCCTTGTTAGAGTTTGTCGACAGAAGAAGGACATTTTCCTGAGTCCTGTCCTGAAGCAAATGTACATCATGTATGTGAAGAATTGCAAGTTCACCTCTGCCAGCACCCTGCCCCTCATCAGCTTCATGCAGCGAACGCTGACCGAGCTGCTTGCCCTGGATCCCAGCATCTCCTACCAGCATGCCTTCCTCTACATCCGCCAGCTCGCCATCCACCTGCGCAACGCCATGACCACTGGCAAGAAGGAGACACACCAGTCGGTATACAACTGGCAGTACATCCACTGCCTCTACCTGTGGTGCCGCGTCCTGAGTGTCCTCGGCTCCAGTGAGGCCCTGCAGCCCCTGCTTTATCCTCTTGCGCAGGTTGCCATTGGCTGTATCAAGCTGGTCCCCACTGCTCGCTTCTACCCACTGCGCATGCACTGTGTACGTGCCCTGACGCTGCTGTCACAGAGCACTGGCATCTTCATTCCCGTGCTGCCCTTCATTCTTGAGATTTTCCAGCAGGTGGACTTCAACAAGCGACCAGGCCGGATAAGCTCCAGGCCCATCAACTTCTCTGTGATCCTGAAGCTGTCCAGTGCCAACCTACAAGAGAAGGCCTACCGGGATGGCTTGGTAGAGCAGCTGTACGACCTCATCCTGGAATACCTGAATGGCCAGGCCCACAGCATTGCCTTCCCAGAGCTGGTGCTGCCCACTGTTCTGCAGCTGAAGTCCTTCCTCCGGGAGTGCAAGGTGGCTAACTATTGCCGGCAGGTGCGCCAGCTACTGGAAAAAGTGCAGGAGAACGCAGAGTACATCCGAAGCCGCCGCCAGAAAGTGTCTTTTGGAGTGTCTGACCGGCATGCAGTGGATGCTTGGGAGAAACAGGCCCGGCAAGAGGGCACCACACTTAGCAGGTACTACAGCCACTGGCGGAAGCTGAGGGACCGAGAGATCCAGCTGGAGATCAGTGGCAAAGAGCGGCTAGAAGAGCTGAATTTCCCGGAGATCCAGCGGCGGCGGAAGGTGGAGGACAGGAAGGAGGAGGACAGAAAGGAGTTCAGAGACCTATTTGACCTGGATAGTTCTGAGGATGAGGCAGCCACAGACTTCTCAGAAAGAGGTGGGCCTGTTCCACCTCAGCATGAGGCAGAAGAAGAGGGAGATGACCAGAAAGACGAGGAGGAAGAGGACAGTGGCGCCTCTGAGGATGGAGGCCCAGATGCAGAGGCGGGGCTGGTCCCTGGCGAGCTGTGGCGGCTGGCTGAGGGGCCGCAGGATGAGCTGGAGGATCTGCAGCTCTCAGAGGAGGACTAG

XM_004863573.1 Coding sequence

Fbxo2 F-box protein 2, transcript variant X1

Length: 1137 bp    Location: 1302213..1305209   Strand: +
>XM_004863573.1
ATGCTTAGGAGGATTAACGGGGTTCCGAGTGAAGCTCAGGACAATGCTGTTGGTGGCTCTGCTCAGGGATGGGGTTTATGGGCCCTGCAGGGGACACGGAGTGGCCAGGCAGTTCTTGGACTGCGACTGAGGGCACCCATCTGGGGCTCAGCCGCCTCCCTGGGCACCCAGGTGGAGTCACAGAATCTCTCCTGGCAGCTGTGGTTGCCCTGGGGGGCAGGTGGGCGCGGAGGGGGACAGTCTGGGGGAGTCACAGCCTCGCCACTCCCCCATCTGCCCGCAGAGAGCGTGGGCCAGGCTGAGGAGGCGAGCCTGGAGGAGGCCTGCACCGAGGGGGAGCAGCCCGGCGAGGAGCAGGAGGAGCTGGAGGAGGCCGCGTACCTGGCCGAGCTGCCCGAGGCGCTGCTCCTGCGCGTGCTGGCTGAGCTGCCCGCCGCGGAACTGGTGCAGGCCTGCCGCCTGGTGTGCCTGCGCTGGAAGGGGCTGGTGGACGGCGCCCCGCTGTGGTTGCTCAAGTGCCAGCAGGAGGGGCTGGTGCCGGAGGGCAGCGGTGAAGAGGAAGAGCGCGACCACTGGCAGCAGTTCTACTTTCTGAGCAAGCGGAGGCGCAACCTGCTACGCAACCCGTGCGGGGAAGAGGACTTGGAGGGCTGGTGCGACGTGGAGCACGGTGGGGACGGCTGGAGGGTGGAGGAGCTGCCCGGGGACAGTGGGGTGGAATTCCCCCAGGATGACAGCGTCAAGAAGTACTTCGCCTCCTCTTTCGAGTGGTGTCGCAAGGCACAGGTCATTGACCTGCAGGCTGAGGGCTACTGGGAGGAGCTGCTGGACACCACCCAGCCGGCCATCGCGGTGAAGGACTGGTACTCAGGCCGCTCTGACGCCGGCTGTCTGTACGAGCTCACCGTGAAGCTGCTGTCCGAGCACGAGGATGTGCTGGCCGAGTTCAACACCGGGCAGGTGGTAGTGTCCACGGACAGTGAGGAAGGTGGCTGGACAGAGATCTCCCACACCTTCACCGACTACGGGCCAGGGGTGCGCTTCCTGCGCTTCGAGCATGGCGGGCAGGACTCCGTCTACTGGAAGGGCTGGTTCGGGGCCCGGGTGACCAATAGCGGCGTGTGGGTGGAGCCCTGA

XM_004863770.1 Coding sequence

Megf6 multiple EGF-like-domains 6

High confidence: 3 potential gene matches
Length: 4491 bp    Location: 6867920..6943010   Strand: +
>XM_004863770.1
ATGCCCCATGTGTGTGCTGAGCAGCAGCTGACCCTGGTGGGGCACCGCCAACCCTGTGTGCGAGCCTTGAGCCGAGTGGTGCCCATGTGGAAGCCGGGATGCAGGCAGCAGGTGTGGTGCCTGGGCCACGAGCGCAGAACTGTCTACTACACGAGCTACCGGCAGGTGTATGCCACAGAGGCCCATACCGTGCTCAGGTGCTGCCCAGGGTGGAGCCAGCTGCCTGGCCAGGAGGGCTGCCTGTCTGCCGAGTGTACCCCTGGCCTCTGTTTTAATGATGGCCACTGCGTGCCAGGCTCCACCCAGCTGTGCCACTGTGCCCCAGGCTTCCAAGGCCCCCACTGTCAGGACGATGTGGATGAATGCCGAGCACACAACGGTGGCTGCCAGCACCGATGCGTGAACACGCCTGGCTCCTACTTCTGCGCCTGCAAGCCCGGCTTCCGGCTGCACTCGGACGGCAGGACCTGCCTGGCCGTCAACTCCTGCACCCTGGGCAACGGCGGCTGCCAGCACCAGTGTGTGCAGCTCACGACCTCACGGCACCGCTGCCAGTGCCAGCCCGGGTTCCGGCTCCAGGAGGATGGCAGGCGCTGTGTCCGGAGAAGCCCATGTGCGGAGGGGAATGGCGGCTGCATGCACACATGCCAGGAGCTCCAGGGCCTGGTCCAGTGTGGATGCCACACGGGCTTCCGGCTGGCTGCAGACCGCAAAGCCTGCGAAGACGTGGACGAGTGTGCCACAGGCCTGGCCCAATGTGCCCACGGCTGCCTCAACACGCAGGGCTCTTTCAAGTGTGTGTGCCATGCGGGCTTTGAGCTGGGTGCTGACTTCCGGCAGTGCTACCGCATCGAGATGGAGATTGTGAACAGCTGCGAGGCCCACAACGGCGGCTGCTCCCATGGCTGCAGGCACAGCAGTGCGGGGCCCCTGTGCACCTGCCCCCAGGGCTACCAGCTGGACCGAGACCAGAAGACCTGCGTGGACGTGGACGACTGTGCCGACGCCCCGTGCTGCCAGCAGGTGTGCGCCAACACCCCTGGGGGGTACGAGTGTGGCTGCTACGCCGGCTACCGGCTACGCACTGATGGCTGCAGCTGTGAGGACGTGGACGAATGCGCCTCCAGCCGAGGCAGCTGCGAGCACCACTGCACCAACCTGGCCGGCTCCTTTCAGTGCTCCTGCGAGGCTGGCTACCGACTGGACGAGGACCGCAGGGGCTGCACCCCTCTGGAGGAGACTGTGGTGGATCCGGACGGGCAGCTGCCCTTTGAGCGGCCCCTGCCCCACATCGCGGTGCTGCAGGACGAGCTACCGCAGCTCTTCCCGGCGGACCCTGGGGCCGAGGAGGAGGCAGAGTTGAGGGGAGAATTCACGCTCACAGAGAAGTTTGTCTGCTTGGATGACTCCTTCGGCCACGACTGCAGCTTGACCTGTGACGACTGCAGGAACGGCGGGACCTGCCTTCCAGGCCTAGAGGGCTGCGACTGCCCGGAAGGCTGGACCGGGCTCGTCTGCAATGAGACTTGTCCGCCAGACACCTTCGGGAAGAACTGCAGCTCCCCCTGCAGCTGCCAGAACGGTGGGACCTGCGACCCGGTGACCGGGACCTGCCGCTGCCCCCCGGGCGTCAGCGGGGCCCACTGTGAGGACGGTTGCCCCAAGGGCTTCTATGGCAAACACTGTCGCAAGAAATGCCACTGTGCCAACCGGGGCCGCTGCCACCGCCTCTACGGGGCCTGCCTCTGCGACCCAGGGCTCTACGGCCGCTTCTGCCATCTCGCCTGCCCGTCCTGGGCCTTTGGGCCGGGCTGCTCAGAGGAGTGCCGCTGCGAGCAGCCCCACACCCAGTCCTGCGACCGGAGGGATGGCAGCTGCTTCTGCAAGGCCGGCTTTCGGGGCGACCGGTGCCAGGCAGAGTGCGAGCCAGGCTTCTTCGGGCCCGGGTGCCAGCGCATGTGCACCTGCCTGCCGGGAGTGGCCTGCGACCCCGTGAGCGGCGAGTGTCAGGACCAGTGTCCCCCGGGCTACCAGGGGCCCGACTGTGTCCAAGAGTGCCCGGCGGGGACATTTGGCGGGAACTGCTCCGGGTCCTGCTCCTGTGGGCAGGCCCCCTGCCACCGGGTCACGGGCCAGTGCCTGTGCCCGCCAGGGAAGACCGGGGAGGACTGTGGGGCAGGCTGTCCTGAGGGCCACTGGGGGCTGGGCTGCCAGGAGATCTGCCCCGTGTGTGACCATGGTGGCCGCTGTGACCCCGAGACCGGAGCCTGCCTGTGTCTCCCCGGCTTTGTCGGCCGCCGCTGCCAGGATGCTTGTCCAGCAGGCTGGTTTGGGCCTAGCTGCCAGATGAGGTGCTCTTGTGCCAATGATGGGCACTGCCACCCAGCAACTGGACAATGCAGCTGTGCCCCCGGGTGGACCGGCCTCAGCTGCCAGAGAGCCTGTGACAGTGGGCACTGGGGACCCGACTGCAGCCACCCCTGCAACTGCAGCGCAGGCCACGGGAGCTGTGACGCCACCAGTGGGCTATGCCTGTGCGAGGCTGGCTACAAGGGCCCTTGGTGTGAGCAGCAGTGTCCCCAGGGCTACTTCGGGCCCAGCTGTGGGCGGCGATGCCAGTGTGAGCACGGGGCGGCTTGTGACCACGTCAGTGGGGCCTGCACCTGCCCGCCCGGCTGGAGGGGCAGCTTCTGTGAGCTCGCCTGCCCGGCCGGCTTCTTCGGAGTGGACTGCCACCGCGCCTGCGACTGCTCTGCCGGGGCCGCCTGCGATGCTGTGACGGGCTCCTGCGTCTGCCCAGCCGGCCGCTGGGGACCCCGCTGTGCCCAGACCTGCCCAGTCCTCACCTACGGCCTCAACTGTAGCCAGGCCTGCGCCTGCTCCAACGGGGCCTCCTGTGACCCTGTCCATGGGCAGTGCCACTGTGCACCTGGCTGGATGGGGCCTGCCTGTCTTCAGGCCTGCCCTGCCGGCCTATACGGCCAGAATTGTCAGCACTTCTGCCTCTGCCGGAACAAAGGGAGCTGTGACGCTGCCACCGGCCGCTGTGCGTGCCCGGAGGGCTGGACCGGGCTGGCCTGTGAGGACGAGTGCCTCCCGGGATTCTACGGGGCCGGCTGCCGGCTGAGCTGCAGCTGCCTCCATGGGGGCCTCTGTGACCCGCACACGGGCCGCTGCCTGTGCCCGGCTGGCTGGACCGGGGACAAGTGCCAGAGCCCCTGCCAGCGAGGCTGGTTTGGAGATGCCTGTGCCCGGCGCTGCCGCTGCCCGCCGGGGGCCTCCTGCCACCACGTCACGGGGGCCTGCCGCTGTCCGCCTGGCCTCACCGGGCCTCGCTGCGAGCAGGCCTGCCCTCCTGGCACCTTCGGAGAGGGCTGTGGGCAGCTGTGCCAGTGTCCGGGCCAGAACTGGATCTGTCACCCGGCCACGGGGGCCTGCACCTGTGCTGCCGGCTACCACGGCCCCGCCTGCCTGGAACGATGCCCGCCGGGGCGCTACGGGCCGGGCTGCGAGCAGCTATGCAGGTGCCTCAACCGGGGCTCCTGCGATGTGGCCACAGGGGCCTGCCACTGCCCCGCCGGCTTCCTCGGGCCTGACTGCAGCCTCTCCTGTCCACAGGGCCGCTTCGGCCCCGACTGTGCCCGCGTGTGCAGATGTGGACAGGGGGCAGCCTGTGAGCCCGTGACCGGCACCTGTGCCTGCCCTCCCGGGAGGACCGGCGTCCACTGTGAGGACGGCTGCGCCCCGGGCTGGTTCGGCATGGGCTGCGAGCACCAGTGCGCCTGCAGGAACGGAGGCCTGTGCCACGCTGCCACGGGCAGCTGCTCCTGCGGCCTGGGCTGGACGGGGCCACACTGTGAGCAGGCCTGTCCCCCGGGGCGCTATGGGGCCGCCTGCCGCCTGGAGTGCGCCTGTCACAACAACGGTACCTGTGAGCCCACCACGGGCGCCTGCCGCTGCAGCCCGGGCTTCTATGGCCCGGCCTGCGAGCACCCCTGTCCCCCCGGCTTCCACGGCCTGGGCTGCGAGCGGGCCTGTGAGTGCCAGCGGGGAGCCTCCTGCGACCCCGTCAGTGGCCAGTGCCTCTGTCCCGCGGGCCTCCAAGGACAGCTCTGCGCGGACGGGTGCGAGCCAGGCTCCTTCGGGGAGGGCTGCCGCCAGCACTGTGACTGCGGTGAGGGGGTGCCCTGCGACCCCACCAGCGGCCTCTGCCTCTGCCCGCCGGGGCGCACGGGAGCCACGTGTGACCTGATTTGCAGAGGGAACCACTTCGGGCCCAGCTGTGCCCTGCGCTGTGACTGCCAGGGTGGAGCTGACTGCGACCCCGTGAGTGGGCAGTGCCACTGCGTGGACGGCTACATGGGGCCCACGTGCCAGGAAGGTGGGCCGCCCCAGGTCCCCATGCCCTTGTCCCCAGCCCAGGACACAGGGACTCACCCAGCCTCCAACAGCACAGCGCCCCAGCTCAGCAGGAGGGAAACCAAGCACTAG

XM_004863717.1 Coding sequence

Espn espin, transcript variant X2

High confidence: 4 potential gene matches
Length: 2502 bp    Location: 5042724..5015766   Strand: -
>XM_004863717.1
ATGGCCCTGGAGCGAGCGCTGCAGGCGGCGCGGCAGGGCGAGCTGGACCAGCTGAGGTCCCTGCACGCCGCCGGCCTGCTGGAGCCCTCGCTGCGCGACCCACTGGACGCGCTGCCCGTGCACCACGCGGCCCGCGCCGGCAAGCTGCACTGCCTGCGCTTCCTGGTGGAGGATGCCGGGCTGCCCGCAGCGGCCCGCGCACGCAACGGCGCCACGCCAGCCCACGACGCCGCGGCCACCGGCCATCTGGCCTGCCTGCAGTGGCTGCTGTCGAAGGGCGGCTGCAGAGTGCAGGACAAAGACAATTCCGGTGCCACAGTCCTGCACCTGGCAGCTCGCTTCGGCCACCCCGAGGTGGTGAACTGGCTGCTGCACCATGCCGATGCAGATCCCGCCGTGGCCACGGACACAGGCGCCTTGCCTGTCCACTACGCCGCCGCCAAAGGGGACTTCCTCTCCCTGAGGCTGCTCGTCGGGGACTACCCGAAGGGAGTGAAGGCCCAAACCAAGAACGGTGCCACGCCCCTGTACCTGGCGTGCCAAGAGGGCCACCTGGAGGTGACGCAGTACCTGGTGCAGCAGTGCGGCGCGGATCCGCACGCGCGCGCCCAGGATGGCATGACCCCGCTGCACGCCGCGGCGCAGATGGGCCACGCCCCAGTCATCGTGTGGCTGGTGAGCTGCACGGACGTGAGCCTGGCGGAGCAGGACAAGGACGGCGCCACCGCCATGCACTTCGCTGCGAGCCGCGGCCACGCCAAAGTGCTCAGCTGGCTTCTGCTGCACGGCGGCGAGATCTCGACTGACCTGTGCGGCGGGACCCCGCTGCATGACGCCGCAGAGAACGGGGAGCTGGAGTGCTGCCAGATCCTGGTAGTGAACGGCGCGGAACTGGACGTCCGCGACCGTGACGGGTACACGGCCGCCGACCTGTCGGACTTCAATGGCCACAGCCACTGCACTCGCTACTTGCGCACCGTGGAGAACCTGAGCGTGGAGCACCATGTGCTGTCCCGGGACCCGTCCACTGAGCTGGAGGCCAGGCAGCCCGACTCGGGCATGTCCTCACCCAACACCACCGTGTCTGTGCACCGGCCCAACGTTGACCTCAGCTCACCCACCAGCACCCTCTCCAACTACGACTCCTGCTCCTCCAGCCACTCCAGCCTCAAGGGCCGGCAGCCTCCTGGTGGGCTTCCGGGTGCAAGGGCTGTAGACATACAGAGCTACATGGACATGCTGAACCCAGAGCTGGGCCTGCCTCCAAGCAAGACGGGGAAGCCTGCACCTCCACCGCCACCCCCTAGCTTCCCTCCACCACCACCACCCCCAGGCAGTCAGCTGCCCCCACCCCCACCAGGCTACCCGGCTCCCAAGCCCCCATCGTCGGGCCTGCAGGCAGCTGACATCTACATGCAGACCAAGAGCAAGCTCCGCCACGTGGAGACCGAGACCCTCAGGAAGGAGCCCGGCTCGCCCGACGGCCCCCACGGGCTGCGCAGGCAGGACTCTGGTCGCAAGCCCCGCTCCTTCAGCAAGCAGCCCACCACGGGGGACTACTACCGCCAGCTGGGCCTCCGCCCCGCCGAGCCCCCGGCCGCGCGCCCGGGCATGGCGCACAGCGAGGAGACGTCTCTGCTCCCCGGGAACCACGTGCACAACGGCTGCGCTGCGGACCCCAACCCCAAGGCGTCCAGGGATCTTCCACCGCCACCGCCCGCCCCGCCTCTGCCCGAGGCCCTGAGCTCGCCACCGCCCGCCCCGCCTCTGCCCCTCGAGGGTGCGGGCCCGGGCTGCGGGCAGCGCCGCTCCTCCTCTTCCACCGGCACAGTGAGAGTCCTGAGACACAGGAAGAGCACCAAGTCTTTCAACATGATGTCCCCGACGGGTGACAACTCGGAGCTACTGGCTGAGATCAAGGCAGGCAAGAGCCTGAAGCCCACACCGCAGAGCAAGGGGCTGACTACAGTGTTCTCAGGCAGCGGGCAGCCGGCCTCCCAGCCCGACTCACCGCTGCCACCAGTGTTGCCTGCGCCATCTCGGGCCCGGAGCCCCACCCCGCCAGCTTCGGGGGCTCAGCCTCTGCTCAACGGCAGCGTGGTGCCGGCACCGCCCGCCACCCCTGCACCGGGCGTGCAGCTGGATGTGGAGCCCCTCATCCCCACGCGCGACGAGCAGGGCCGGCCCATTCCCGAGTGGAAGCGGCAGGTGATGGTGCGAAAGCTGCAGCTGAAGATGCAGGAGGAGGAGGAGCAGAGGCGGAAGGAGGAGGAGGAGGAAGCTCGGCTGGCCAGCCTGCCTGCCTGGAGGCGGGACCTCCTTCGGAAGAAGCTGGAAGAGGAAAGGGAGCAGAAGCGAAAAGAGGAGGAGAGACAAAAGCAGGAGGAGATGCAGCGGGAGAAAGAGCAGTCGGAGAAGCTGCGAACGCTTGGCTACGACGAGACTAAGCTGGCGCCCTGGCAGCGACAGGTCATCCTGAAGAAGGGGGACATCCCTAAGTAA

XM_004863663.1 Coding sequence

H6pd hexose-6-phosphate dehydrogenase (glucose 1-dehydrogenase), transcript variant X9

High confidence: 4 potential gene matches
Length: 2394 bp    Location: 3052481..3029187   Strand: -
>XM_004863663.1
ATGAAGCACCCAGGCCTTTGGAAGATGCTCACGGTGGCCATGTGCGTGGCCCTCGTGGGCTGCCTGCAGGCCCAGGAGCTCCGGGGACACGTCTCCATCGTCCTGCTGGGAGCGACCGGGGACCTGGCTAAGAAGTACTTGTGGCAGGGACTGTTCCAGCTCTACCTGGACGAGGTGGGGAAGGACCATAGTTTTAGCTTCCATGGGGCTGCTCTGACGGCACCCGAGCAGGGCTGGAAGCTGATGGCCAAGGCCCTGGAATCCCTCTCCTGCCCCAGTGACATGGCACCTAGTCACTGTGCTGAACTCAAGGATCAGTTCCTGCGCCTGAGCCAGTACCGCCAGCTGAAGACAGCCGAAGACTATCGGACACTGAGCAAGGACATTGAGGCACAGGTCAAGCAAGAGGACCTCCGGGAGGCTGGCAGGATTTTCTACTTCTCCGTGCCACCCTTTGCCTATGTGGACATTGCCCGCAACATCAACAGCAGCTGCCGGCCAGGCCCGGGTGCCTGGCTGCGGGTTGTCTTTGAGAAACCCTTTGGCCATGACCACCTCTCTGCCCAGCAGCTGGCCACTGAACTTGGGAGCTTTTTCCAGGAGGAGGAGATGTACCGGGTGGACCATTACCTGGGCAAGCAGGCTGTGGCTCAGATCCTGCCCTTCCGAGACCAGAACCGCAAGGCCCTGGATGGCCTCTGGAACCGGCACCATGTGGAGCGGGTGGAGATCATCATGAAGGAGACCGTGGATGCAGAAGGTCGCATCAGCTTCTACGAGGAGTACGGCGTCATCCGAGATGTCCTGCAGAACCACCTGACCGAGATCCTCATGCTGGTGGCCATGGAGCTGCCGCTCAATGTCAGCAGCTCGGCGGCCGTGCTGCAGCACAAGCTCGAAGCCTTCCGTGGCCTGAGGGGCCTGAACAAGGGCAGCGCCGTGGTGGGCCAGTACCAGGCCTATAGCGCGCAGGCACGCAGGGAGCTGCAGAAGCCCGAGGGCTTCCACAGCCTGACTCCCACCTTCGCAGGTGTCCTCGTGCATGTGGACAGCCTGCGCTGGGAGGGTGTGCCCTTCACCCTGATGTCTGGCAAGGCCCTGGACGAGAGAGTGGGCTATGTGCGGGTCCTGTTCAAAAACCAGGCGTTCTGCATCCAGCACGAGAGGCACTGGGCCCCAGAGCAGAGCCCGTGTCTTCCCCGGCAGATCATCTTCCACATCGGACATGGTGAGCTGAGCCACCCAGCCATCCTGGTCAGCCGGAACCTGTTCAGGCCCTCCCTGCCTGCACACAGCTGGGCGGAAGTGCAGGAGAGGCCCGGGCTCCGAGTGTTGGGTCGCCCCCTGTCTGATTTCTATGCCTACAGCCCCTTGAGGGAGCGAGACGCCTACTCCATCCTCCTGTCCCACATCTTCCACGGCCGGAAAGAATCCTTCATCACCACAGAGAACTTGCTGGCTTCCTGGGATTTCTGGACCCCGTTGCTGGACAGCCTGGCCCATGAGGTCCCGCGCCTCTACCCGGGGGGAGCAGACACCGGCTGTCTGTTGGACCTGGAGTTAAATGGGGGCCACCTGTCCTTCTCCCAGCAGCAGCCCGAGCAGCTGGTCCCAGGGCCGGGGTCGGCCCCCAAGCCCAGTGACTTCCAGGTCCTCAGGGCCAGGTACCGAGAGAGCCCGCTGATCTCGGCCTGGCCTGAGGAGCTGATCTCCAGGCTGGCCAGCGACATTGAGGCCTCTGCCCTGCAGGCCGTGCAGCACTTCGGCAAGTTCCACCTGGCGCTGTCGGGTGGCTCCAGCCCCATCGCCCTGTTCCAGCAGCTGGCCATGGGCCACTACAGCTTCCCCTGGGCCCACACACACCTCTGGCTGGTGGACGAGCGCTGCGTCCCGCTGTCGGACCCTGACTCCAACTTCCAGGGCCTGCAGGCTCACCTGCTGCAGCACATCCGCTTGCCCTACTACAATATCCACCCCATGCCGGTGCACCTGCACCAGCGGCTGTGCGCGGAAGAGGACCAGGGTGCCCAGACCTATGCCGGGGAGATCTCGGCCCTGGTGGCCAACAGCAGCTTCGACCTGGTGCTGCTGGGCATGGGCACCGATGGGCACACGGCCTCCCTCTTCCCGCAGTCGCCCACGGGCCTGGACGGCGAGCAGCTGGTGGTGCTGACGCAGAGCCCCTTCAGGCCGCACCAGCGCATGAGCCTCAGCCTGCCGCTCATCAACAGGGCCAAGAAGGTGGCCGTCCTGGTCATGGGCCGGACAAAGCGTGACATCACCATGCTGGTGAGCCGTGTGGGCCAGGAGCCCAGGAAGTGGCCCATCTCAGGCGTGCTTCCCAGCTCCGGCCAGCTGGTTTGGTACATGGACTACGAAGCCTTCCTGGGGTGA

XM_004863557.1 Coding sequence

Plod1 procollagen-lysine, 2-oxoglutarate 5-dioxygenase 1, transcript variant X4

High confidence: 4 potential gene matches
Length: 2184 bp    Location: 1092344..1070843   Strand: -
>XM_004863557.1
ATGCAAGTCCTGCTGCTCCTGGCCCATCTGGGCTCGCTGCTCCTGGCGGACGCGAAGGGCGACGCCAAGCCCGAGGACAACCTGTTAGTCCTCACTGTGGCCACGAAGGAGACCGAGGGCTTCCGCCGCTTCAAGCGCTCAGCACAGTTCTTCAACTACAAGATCCAGGCGCTGGGCCTGGGGGAGGACTGGGGTGTGGAGAGGGGAACTTCGGCGGGTGGAGGACAGAAGATCCGGCTGCTGAAGAAGGCGCTGGAGAAGCACGAGGACAAGGAGGACCTGGTCATTCTCTTCACAGACAGCTATGATGTGGTGTTTGCCTCGGGGCCCCGGGAGCTCCTGAAGAAGTTCCGGCAGGCGAGGAGCCGTGTGGTCTTCTCGGCGGAGGAGCTCATCTATCCCGACCGAAGGCTAGAGGCCAAGTACCCCATGGTCTCCGATGGCAAGAGGTTCCTGGGCTCTGGAGGCTTCATCGGCTATGCCCCCAACCTCAGCAAGCTGGTGGCCAAGTGGGAGGGCCAGGATAGCGACAGTGACCAGCTCTTTTACACCAAGATCTTCTTGGACCCGGAGAAGCGGGAGCAGATCAACATCTCCCTGGACCACCGCTGCCGCATCTTCCAGAACCTGGACGGAGCCTTGGATGAAGTTGTGCTCAAGTTTGAAATGGGCCACGTGAGAGCACGGAACCTGGCCTACGACACCCTCCCGGTCCTGATCCACGGCAACGGGCCCACCAAGCTGCAGCTAAACTACCTGGGCAACTACATCCCGCGCTTCTGGACCTTCGAGACGGGCTGCACTGTGTGTGACGAGGGTCTGCGCAGCCTGAAGGGCATCGGGGACGAAGCTCTGCCCATGGTCCTGGTTGGCGTTTTCATTGAGCAGCCCACGCCGTTCCTGTCTCTGTTCTTCCAGCGGCTCCTGCGCCTCCACTACCCCCGGAGTCGGATGCGGCTTTTCATTCACAGCCATGAGCAGCACCACAAGGCACAGGTGGAGCAGTTCCTGGCTGAGCACGGCGGTGAGTACCAGTCGGTGAAGCTGGTGGGCCCTGAGGTGCGGATGTCGAATGCCAACGCCAGGAACATGGGCGCAGACCTGTGCCGGCAGGAGCAGACCTGCACCTACTACTTCAGTGTGGACGCCGATGTGGCCCTGACCGAGCCCGATAGCCTGAGGCTGCTGATCGAGCAGAACAAGAACGTCATTGCCCCGCTCATGATGCGCCCCGGGAGGCTGTGGTCAAATTTTTGGGGGGCGCTGAGTGCGGACGGCTACTACGCTCGCTCGGAGGACTACGTAGACATCGTGCATGGGCGACGTGTCGGCATCTGGAATGTGCCCTACATCTCCAACATCTACTTGATCAAGGGCAGCGCCCTGCGGGCGGAGCTGCAGCACACGGACCTGTTCCACCACAGGAAGCTGGACCCTGACATGGCTTTCTGCGCCAACATCCGGCAGCAGGAGGTGTTCATGTTTTTGACCAACCGGCACAGCTTTGGCCACCTGCTGTCCCTGGACAGCTACCAGACCACCCACCTCCACAACGACCTCTGGGAGGTCTTCAGCAACCCGGAGGACTGGAAGGAGAAATACATCCACGAAAACTACACCAAGGCCCTGGCAGGGAAGCTGGTGGAGACGCCTTGCCCCGATGTCTACTGGTTCCCCATCTTCACGGAGGTGGCCTGTGACGAGCTGGTGCAGGAGATGGAGCACTTTGGCCAGTGGTCCCTTGGCGACAACAAGGACAACCGCATCCAGGGTGGCTATGAAAACGTACCGACCATCGACATCCACATGAACCAGATCAGCTTTGAGCGGGAGTGGCACAAGTTCCTGGTGGAGTACATCGCGCCCTTGACAGAGAAGCTGTACCCCGGCTACTACACCAGGGCCCAGTTCGACCTCGCCTTTGTTGTCCGCTACAAGCCAGACGAGCAGCCCTCGCTGATGCCACACCATGACGCCTCCACCTTCACTGTCAACATTGCCCTCAACCGAGTAGGGGAGGATTACGAGGGCGGGGGCTGCCGGTTCCTGCGCTACAATTGCTCCGTCCAAGCCCCGAGGAAGGGCTGGGCTCTTATGCACCCCGGACGGCTCACACACTACCACGAGGGGCTCCCCACCACCAGGGGCACCCGCTACATCGCTGTCTCCTTTGTGGACCCCTAA

XM_004863798.1 Coding sequence

Morn1 MORN repeat containing 1

High confidence: 4 potential gene matches
Length: 1431 bp    Location: 7616588..7667302   Strand: +
>XM_004863798.1
ATGGCGGCGGCTGGCCGGGGGAGCCGGGGTTCGCTCCAGCGACGCAGGGAGTCGCCGAGGCCCCCGCCGAGGGACGGTTATGGTGTCTACACGTACCCAAATTCCTTCTTCCAATATGAAGGAGAATGGAAAGGAGGAAAGAAACACGGTCACGGGAAGTTGCTGTTTAAAGATGGGAGTTATTACGAAGGCGAATTTGTGGACGGAGAGATCATGGGGCGAGGCTGCCAACACTTGACCTGGTCAGGAAACACCTACTCTGGACAGTTTGTTTTGGGAGAGCCTCAGGGACACGGCGTCATGACGTATGGAGCTGGGGGCCGTTACGAAGGAGAGCTCTGCCGAGGCCTCAGGGAAGGGCAGGGGGTCCTGGTGGACCCAGATGGACAGGTGTACCAGGGGTCCTTCCATGACAACAAGAGGCATGGCTGGGGTCAGATGCTCTTTAGGAGCGGTGACGAGTATGAAGGTGACTGGATCCGGGACGGGCGCCAGGGACACGGGGTACTGCGCTTTGCTGATGGCTCCACATACAAGGGACAGTGGCACAGTGATGTATTCAGTGGGCTAGGCAGCTTGGCCCACTGCTCAGGGGTCACCTACTGTGGGCTGTGGATCAACGGCCACCCGGCAGCACCGGCCACGAGGATTGCGATTCTGGGTCCGGAGGTGCTGGAGGTGGCCCGAGGCTCTGCCTTCACGTTGCGTGTACAGCTGCAGCGGGACAACGGGGAGACAGCGGATTGCGAGAGTGGCCGGGTCCTGCGGATCTCGGCGGGCGTCAGACACGTGCAGCCCCCAGCCCTGTCTGAGATCAGCTTCTTCAAGGCGGATGAGGGGCACGGGGAGAAGCCTTTCGAGACCCCATTTGGGTTCCGGTGCCTCTCCTACCCTCTGGCCTGCCCCACTTCACTGCGGCCGGGGCCCAGGGCTGCCGTGGAACGTGCTGATACCAACTCACCACTGTCCCAGGGAGAGCCCGGCCCTGCCCTGGATTCTGGGGCCGCCCATGGCCAGGGTGATACCCCAGGTCACCTGCGAGCCAGGGCACAGGAGCCCCCGTGTCCTGTGGACCGGCGGCACGTGACACGAGGCTGTGCGGAGTTCACAGACATTGTCCTGGGGCTGCCCCCACCCGGCCTCCAGGCTTTCCTGGCCCTGGGCAGCTCCAGCCAGGCTGACAGCCAGCAAGAGGGCGGCCCGTGCCCAGCCAAGACAGCACCCGGCACCCACAGCAGCAGGCCTGACAGGACTGCCGTGGAGCCAGTGGCAGCAGTGTACCCAGGAGAGTACGTGGTCCTGATCCAGGACGTGACCACACCTCCGTTCCTCGGCCGAGCACTGCCCACCGCCTTCAGACGGCTGCACATCCTGCCTGAGGGGCGGCCAGCACCCCCGTCCCTGGAGCAGACTCCAGGGCCCAGCCTGTGA

XM_004863714.1 Coding sequence

Plekhg5 pleckstrin homology domain containing, family G (with RhoGef domain) member 5, transcript variant X4

High confidence: 4 potential gene matches
Length: 3147 bp    Location: 4990337..5009601   Strand: +
>XM_004863714.1
ATGGCCGACCAGAGCCCAGCTGAGAGGGGACTGCACTGCCAGAACCCGGCCTGCATGGACAAGGGCCGGGCTGCCAAGGTATGCCACCACACTGACTGCCAGCAGCTGCACTGCCGGGGTCCCCTCAACCTCTGCGAGGCCTGCGACAGCAAGTTCCACAGCACAGGGCATTATGACGGCCACGTCCGCTTCGACCTGCCCCCCCGGGGCTCTGTCCTGGCCCGGAATGTGTCCACCCGGTCGTGCCCACCCCGCACCAGCCCTGCGGTGGACTTGGAGGAAGAGGAGGAAAGTGCCACGGATGGCAGAGGGGATCGGAAGGCCACAGGCCTGAAACTCTCCAAGAAGAAGGCGAGGAGGAGACACACAGATGACCCGAGCAAGGAGTGCTTCACCTTGAAATTTGACCTGAACGTGGACATCGAGACGGAGTTTGTCCCAGCTGTGAAGAAGAAGTCGTTGGGGGAGGTGCTGCTGCCCGTGTTCGAAAGGAAGGGCATCACCCTGGGAGAAGTGGACATCTACCTGGACCAGTCCAGCACGCCACTGTCCCTCACCTTCGAGGCCTACAGGTTCGGTGGACACTACCTGAGGGTTAAAGCCCCTCCCAAGCCAGGGGACGAGGGCAAGGTGGAGCAGGGCGTGAAGGACGCTAAGTCACTGAGCCTCCCGATCCTGTGTCGGGCGGCCGGGGCCGGGGCCCCCGTGCTGGAGCGTGTGGACCCCCCGAGCCGCCGGGAGAACCTCGATGTCTTGGCCCCTGGCCGCAGGCGCAAGAACATGTCGGAGTTCCTGGGGGAGCCCAGCGTTCCGGGCCAGGAGCCCACCCCGCCCTCCAGCTGCTCTCTGCCCAGCAGCGGCCCCAGTGACAGCTGGAAGAACCGGGCAGCCAGTCGCTTCAGTGGCTTCTTCAGCTCCAGCCCCAGCACCAGCGGCCTGGGCCGGGAGGTGGACAAGATGGAGCAGCTGGAAGCCAAGCTGCACGCCTACAGCCTCTTCGGGCTGCCCCGGCTGCCCCACCAGCTGCGCTTCGATCATGACTCCTGGGAGGAGGAGGAGGAGGAAGAGGAGGAGGAGGATGAAGAGGAGGATCGTGCCTGCCCTCGGCTGGAGGACAACTGGCGGGAGCTCATTGATGGGCACGAGAAGCTGACCCGGCGGCAGTCCCACCAGCAGGAGGCGGTGTGGGAGCTCCTGCACACCGAGGCCTCCTACATCCGGAAACTGCGCGTCATCACCAACCTGTTCCTGTGCTGCCTCCTGAACTTGCAAGAGTCCGGGCTACTGTGCGAGGTGGAGGCGGAGCGGCTGTTCAGCAACATCCCCGAGATCGCGCGACTGCACCGCGCTCTGTGGAGCAGCGTGATGGCGCCGGTGCTGGACGAGGCGCGGCGCACGCGGACACTGCTGCAACCCGGAGACTTCCTCAAAGGCTTCAAGATGTTCGGCTCCCTGTTCAAGCCCTACATCCGCTACTGCATGGAGGAGGAGGGCTGCATGGAGTACATGCGTAGCCTGCTGCGCAACAACGAACTGTTCCGCGCCTACGTCACGTGGGCGGAGAAGCACCAGCAGTGCCAGAGGCTGAAGCTCAGCGACATGCTGGCCAAGCCCCACCAGCGCCTCACCAAATACCCGCTGCTGCTCAAGTCAGTGCTGAAGAAGACGGATGAGCCACGGGCCAAGGAGGCCGTTGTCACCATGATCAGCTCGGTGGAGTGCTTCATCCACCAAGTGAATGCGCGCATGCGGCAGGAGCAGGAGCGGCGGCGGCTGGCGGCCGTGGTGAGCCGCATCGATGCCTACGAGGTGGTGGAGGGCAGCAACGACGAGGTGGACAAGCTCCTGAAGGAGTTTCTGCACCTGGACCTCACAGCGCCCATCCCTGGAGCCTCGCCTGAGGAGACGCGGCAGCTGCTGCTGGAGGGCAGCCTGAGGATGAAGGAGGGGAAGGACAGCAAGATGGATGTGTACTGCTTCCTCTTCACCGATCTGCTCCTGGTGACCAAGGCAGTCAAGAAGGCCGAGAGGACCAAGGTCATCAGGCCACCGCTGCTGGTGGACAAGATCGTGTGCCGGGAGCTCCGGGACCCAGGCTCCTTCCTCCTCATCTACCTGAACGAGTTCCACAGTGCTGTGGCCGCCTACACGTTCCAGGCCAGCGGCCAGGCCTTGTGCCGTGGTTGGGTGGATGCCATTTACAATGCCCAGAACCAGCTGCAGCAGCTGCATGCCCAGGAGCAGCCCGGCAGCCAGCAGCAGCTGCAGAGCCTGGAGGAGGAGGAGGAGGAGGAAGAGGAGAGCAGCGCTTCGGCTGCCAGCTCCCCCACCATCCTGCGCAAGAGCAGCGACAGCCTGGACTCCCAGCGCGGTGCTTCTGATGGCTCCACCGAGACCCTGGCCATGGTTGTGGTGGAGCCTGGGGAGATGCTGTCCTCCCCCGAGTTGGGCGGTGGCCCCTTCGGCTCCCAGCCGGATGAGACCTCTCTGGGTACCACTGCCTCCTCCATCACGCCCACCAGCGAGCTGCTGCCCCTGGGTCCGGTGGACGGCCGCTCTTGCTCCATGGACTCGGCCTACGGCACCCTGTCCCCCACCTCCCTGCAGGACTTCGCAGCCCCGGCCCAAGTGGCCGATCCCACGCCCCAGCCCCTAGAGTCATCAGAACCCCCTTCACCCCCACCCTCACCCCGCCTGCGCCACCGCCTACCAGTCCAGCTTCTACCCCGCCTGCTCAAGTCCAAGTCGGAAGCCAGCCTCCCCCAGTTGCTGTCTGGGGCTGCCCCCCACAGAGCACCCCCAGCCCCCAGCCGAAGCCTGTCTGAGCTCTGCCTGGCTGCTGGCACCCCTGGCACTAGGACTCGGGGCTCCCCTCAGGAGGTGGGGCCTGGGTGGGACTGTCAGGGGATACCTAGCCCAGGCAGTGGCCCTGAGCCGTCAGAGGCGGAGAGCAGAGCCAGCTGCCAGGCTGGGGATCCTGCGGGCCCCACCAAGAGGAGGTGCAGGGGGCTGCCCTCGGGGGTTTCTCCCCAGGCCCAGCCTGAGCCCCCTCCAGGGCTCTCAGGCCAGCACAGGAAGCTGACCCTGGCCCAGCTGTACCGAATCAGGACCACCCTGCTGCTTAACTCCACGCTTACTGCCTCGTGA

XM_004863938.1 Coding sequence

Tnfrsf18 tumor necrosis factor receptor superfamily, member 18

High confidence: 4 potential gene matches
Length: 687 bp    Location: 8377184..8379974   Strand: +
>XM_004863938.1
ATGGGTGCCATGGGGCTGCTGGCGGCCCTGTGCCGGGTCGTGCTGCTCTGCACGCTCAGCCTTGGTCAGCTCCTTGCCAAGGGACCCTGTGGCTCAGGCCGCTTCCTGAACGGGACAGGGACCAACTCGAGGTGCTGCAGCCTCAGTACCCCAGGCAAGGCCCATGCTGTGAGGGACTGTGAGTGTATCCAGCCAGAGTACCACTGTGGTGACCCTGAGTGCCAGACCTGCAAATACCACCCCTGCCCACCAGGCACAGAGGCACAGCCTGAAGGGCAGCTCAAGTATGGCTTCACGTGTGTCAGCTGCGCTGCGGGGACCTTCTCCCAGGACCACCAGGGCCGCTGCAGACCTTGGGCAGACTGTAGCCAGTTTGGGTTTCTCACCATGTTCCCCGGAAACAAGACCCACAACGCAGTGTGCCTCCCGGGGCCGCCGCCCGCAGAGCAGCACAGCTGGCTGACCACCGTCCTCCTTGCCGTGGCCGCCTGCATCCTCGTCCTGACCACTGTCCAGCTGACCTTGCACACCTGGCAGCTGAGGCGGCAGCCCATGTGGCCCCGAGAGACCCAGCCACTCCTGGAGATGCTGCCACCACCTGCCGAGGACACCTGCAGCTGCCAGTTCCCTGAGGAGGAGCGGGGGGAGCGCCTGCAGAAGGGCCGGCTGGGGGACCAGTGGGTATGA

XM_004863581.1 Coding sequence

Ptchd2 patched domain containing 2

High confidence: 4 potential gene matches
Length: 4158 bp    Location: 1421548..1373337   Strand: -
>XM_004863581.1
ATGGACTCAGAAGATGACCCCCTGCTGCAGGACGTGTGGCTAGAGGAGGAGCAGGAGGAGGAAGAAGCCACGGGGGAAGCCTTTAGGGGGACTCAGAAGTCAAGGGCCCGTCCTAGGGCAGGCGGCCAGTGTTGCTGGCGGCGCTGGACCCTTCCGTCCCGGCCCCCAGCCTCGGGTTTCTGGAGCACCCTGGGGTGGGCCTTCACCAACCCGTGCTGCGCTGGGCTAGTGCTCTTCCTGGGCTGCAGCATCCCCATGGCCCTGTCGGCCTTCATGTTCCTCTACTACCCGCCGCTGGACATCGACATCTCTTACAACGCCTTTGAGATCCGCAACCACGAGGCCTCGCAGCGCTTTGATGCCCTGGCTTTGGCGCTCAAGTCCCAGTTTGGATCCTGGGGCCGCAACAGACGGGACTTGGCAGATTTCACCTCCGAGACTCTTCAGCGCCTCATCTCAGAGCAACTGCAGCAGCTCCATCTCAGCAACCGCTCGCGCCAGGCCTCCAGAGTCCCACGCGCTGTCCCCGTGGCCACCTGGGACACCTCTGCAGCCCAAGAGCCAACGGCCAATCGGAGCGGGTGTCTTCGGCGTGAGGCCCCACCCCCGAAGGTTCTAGTGACCAACCAGAGTAACACTTTGAGGGATCCGCCTACAGACAGTAATGCGTGGCACCAGCCTAGCGCTGCGCCCCCTGTGGCTGCAGCGACCAATCAGAGTCGTGCCCGCCGGGGTGCCTCGCGCTGGGACTATTCTAGGGCCTATGTGAGTGCCAACACCCAGACGCACGCACACTGGCGCATCGAGCTCATCTTCCTCGCACGCGGCGATGCAGAGCGCAACATTTTCACTAGTGAGCGGCTGGTCACGATCCACGAGATCGAGCGCAAGATCATGGACCACCCAGGCTTCCGGGAGTTCTGCTGGAAACCCCATGAGGTGCTCAAGGACCTGCCACTAGGCTCCTACTCCTACTGCTCCCCACCCAGCTCACTCATGACCTACTTCTTCCCCACCGAGAGGGGTGGCAAGATCTACTACGATGGCATGGGCCAGGACCTGGCTGACATCCGGGGCTCCCTAGAGCTGGCCATGACACACCCTGAGTTCTACTGGTACGTGGACGAGGGCCTCTCTGCTGACAACCTGAAGAGCTCCCTCCTGCGCAGCGAGATCCTGTTTGGAGCGCCCCTGCCCAACTACTACTCTGTGGATGATCGCTGGGAGGAGCAACGGGCCAAGTTCCAGAGCTTCGTGGTCACCTACGTGGCCATGCTGGCCAAGCAGTCTACTAGCAAAGTCCAGGTCCTCTATGGTGGAACAGACCTCTTTGACTATGAGGTGCGTAGGACCTTCAACAACGACATGCTCTTGGCCTTCATCAGCAGCAGCTGCATTGCCGCCCTCGTCTACATCCTCACCTCCTGCTCAGTGTTCCTATCCTTCTTTGGGATTGCCAGCATCGGCCTCAGCTGCCTGGTGGCGCTTTTCCTGTACCACGTGGTCTTTGGCATCCAGTACTTGGGCATCCTCAATGGAGTTGCTGCCTTCGTGATAGTGGGCATTGGTGTGGACGACGTCTTCGTGTTCATCAACACCTACCGCCAGGCTGCGCACCTGGAGGACCCACAGCTGCGCATGATCCATACCATCCAGACGGCGGGCAAGGCCACCTTCTTCACCTCCCTGACCACGGCCGCTGCCTACGCTGCCAACGTCTTTTCCCAGATCCCCGCCGTACACGACTTCGGCCTCTTCATGTCGCTCATCGTGTCCTGCTGCTGGCTGGCTGTCCTCTTCACCATGCCCGCTGCCCTGGGCCTCTGGAGCCTTTACCTGGGCCCACTGGAGAGCTCCTGCTGGGCCAGCTGCCACCAGAAGTGTGGCCGCAAGAGCTCTTTGCACTTCCCTGGGGACGTGTTTGCCACCCCCGAGCGGGCCGGGGACAGCCCTGCCCAGGGCCCCATACCCTACCTGGATGACGACATCCCCCTGCTGAACGTGGACGAGGAGCCAGTGTCACTGGAGCTGGGAGACGTGTCCCTGGTGTCTGTACCCACCTCGGGCCTGCAGCGGACCCCCAACACAGACAGCCGGGGCCAGCTCCTCGGGCAGCTGCAGGAACTGCTGCACCACTGGGTCCTGTGGTCAGCGGTCAAGAGCCGCTGGGTCATCGTGGGGCTCTTTGTGTCCACTCTCATCCTGTCCCTGGTGTTCGCCAGCCGGCTCCGCCCTGCCAGTCGGGCACCACTGCTCTTCCGGCCCGATACTAACATCCAGGTGCTGCTGGACCTCAAGTACAACCTGAGCGCCGAGGGCATCTCCTGCATCACCTGCTCAGGTCTGTTCCAGGAGAAGCCTCACAGCCTGCAGAGCAACATCCGGACATCACTGGAGAAAAGGAAGCGCGGCTCTGGGGCTTCCTGGGCCAGCCGGCCAGAGGCCACCCCGCAGGACTCTGTGGGCACCGTGTACATCTCCAAGGTGAAGAGTAAAGGCCACCCAGCTGTCTACAGGCTGTCCCTCAATGCCAGCGTGCCTGCCCCGTGGCAGGCCATGTCCCCCGGGGATGGAGAGGTGCCCTCCTTCCAGGTGTATAGAGCGCCTTTTGGTGACTTCACCAAGAAGCTGACCGCTTGTATGTCTACAGTAGGGCTGCTCCAGGCCGCGAGCCCCTCCCGCAAGTGGATGGTGACGACCTTGGCCTGTGACGCCAAGCGGGGCTGGAAGTTTGACTTCAGCTTTTACGTGGCCGCCAAGGAGCAGCAGCACACCCGGAAGCTGTACTTTGCCCAGTCCCACAAGCCCCCCTTCCATGGGCGTGTGTGCACGGCGCCCCCCGGCTGTCTGCTCAGCTCCAGCCCCGATGGGCCTACCAAAGGCTCCTTCTACGTGCCCAGCGAGAAAGTGCCCAAGGCCCACCTCTCCGCCACGTTTGGCTTCAACCCCTGCGTGAACACAGGCTGCGGGAAGCCGGCAGTGCGGCCCCTGGTGGACACGGGGGCCATGGTCTTCGTGGTCTTTGGCATCACTGGCATCAACCGCACCCGACAGGTGGACAATCACGTCATCGGAGACCCGGGCAGTGTCATCTATGATAGCAGCTTTGACCTCTTCAAAGAAATCGGACACCTGTGTCGACTCTGCAAGGCCATCGCAGGCAACTCGGAGCTGGTGAAGCCGGGTGGGGCCCAGTGCCTGCCCTCAGGCTATAGCATCTCCACATTCCTGCGGATGCTGCATCCCGAGTGCAAGGAGCTGCCTGAGCCCAACCTGCTGCCGGGACAGCTGTCCCACGGGGCGGTGGGCGTCAAGGAGGGCCGCGTGCAGTGGATCTCCATGGCCTTTGAGTCGACCACGTACAAGGGCAAGTCCTCCTTCCAGACCTACTCGGACTACCTGCGCTGGGAAAGCTTCCTCCGGCAGCAGCTGCAGGCCTTCCCTGAGGGCTCGGCCCTGCGCCACGGCTTCCAGACCTGCGAGCACTGGAAACAGATCTTCATGGAGATCATAGGGGTGCAGAGTGCCCTATATGGCCTGGTCCTCTCCTTGCTCATCTGTGTGGCCTCGGTGGCCGTGTTCACCACCCACATCCTGCTCCTGCTGCCTGTGCTCCTGAGCATCCTGGGCATCGTCTGCCTGGTGGTGAGCATCATGTACTGGAGTGGGTGGGAAATAGGCGCCGTGGAAGCCATCTCCCTGTCCATCCTGGTCGGCTCCTCTGTGGATTACTGCGTGCACCTGGTGGAGGGCTACCTGCTGGCTGGAGAGAATCTGCCCCCGCAGCAGGCCGAGGACCCCGGCGCACAACGCCAGTGGCGGACCCTGGAGGCCGTGCGGCACGTGGGCGTGGCCATCGTGTCCAGCGCCCTCACCACCGTCATCGCCACGGTGCCCCTCTTCTTCTGCGTCATCGCCCCTTTTGCCAAGTTCGGGAAGATCGTGGCGCTCAACACGGCTGTGTCCATCCTCTACACGCTCACCGTCAGCACCGCCCTGCTGGGCGTCATGGCGCCCGGCTCCTTCACCCGGACCAGGACTTCCTTCCTCAAGGCCCTGGGCGCCGTGCTGCTGGCGGGGGCCCTGGGGCTGGGCGCCTGCCTCGTGCTCCTGCGCAGCGGCTATAAGATCCCCCTGCCCAGCGGGGCAGCCCTATAG

XM_004863586.1 Coding sequence

Exosc10 exosome component 10, transcript variant X2

Length: 2574 bp    Location: 1699741..1723034   Strand: +
>XM_004863586.1
ATGGCGCTCTCCAGTCCCCGGGAGTCCAAGGCCCAGGCGGCGCCCAGCGCTACCAAACCCGACGGCGAGATGGTGCTGCCGGGCTTCCCGGACGCGGACAGCTTCGTGAAGTTTGCTCTTGGGTCGGTCGTGGCAGTCACCAAGGCATCTGGGGGCCTGCCACAGTTTGGTGACGAGTATGACTTTTACCGAAGTTTTCCTGGCTTTCAGGCATTTTGTGAAACACAGGGAGACAGGTTGCTGCAGTGCATGAGCAGAGTAATGCAGTATCATGGGTGTCGCAGCAACATTAAGGACCGAAGTAAAGTGACTGAGTTGGAGGATAAGTTTGATTTACTAGTTGATACCAATGATGTGATTCTGGAGAGAGTGGGTATTTTACTGGATGAAGCATCAGGTGTGAATAAGCATCAGCAGCCTGTCCTCCCTGCAGGCCTTCAGGTCCCCAAAACAATAGTGTCCAGTTGGAACCGGAAGGCAGGAGAATATGGCAAAAAAGCAAAATCTGAAACTTTCCGGCTGCTTCATGCAAAAAATATCATCCGACCTCAGCTCAAGTTCCGAGAGAAGATGGACAATTCCAACACCCCATTTCTTCCTAAAATCTTCGTCAAGCCCAATGCCCAGAAACCCCTCCCTCAGGCTCTCTCTAAAGAAAGGCGAGAATGCCCACAGGACCGGCCTGAGGACTTGGATGTGCCCCCTGCCCTAGCAGATTTCATCCATCAGCAACGAACTCAGCAGATTGAACAGGACATGTTTGCACATCCTTATCAGTATGAACTAGATCACTTTACTCCACCAGCTTCAGTGCTGCAAAAGCCACAACCCCAGTTACACAGACCTGTGGAAGAAACTCCCTGCCACTTTGTGTCCTCCCTGGATGAACTTGTGGAACTCAATGAGAAGCTCTTAAATTGTGAAGAATTTGCTGTAGACTTGGAGCACCACTCTTACAGAAGCTTCTTGGGACTGACCTGCCTGATGCAGATTTCCACTCGAACAGAAGACTTCATCGTGGACACCCTGGAGCTCCGCAGCGACATGTACATTCTCAACGAGAGCCTCACAAATCCCGCCATCGTTAAGGTCTTCCATGGTGCCGATTCTGACATCGAGTGGCTGCAGAAGGACTTTGGGTTGTACGTGGTGAACATGTTTGATACCCATCAGGCTGCGCGCCTCCTCAACCTGGGCAGGCACTCGCTCGACTACCTGCTGAGACTCTACTGTGGCGTGGAGTCCAACAAGCAGTACCAGCTGGCAGACTGGAGGATACGGCCTCTACCAGAGGAAATGCTCAGCTACGCCCGGGACGACACCCATTACCTGCTGTACATCTATGACAAGATGAGGCTGGAGCTGTGGGAGCGAGGCAACGAGCAGCCCACCCAGCTGCAGGCAGTGTGGCAGCGGAGCAGGGACATCTGCCTCAAGAAATTCGTCAAACCTATCTTCACAGATGAGTCCTATCTTGAATTGTACCGGAAGCAAAAGAAGCATCTCAATTCGCAGCAGCTGACAGCCTTCCAGCTGCTTTTTTCCTGGAGGGACAAGACAGCTCGCAGGGAGGATGAGAGCTTTGGATATGTTCTGCCAAACCATATGATGCTCAAGATCGCTGAGGAGCTGCCTAAGGAACCTCAGGGCATCATAGCTTGCTGCAACCCAGTACCGCCTCTTGTACGACAGCAGATCAATGAAATGCACCTTCTAATCCAGCAGGCTCGAGAGATGCCCCTGCTCAAGTCTGAGACTGCAGCCGGAGTGAAGAAGAGCGGACCACTGCCAGGTGTTGAGAGGCTGGAGAACATTCTCTTTGGACCTCACGACTGCTCCCATGCCCCTCCGGATGGCCACCCGCTCACCCCAACTGCTGGGCCTGTGCCAGCTCGGAAGCAGGCGAGCCTCTTCACTGACCCAAAAGAGGAGACCCAGTCCCTTCTCGCCACAGCGGTCATCACCCTATTTAATGAACCCAGTGCTGAGGAAAATGGAAAGACTCCATTAACAGTCGCACAGAAAAAGGCCCAGAACATCATGGAGTCCTTTGAAAACCCATTCCGGATGATCAGCAATCGTTGGAAGCTGGCCAGCCAGGTCCTGGTACAGAAAGAAGCTAAAGAAATTGCCAAGAAGAAGGTAGCTGAGCAGACAGCCACCCGGGAACAGGCAAAGGAAGAGTACAGAGCCACACTGGAGCAGGCCATCTCCGTGCGACAGCAGGCTGCGCTAGAAAATGCTGCCAAGAAAAGAGAACGAACAACAAGTGACCCAAGAACCATGGAACAGAAACAGGAGAAGAAACGACTCAAGATTTCCAAGAAGCCAAAGGACCCAGGTCCACCAGAGAAAGATTTCACCCCTTATGACTACAGCCAGTCAAACTTCAAGGCTTTTGCTGGAGACAGCAAACCGAAACCTTCCTCCCACTTTGACCCGAACAAGCAGGCCTCGGCTGGCAAGAATTGTGTTGCAGCCAAAAAACTGAAACAGTCAGTGGGAAACAAAAGCATGTCCTTTCCAACCGGAAAGTCAGACAGAGGCTTCAGGCACAACTGGCCGAAGAGATAG

XM_004863587.1 Coding sequence

Exosc10 exosome component 10, transcript variant X3

Length: 2400 bp    Location: 1699837..1723031   Strand: +
>XM_004863587.1
ATGAGCAGAGTAATGCAGTATCATGGGTGTCGCAGCAACATTAAGGACCGAAGTAAAGTGACTGAGTTGGAGGATAAGTTTGATTTACTAGTTGATACCAATGATGTGATTCTGGAGAGAGTGGGTATTTTACTGGATGAAGCATCAGGTGTGAATAAGCATCAGCAGCCTGTCCTCCCTGCAGGCCTTCAGGTCCCCAAAACAATAGTGTCCAGTTGGAACCGGAAGGCAGGAGAATATGGCAAAAAAGCAAAATCTGAAACTTTCCGGCTGCTTCATGCAAAAAATATCATCCGACCTCAGCTCAAGTTCCGAGAGAAGATGGACAATTCCAACACCCCATTTCTTCCTAAAATCTTCGTCAAGCCCAATGCCCAGAAACCCCTCCCTCAGGCTCTCTCTAAAGAAAGGCGAGAATGCCCACAGGACCGGCCTGAGGACTTGGATGTGCCCCCTGCCCTAGCAGATTTCATCCATCAGCAACGAACTCAGCAGATTGAACAGGACATGTTTGCACATCCTTATCAGTATGAACTAGATCACTTTACTCCACCAGCTTCAGTGCTGCAAAAGCCACAACCCCAGTTACACAGACCTGTGGAAGAAACTCCCTGCCACTTTGTGTCCTCCCTGGATGAACTTGTGGAACTCAATGAGAAGCTCTTAAATTGTGAAGAATTTGCTGTAGACTTGGAGCACCACTCTTACAGAAGCTTCTTGGGACTGACCTGCCTGATGCAGATTTCCACTCGAACAGAAGACTTCATCGTGGACACCCTGGAGCTCCGCAGCGACATGTACATTCTCAACGAGAGCCTCACAAATCCCGCCATCGTTAAGGTCTTCCATGGTGCCGATTCTGACATCGAGTGGCTGCAGAAGGACTTTGGGTTGTACGTGGTGAACATGTTTGATACCCATCAGGCTGCGCGCCTCCTCAACCTGGGCAGGCACTCGCTCGACTACCTGCTGAGACTCTACTGTGGCGTGGAGTCCAACAAGCAGTACCAGCTGGCAGACTGGAGGATACGGCCTCTACCAGAGGAAATGCTCAGCTACGCCCGGGACGACACCCATTACCTGCTGTACATCTATGACAAGATGAGGCTGGAGCTGTGGGAGCGAGGCAACGAGCAGCCCACCCAGCTGCAGGCAGTGTGGCAGCGGAGCAGGGACATCTGCCTCAAGAAATTCGTCAAACCTATCTTCACAGATGAGTCCTATCTTGAATTGTACCGGAAGCAAAAGAAGCATCTCAATTCGCAGCAGCTGACAGCCTTCCAGCTGCTTTTTTCCTGGAGGGACAAGACAGCTCGCAGGGAGGATGAGAGCTTTGGATATGTTCTGCCAAACCATATGATGCTCAAGATCGCTGAGGAGCTGCCTAAGGAACCTCAGGGCATCATAGCTTGCTGCAACCCAGTACCGCCTCTTGTACGACAGCAGATCAATGAAATGCACCTTCTAATCCAGCAGGCTCGAGAGATGCCCCTGCTCAAGTCTGAGACTGCAGCCGGAGTGAAGAAGAGCGGACCACTGCCAGGTGTTGAGAGGCTGGAGAACATTCTCTTTGGACCTCACGACTGCTCCCATGCCCCTCCGGATGGCCACCCGCTCACCCCAACTGCTGGGCCTGTGCCAGCTCGGAAGCAGGCGAGCCTCTTCACTGACCCAAAAGAGGAGACCCAGTCCCTTCTCGCCACAGCGGTCATCACCCTATTTAATGAACCCAGTGCTGAGGAAAATGGAAAGACTCCATTAACAGTCGCACAGAAAAAGGCCCAGAACATCATGGAGTCCTTTGAAAACCCATTCCGGATGTTCCTGCCTTCGCTAGAGCACCGGGCCCACATCTCCCAGGCAGCAAAGTTTGATCCATCCTCGAAAATCTATGAAATCAGCAATCGTTGGAAGCTGGCCAGCCAGGTCCTGGTACAGAAAGAAGCTAAAGAAATTGCCAAGAAGAAGGTAGCTGAGCAGACAGCCACCCGGGAACAGGCAAAGGAAGAGTACAGAGCCACACTGGAGCAGGCCATCTCCGTGCGACAGCAGGCTGCGCTAGAAAATGCTGCCAAGAAAAGAGAACGAACAACAAGTGACCCAAGAACCATGGAACAGAAACAGGAGAAGAAACGACTCAAGATTTCCAAGAAGCCAAAGGACCCAGGTCCACCAGAGAAAGATTTCACCCCTTATGACTACAGCCAGTCAAACTTCAAGGCTTTTGCTGGAGACAGCAAACCGAAACCTTCCTCCCACTTTGACCCGAACAAGCAGGCCTCGGCTGGCAAGAATTGTGTTGCAGCCAAAAAACTGAAACAGTCAGTGGGAAACAAAAGCATGTCCTTTCCAACCGGAAAGTCAGACAGAGGCTTCAGGCACAACTGGCCGAAGAGATAG

XM_004863591.1 Coding sequence

Tardbp TAR DNA binding protein, transcript variant X1

Length: 1245 bp    Location: 1789819..1759497   Strand: -
>XM_004863591.1
ATGTCTGAATATATTCGGGTAACAGAAGATGAGAACGATGAACCCATTGAAATACCAGCAGAAGATGATGGGACAGTACTACTGTCCACAGTTACAGCCCAGTTTCCAGGGGCATGTGGGCTGCGCTACAGGAATCCAGTGTCCCAATGTATGAGAGGCGTCCGTCTGGTTGAAGGAATTCTGCATGCCCCAGATGCTGGCTGGGGAAATCTGGTATATGTTGTCAACTATCCCAAAGATAACAAAAGGAAAATGGATGAGACAGATGCTTCTTCAGCAGTTAAAGTGAAAAGAGCAGTCCAGAAAACATCGGACTTAATAGTGTTGGGTCTTCCGTGGAAAACAACTGAGCAGGATCTAAAAGAATATTTTAGTACCTTTGGAGAAGTTCTTATGGTGCAGGTCAAGAAAGATATTAAAACTGGTCATTCAAAAGGCTTTGGCTTTGTTCGTTTTACGGAATATGAAACCCAGGTGAAAGTAATGTCACAGCGACATATGATAGATGGACGATGGTGTGACTGTAAACTTCCTAATTCTAAGCAAAGTCCGGATGAGCCTTTGAGGAGCAGAAAGGTGTTTGTTGGGCGTTGTACAGAGGACATGACTGCTGATGAGCTTCGGCAGTTCTTCTCTCAGTACGGAGAAGTGGAAGATGTCTTCATTCCCATACCGTTCAGGGCTTTTGCCTTTGTTACCTTTGCAGATGATCAGGTTGCCCAATCTCTTTGTGGAGAGGACTTGATCATTAAAGGAATCAGCGTGCATATATCCAATGCTGAACCTAAGCACAATAGCAATAGACAGTTAGAGAGAAGTGGAAGATTTGGTGGTAATCCGGGTGGCTTTGGGAATCAGGGTGGGTTTGGAAACAGTAGAGGGGGTGGAGCTGGCTTGGGAAACAATCAGGGCAGTAACATGGGTGGGGGGATGAATTTTGGTGCTTTTAGCATTAATCCAGCAATGATGGCTGCAGCCCAGGCCGCGCTGCAGAGCAGCTGGGGTATGATGGGCATGCTTGCCAGTCAGCAGAACCAGTCTGGCCCATCAGGTAATAACCAAAGCCAGGGCAACATGCAGAGGGAGCCAAATCAGGCTTTTGGCTCTGGAAATAACTCTTACAGTGGTTCTAATTCTGGTGCTGCAATTGGTTGGGGATCAGCATCGAATGCAGGGTCAGGCAGTGGTTTTAATGGAGGCTTTGGCTCAAGCATGGATTCTAAGTCTTCTGGCTGGGGAATGTAG

XM_004863598.1 Coding sequence

Pex14 peroxisomal biogenesis factor 14, transcript variant X2

Length: 1218 bp    Location: 2224212..2082709   Strand: -
>XM_004863598.1
ATGGCGTCTTCGGAGCAGGCAGAGCAGCCGAACCAGCCGAGCTCTACTCCAGGAAGTGAAAATGTGGTGCCTCGGGAGCCGTTGATTGCCACAGCAGTGAAGTTTCTACAGAATTCTCGGGTCCGCCAGAGCCCGCTTGCAACCAGGAGAGCATTCCTGAAGAAGAAAGGGCTGACCGATGAAGAGATCGACCTGGCTTTTCAGCAGTCGGGCACTGCTGCCGAGGAGCCCGCGTCCTTGGGCCCAGCCACGCAGGTGGTTCCTCTGCAGCACCCCCACCTCATTTCGCAGCCATACAACCCTGCAGGTTCCCGGTGGCGAGACTATGGTGCCTTGGCTGTCATCATGGCCGGAATCGCGTTCGGCTTTCACCAGCTCTACAAGAAGTACCTGCTGCCCCTCATCCTGGGTGGCCACGAGGACAGGAAGCAGCTGGAGAGGATGGCAGCGAGTCTCTCCGAGCTGAGTGGCAGCGTGGCCCAGACAGTGACCCAGGTGCAGACGACGCTGGCCTCCGTCCAGGAGCTGCTGAGGCAGCAGCAGCAGAAAGTCCAGGAGCTGGCCCAGGAGCTGGCTGCGGCCAAGGCGAGGCCCAGGAAGCAGTGGTCCCGGGGCTCTGTGACATCCTCTGAGGGTTTCACTCAAGCTGCTGTCCCAGCGAAAGCCACCCCTGTTGCACAGGCCACCACGTCTACCAACTGGATCCTGGAGTCCCAGAATATCAGTGAACTCAAGGCAGAGATTAACTCCTTGAAAGGGTTGCTTTTGAATCGGAGGCAGTTCCCGCCGTCCCCTTCGCCGTCGGCCCCGAAGATCCCCTCCTGGCAGATCCCGGTCAAATCGCCGTCACCCTCCAGCCCCGCGGCCGCCAACCATCACAGCAGCAGTGACATCTCCCCAGTGAGCAACGAGTCCACGTCGCCATCACCTGGGAAGGAGAGCCATAGCCCCGAGGGCGCCACGGCCGCCTACCACCTGCTGGGCCCGCAGGAGCAGGCCGAGGGCGAGGTGGACGTGAAGGGCCAGGTGCGCATGGAGGTGCAGGGCGAGGAGGAGAAGAGGGAGGACGAGGAGGACGAGGACGCGGGCCAGGCGGACGAGGAGGACGTGCTGGGGGTGCAGAGGGAGGACCGCCGGGGTGGGGACGGGCAGATCAACGAGCAGGTGGAGAAGCTTCGGCGGCCTGAGGGTGCCAGCAATGAGAGCGGGCGGGCCTAG

XM_004863608.1 Coding sequence

LOC101702498 centromere protein S-like, transcript variant X2

Length: 603 bp    Location: 2256434..2244114   Strand: -
>XM_004863608.1
ATGAGGCTCAAGGCAGCAGTCCACTACACGGTCGGCTGTCTGTGCCAGGAAGTCGAAGCGGACAAAGAGGTGCAGTTCAGCAAGCAAACCATCGCAGCAATTTCGGAGATGACCTTCCAGCAGTGTGAAAATTTTGCCAGAGACCTTGAAATGTTTGCCAGACATGCTAAAAGAAGCACGATTAACACTGAAGATGTGAAGCTCTTGGCCAGGAGGAGTAATTCACTGAGCCGGCTCAGAGCACTGATGCCAGGGCTGCCCACGATGGATGGCGCCCAAGCCCGAGGGACGCAGCAGCTGCTGCTGCTGCTGCTGCTGCTGCTCTGGGGGGCCACAGCCACCGCCCTGGCCCTGGAAGGCGGCCCTGCCAGCCAGGACCGTGTGCATATGCAGGAGATGGCAGAAATAAAGAAAGACAGCCTCCTGACTTTGCTCACGTGGTGGGATGAGTGGACCTCCCAGGCCAGTACTGGGGACCTCGTCGGGGGGCACAGCAGAAAGGTGGCCAAGCGACAGGAAGGCGCACCCCTCCAACAGCCCCCTCGCCGAGACAAAACACGCTGTAAAAACTTCTTCTGGAAGACCTTCTCCTCCTGCAAATAG

XM_004863606.1 Coding sequence

Pgd phosphogluconate dehydrogenase, transcript variant X2

High confidence: 3 potential gene matches
Length: 1308 bp    Location: 2269272..2261658   Strand: -
>XM_004863606.1
ATGCTTGGGATCTGGGTGCTGAGTGCTTGCAGGGGCTGGAAGTGCAGAAGGCCTGACGGTTCCCAGACGCCTCCTCCTGTTCACTGTGGCTGCAGCCTTAGGGTGTGTGGAGGAGAAGGCCGGCCTAGGGAGAAGAGCGTTGTCACGATGCTTCTCCAGGTGGGAGATGAGGGGGCCGGGCACTTCGTGAAGATGGTGCACAATGGCATCGAGTACGGCGACATGCAGCTCATCTGTGAGGCGTACCAGCTGATGAAGGACGTGCTGGGCCTGGGCCACACCGACATGGCCCAGGCATTCGAGGACTGGAATAAGACAGAGCTGGACTCGTTCCTGATTGAAATCACCGCCAATATCCTCAAGTTCAAAGACAGCGATGGCCAACATCTGCTGCCCAAGATCAGGGACAGCGCGGGGCAGAAGGGCACTGGGAAATGGACGGCCATCTCCGCCCTGGAGTACGGCGTTCCTGTCACCCTCATCGGAGAAGCTGTCTTCGCTCGGTGCTTATCGTCGCTGAAGGATGAGAGGGTCCAAGCCAGCAAGAGGCTGAAGGGCCCCCAGAAGACCCAGTTTGGGGGCGACAAGAAGTCCTTCCTGGAGGACATCCGGAAGGCCCTCTACGCGTCCAAGATCATCTCGTACGCGCAGGGCTTCATGCTGCTGAGGCAGGCGGCGTCCGAATTCGGCTGGACCCTCAACTACGGCGGCATCGCCCTCATGTGGCGAGGGGGCTGTATCATCCGCAGTGTCTTCCTGGGGAAGATAAAGGACGCCTTCGACCGAAACCCGGAACTCCAGAACCTGCTGCTGGATGACTTCTTCCGGTCAGCTGTGGAAAGCTGCCAGGACTCGTGGCGGCGCACGGTGAGCACCGGGGTCCAGGCGGGCATCCCCATGCCCTGCTTCACCACCGCCCTGTCCTTCTACGACGGCTACAGACACGAGATGCTGCCGGCCAACCTCATCCAGGTGAGTGGGGCCGGCGGCCGCCCCTGTGCCCCCTGCTTGCCCGCAGCCCTGTCCCCGCTCACCTGTCCCCGCCACCCTCCCAGGCGCAGCGGGATTATTTCGGGGCCCACACCTACGAACTCTTGGCCAAGCCGGGACAGTTCGTCCACACCAACTGGACGGGCCACGGCGGGAGCGTGTCGTCGTCCTCCTACAACGCCTGAGTGCACCGCTGCTCTGTGCCAGGACCGGCAGACGACACTCCAGTGGGGACCACGCCTCGGGGCAGCAGCAGCTGTGCCTTGGGTGGGGAGGTGGCCGCGGCAGGAGCGGGCTTGGAGACTGCCTGGCAGCTAG

XM_004863628.1 Coding sequence

Ube4b ubiquitination factor E4B, transcript variant X1

Length: 3918 bp    Location: 2561930..2449480   Strand: -
>XM_004863628.1
ATGGAGGAGCTGAGCGCTGATGAGATTCGCCGGAGGCGCCTGGCACGACTTGCGGGTGGACAGACCTCCCAGCCCACCACCCCGCTCACCTCACCCCAGAGGGAGAACCCTCCGGGGGCCCCGATTGCAGCATCAGCCCCGGGCCCTTCCCACAGTCTCGGCCTCAACGTCCACAACATGACCCCAGCTACCTCCCCAATAGGCGCCGCAGGAGTCGCCCACCAGAGCCAGAGCAGTGAGGGTGTCAGCTCTTTGAGCAGCTCACCTTCCAACAGCCTGGAGACACAGTCTCAGTCCCTGTCACGCTCCCAGAGCATGGATATTGATGGTGTCTCCTGTGAGAAAAGCATGTCACAGGTGGATGTGGATTCAGGGATCGAAAACATGGAGGTTGACGAAAACGACCGACGAGAGAAGAGGAGCCTTGGTGACAAGGAGCCTGCCCCAGGCCCAGAAGTGTCTGAAGAGCAGGCCTTGCAGCTGGTCTGTAAGATCTTCCGTGTTTCCTGGAAGGACCGGGACAGAGACGTCATCTTCCTGTCTTCTCTCTCTGCGCAGTTCAAGCAGAACCCAAAAGAAGTGTTCTCTGATTTTAAGGACTTGATTGGCCAGATCTTAATGGAAGTGCTCATGATGTCCACTCAGACCCGAGACGAAAACCCATTCGCCAGTCTCACCGCCACGTCCCAGCCCATCACCGCGGCAGCTCGGTCTCCGGACCGAAATCTCACGCTGAATACCGGCTCCAACCCAGGGACCAGCCCCATGTTCTGCAGCTTGGGCTCCTTCGGTGCCAGCTCTCTGTCTAGCCTCTATGACACTAGCCCAGCCCCTGCTGCTGGTCCCTGGAGCTCGGAGTCGGGGGCAAGTCCGTCCTCCGCCTCCCCCTCCCGTGCATCCCTCAGCCCTCTCGGGGCGGCTTCTGGATCTGCAGCAGGAAGCCAGCCCTCGGCCCTGTCCCTGTCTCTGTGCCCCCGATACCGGCCCTACACTGTCACACACCCGGGGGCGCCTCCGCCCTGTGCCACCCAGCGAGCCTCAGGTGTCCCCATCCCGCCCGGCTCCCCCAGCCTCCCTGCCCTTGTGGGGAGCCCCTCAGCTGGCAACTCGAGACCGAGGCCCCTGAGCGGGGGCCCAGCTGTCCCGCCTGCCTCACCCAGTGTCGCCAGCAGACGCCCCTCCTCCCTGCGGATGTCTCCTAGTTTGGGAGCCTCCGGCGGTGGAGCAAGTAGCTGGGATTCCTATAGCGACCATTTCACCATTGAAACCTGCAAGGAGACAGACATGCTGAACTACCTCATTGAGTGTTTTGACCGAGTTGGAATAGAGGAAAAAAAAGCACCAAAGATGTGCAGCCAGCCAGCAGCCAGCCAGCTTCTGAGCAACATCCGCTCACAGTGCATCTCCCACACCGCGCTCGTGCTGCAGGGCTCGCTGACACAGCCGAGGTCCATGCAGCAGCCGTCCTTCCTCGTGCCGTACATGCTGTGCAGGAATCTCCCTTACGGCTTCATCCAGGAGCTGGTGAGGACGACTCACCAGGACGAGGATGTCTTCAGACAGATCTTTATCCCCGTTTTGCAAGGCCTGGCTCTTGCTGCCAAAGAATGCTCCCTCGATAGTGACTACTTTAAATACCCCCTCATGGCATTAGGTGAACTCTGTGAAACCAAGTTTGGGAAGACACACCCTGTGTGCAATCTGGTTGCCTCTCTGCCCTTGTGGCTGCCGAAACCCTTAAGCCCCGGCTCCGGGAGGGAGCTGCAGAGACTCTCTTACTTGGGAGCCTTCTTCAGCTTCTCGGTCTTTGCTGAAGACGACATTAAAGTGGTCGAAAAATACTTCTCGGGGCCTGCCATTACCCTGGAGAACACTCGAGTGGTCAGCCAGTCCCTGCAGCACTACTTGGAGCTGGGAAGGCAAGAGCTCTTCAAGATTCTGCATAGTATTTTGTTAAATGGGGAGACCCGGGAGGCGGCCCTTGGTTACATGGCAGCTGTCGTCAATGCCAACATGAAGAAGGCGCAGATGCAGACAGACGATCGACTAGTATCTACAGATGGATTTATGCTGAATTTCCTCTGGGTACTGCAGCAGCTGAGTACCAAGATCAAGTTAGAGACAGTTGACCCCACGTATATATTCCACCCGCGCTGCCGGATTACACTGCCCAACGATGAGACGCGCGTGAACGCGACGATGGAGGACGTGAACGAGTGGCTGGCCGAGCTCTATGGAGATCAGCCTCCATTCTCGGAGCCCAAGTTCCCCACCGAGTGCTTCTTCCTCACGCTGCAAGCGCACCACCTCTCCATCCTGCCCAGCTGCCGCCGCTACATCCGCAGGCTCCGCGCCATCCGGGAGCTCAACAGAACTGTGGAAGATCTGAAAAATAATGAAAGCCAGTGGAAAGATTCCCCCCTGGCAACTAGACACCGCGAGATGCTGAAGCGCTGTAAAACTCAGCTTAAGAAACTGGTACGGTGCAAGGCCTGTGCTGACGCTGGCTTACTTGACGAGAGCTTCCTGAGAAGATGTCTGAATTTTTATGGCCTTCTCATTCAGCTGCTGCTCCGCATCCTGGACCCTGCATATCCCGACATAACACTGCCTTTAAGTTCAGATGTCCCCAAGGTATTTGCAGCATTGCCGGAGTTTTATGTAGAAGATGTTGCTGAATTTTTATTTTTTATTGTACAATACTCGCCTCAGGTGCTCTATGAGCCCTGTACTCAGGATATCGTGATGTTCCTTGTCGTGATGCTGTGCAACCAGAATTACATCCGGAATCCGTACCTAGTGGCCAAACTCGTAGAAGTCATGTTCATGACCAACCCTGCTGTTCAGCCTCGAACCCAGAAGTTTTTCGAAATGATTGAGAACCACCCACTCTCCACCAAATTGCTGGTACCTTCCCTGATGAAGTTCTACACAGATGTTGAGCATACTGGAGCCACCAGCGAGTTCTATGACAAGTTTACCATTCGCTATCACATCAGCACCATCTTTAAAAGCCTTTGGCAAAATATAGCTCACCATGGCACTTTCATGGAGGAGTTCAATTCTGGGAAGCAGTTTGTTCGCTATATAAACATGTTGATAAACGACACAACATTCTTGCTCGACGAAAGTCTGGAGTCGCTGAAGCGGATCCACGAGGTGCAAGAAGAGATGAAGAACAAAGAACAGTGGGACCAGCTGCCGAGGGATCAGCAGCAGGCCCGGCAGTCTCAGCTGGCTCAGGACGAGCGCGTCTCCCGCTCCTACCTCGCCCTGGCGACAGAAACCGTGGACATGTTCCACATCCTCACCAAGCAGGTCCAGAAGCCGTTCCTCAGACCGGAACTCGGACCCCGATTGGCTGCCATGCTGAACTTCAATCTTCAGCAGCTCTGCGGCCCCAAGTGCCGTGACCTGAAAGTTGAAAACCCTGAGAAGTATGGCTTTGAACCAAAGAAGCTATTGGACCAGCTGACGGATATTTACCTGCAGCTGGACTGTGCTCGCTTTGCTAAAGCCATCGCCGACGACCAGAGATCCTACAGCAAGGAACTGTTTGAAGAAGTCATTTCAAAGATGCGGAAGGCAGGGATCAAGTCCACCATAGCAATAGAGAAGTTTAAACTCCTCGCTGAGAAAGTCGAGGAGATCGTGGCCAAGAACGCACGCGCAGAAATCGACTACAGCGATGCCCCGGATGAGTTCAGAGACCCCCTGATGGACACCCTGATGACCGACCCTGTGCGCCTGCCCTCCGGCACCATCATGGACCGCTCCATCATCCTCCGGCACCTGCTGAACTCGCCAACTGACCCGTTCAACCGGCAGACGCTGACCGAGAGCATGCTGGAGCCAGTGCCAGAACTAAAAGAACAGATCCAGGCGTGGATGCGAGAGAAACAGAACAGCGATCATTAA

XM_004863629.1 Coding sequence

Ube4b ubiquitination factor E4B, transcript variant X2

Length: 3603 bp    Location: 2561248..2449480   Strand: -
>XM_004863629.1
ATGGATATTGATGGTGTCTCCTGTGAGAAAAGCATGTCACAGGTGGATGTGGATTCAGGGATCGAAAACATGGAGGTTGACGAAAACGACCGACGAGAGAAGAGGAGCCTTGGTGACAAGGAGCCTGCCCCAGGCCCAGAAGTGTCTGAAGAGCAGGCCTTGCAGCTGGTCTGTAAGATCTTCCGTGTTTCCTGGAAGGACCGGGACAGAGACGTCATCTTCCTGTCTTCTCTCTCTGCGCAGTTCAAGCAGAACCCAAAAGAAGTGTTCTCTGATTTTAAGGACTTGATTGGCCAGATCTTAATGGAAGTGCTCATGATGTCCACTCAGACCCGAGACGAAAACCCATTCGCCAGTCTCACCGCCACGTCCCAGCCCATCACCGCGGCAGCTCGGTCTCCGGACCGAAATCTCACGCTGAATACCGGCTCCAACCCAGGGACCAGCCCCATGTTCTGCAGCTTGGGCTCCTTCGGTGCCAGCTCTCTGTCTAGCCTCTATGACACTAGCCCAGCCCCTGCTGCTGGTCCCTGGAGCTCGGAGTCGGGGGCAAGTCCGTCCTCCGCCTCCCCCTCCCGTGCATCCCTCAGCCCTCTCGGGGCGGCTTCTGGATCTGCAGCAGGAAGCCAGCCCTCGGCCCTGTCCCTGTCTCTGTGCCCCCGATACCGGCCCTACACTGTCACACACCCGGGGGCGCCTCCGCCCTGTGCCACCCAGCGAGCCTCAGGTGTCCCCATCCCGCCCGGCTCCCCCAGCCTCCCTGCCCTTGTGGGGAGCCCCTCAGCTGGCAACTCGAGACCGAGGCCCCTGAGCGGGGGCCCAGCTGTCCCGCCTGCCTCACCCAGTGTCGCCAGCAGACGCCCCTCCTCCCTGCGGATGTCTCCTAGTTTGGGAGCCTCCGGCGGTGGAGCAAGTAGCTGGGATTCCTATAGCGACCATTTCACCATTGAAACCTGCAAGGAGACAGACATGCTGAACTACCTCATTGAGTGTTTTGACCGAGTTGGAATAGAGGAAAAAAAAGCACCAAAGATGTGCAGCCAGCCAGCAGCCAGCCAGCTTCTGAGCAACATCCGCTCACAGTGCATCTCCCACACCGCGCTCGTGCTGCAGGGCTCGCTGACACAGCCGAGGTCCATGCAGCAGCCGTCCTTCCTCGTGCCGTACATGCTGTGCAGGAATCTCCCTTACGGCTTCATCCAGGAGCTGGTGAGGACGACTCACCAGGACGAGGATGTCTTCAGACAGATCTTTATCCCCGTTTTGCAAGGCCTGGCTCTTGCTGCCAAAGAATGCTCCCTCGATAGTGACTACTTTAAATACCCCCTCATGGCATTAGGTGAACTCTGTGAAACCAAGTTTGGGAAGACACACCCTGTGTGCAATCTGGTTGCCTCTCTGCCCTTGTGGCTGCCGAAACCCTTAAGCCCCGGCTCCGGGAGGGAGCTGCAGAGACTCTCTTACTTGGGAGCCTTCTTCAGCTTCTCGGTCTTTGCTGAAGACGACATTAAAGTGGTCGAAAAATACTTCTCGGGGCCTGCCATTACCCTGGAGAACACTCGAGTGGTCAGCCAGTCCCTGCAGCACTACTTGGAGCTGGGAAGGCAAGAGCTCTTCAAGATTCTGCATAGTATTTTGTTAAATGGGGAGACCCGGGAGGCGGCCCTTGGTTACATGGCAGCTGTCGTCAATGCCAACATGAAGAAGGCGCAGATGCAGACAGACGATCGACTAGTATCTACAGATGGATTTATGCTGAATTTCCTCTGGGTACTGCAGCAGCTGAGTACCAAGATCAAGTTAGAGACAGTTGACCCCACGTATATATTCCACCCGCGCTGCCGGATTACACTGCCCAACGATGAGACGCGCGTGAACGCGACGATGGAGGACGTGAACGAGTGGCTGGCCGAGCTCTATGGAGATCAGCCTCCATTCTCGGAGCCCAAGTTCCCCACCGAGTGCTTCTTCCTCACGCTGCAAGCGCACCACCTCTCCATCCTGCCCAGCTGCCGCCGCTACATCCGCAGGCTCCGCGCCATCCGGGAGCTCAACAGAACTGTGGAAGATCTGAAAAATAATGAAAGCCAGTGGAAAGATTCCCCCCTGGCAACTAGACACCGCGAGATGCTGAAGCGCTGTAAAACTCAGCTTAAGAAACTGGTACGGTGCAAGGCCTGTGCTGACGCTGGCTTACTTGACGAGAGCTTCCTGAGAAGATGTCTGAATTTTTATGGCCTTCTCATTCAGCTGCTGCTCCGCATCCTGGACCCTGCATATCCCGACATAACACTGCCTTTAAGTTCAGATGTCCCCAAGGTATTTGCAGCATTGCCGGAGTTTTATGTAGAAGATGTTGCTGAATTTTTATTTTTTATTGTACAATACTCGCCTCAGGTGCTCTATGAGCCCTGTACTCAGGATATCGTGATGTTCCTTGTCGTGATGCTGTGCAACCAGAATTACATCCGGAATCCGTACCTAGTGGCCAAACTCGTAGAAGTCATGTTCATGACCAACCCTGCTGTTCAGCCTCGAACCCAGAAGTTTTTCGAAATGATTGAGAACCACCCACTCTCCACCAAATTGCTGGTACCTTCCCTGATGAAGTTCTACACAGATGTTGAGCATACTGGAGCCACCAGCGAGTTCTATGACAAGTTTACCATTCGCTATCACATCAGCACCATCTTTAAAAGCCTTTGGCAAAATATAGCTCACCATGGCACTTTCATGGAGGAGTTCAATTCTGGGAAGCAGTTTGTTCGCTATATAAACATGTTGATAAACGACACAACATTCTTGCTCGACGAAAGTCTGGAGTCGCTGAAGCGGATCCACGAGGTGCAAGAAGAGATGAAGAACAAAGAACAGTGGGACCAGCTGCCGAGGGATCAGCAGCAGGCCCGGCAGTCTCAGCTGGCTCAGGACGAGCGCGTCTCCCGCTCCTACCTCGCCCTGGCGACAGAAACCGTGGACATGTTCCACATCCTCACCAAGCAGGTCCAGAAGCCGTTCCTCAGACCGGAACTCGGACCCCGATTGGCTGCCATGCTGAACTTCAATCTTCAGCAGCTCTGCGGCCCCAAGTGCCGTGACCTGAAAGTTGAAAACCCTGAGAAGTATGGCTTTGAACCAAAGAAGCTATTGGACCAGCTGACGGATATTTACCTGCAGCTGGACTGTGCTCGCTTTGCTAAAGCCATCGCCGACGACCAGAGATCCTACAGCAAGGAACTGTTTGAAGAAGTCATTTCAAAGATGCGGAAGGCAGGGATCAAGTCCACCATAGCAATAGAGAAGTTTAAACTCCTCGCTGAGAAAGTCGAGGAGATCGTGGCCAAGAACGCACGCGCAGAAATCGACTACAGCGATGCCCCGGATGAGTTCAGAGACCCCCTGATGGACACCCTGATGACCGACCCTGTGCGCCTGCCCTCCGGCACCATCATGGACCGCTCCATCATCCTCCGGCACCTGCTGAACTCGCCAACTGACCCGTTCAACCGGCAGACGCTGACCGAGAGCATGCTGGAGCCAGTGCCAGAACTAAAAGAACAGATCCAGGCGTGGATGCGAGAGAAACAGAACAGCGATCATTAA

XM_004863635.1 Coding sequence

Lzic leucine zipper and CTNNBIP1 domain containing, transcript variant X3

Length: 645 bp    Location: 2591508..2602685   Strand: +
>XM_004863635.1
ATGGCTTCCAGAGGAAAGACAGAGACAAGCAAATTGAAGCAGAATTTAGAAGAACAGCTGGATAGGCTCATGCAGCAGTTACAAGACCTGGAGGAATGCAGAGAGGAACTTGATACAGATGAATATGAAGAGACCAAAAAGGAAACTCTGGAGCAGCTGAGTGAATTTAATGATTCACTGAAGAAAATTATGTCTGGAAATATGACGTTGGTGGATGAACTAAGTGGAATGCAACTGGCTATTCAGGCAGCCATCAGCCAGTCCTTCAGAACCCCAGAGGTCATCAGATTGTTTGCAAAGAAGCAACCCGGTCAGCTTCGTACAAGGTTAGCAGAGATGGACAGAGACCTGATGGTGGGCAAGCTGGAGCGAGACCTGTACACCCAGCAGAAAGTGGAGATCCTCACAGCGCTCCGGAAGCTCGGAGAGAAGGTGCTGTCCTCAGCCAGTTTGAGAAAGTCTCCTCGGACCTCGGCTCTGGAGACAAAGTCCTGGCTCTGGCAAGTTGTGAGGTTGAAAAAGCAAAAAAATGACAGTTTGGCAGCTGGTGACATCAATTACCTTCTTACTGTAAATGGTGGTTTTCTTCTGAGGATTTTGAGTCATTGCAAAGAAACAGAGTCTCGACATGTATTTACATCCTAA

XM_004863929.1 Coding sequence

Hes3 hairy and enhancer of split 3 (Drosophila)

High confidence: 4 potential gene matches
Length: 489 bp    Location: 5160823..5157188   Strand: -
>XM_004863929.1
ATGGAGAAGAAGCGCCGGGCGCGCATCAACCTGTCGTTGGAGCAGCTCAGGTCGCTGCTGGAGAAGCACTACTCGCACCAGATCCGGAAGCGCAAGCTGGAAAAGGCAGACGTCCTGGAGCTGAGCGTCAAGTACATGAAGAGCCTTCAGAGCTCGCTGCAAGGGCTCTGGCCCATGCCCAGCGGAGCCGAATCTCCGTCTGGCTTCCGAGGCTGCCTGCCCGGCGTGAACCAGCTGCTGCAGCGGGCCGAGGAGGGCAGCGGCGGCCCGTGCTTCGCCCCGGCGCCCGAGCGCGCGGGAGGCAGCACCACGGACAGCGCCCGCCCGGGGCCCGACGCCCCGGCCCCGGCCCCGGCCCGCCCCCTGTCCCCCCGGCTCCTCCTCCCCCGCGGTCTCCCTGGCTCCACCAACGTCCCTGCCCAGCAGCCAGCGCCGGGCCGCCAAGCCGAGAGCCCCGGGCCGGGGCCGCGCGTGTGGCGCCCCTGGTGA

XM_004863924.1 Coding sequence

Gpr157 G protein-coupled receptor 157

High confidence: 4 potential gene matches
Length: 990 bp    Location: 3109556..3121279   Strand: +
>XM_004863924.1
ATGCCGCCGCCCGCGCCGCCCACCCAGGTGCTGCCGGCAGAGCGCGTGGCCGTGCTGCTGTCGTGTGTGTTGTCCGCGCTGGGCTGTGGCCTGCTGCTGGCCACGCACGCCCTGTGGCCCGACCTGCGCAGCCCCGCGCGGCGCCTGCTGCTCTTCCTGTCGCTGGCCGACCTGCTCTCCGCCGCCTCCTACTTCTACGGGGCCCTGCGGGACTTCACAGGGCCCTCGTGGGACTGCGTGCTGCAGGGCGCGCTGTCCTCCTTCGCCAACGCCAGCTCCTTCTTCTGGACCATGGCCATCGCGCTCTACCTGTACCTGAGCATCGTGCGCGCGGCGCGCGGGCCCCGGGCCGACCGCCTGCTCTGGGCCTTCCACGGCGTCAGCTGGGGCATACCGATGACCATCACCGTGGTGGCTGTTGCCCTCAAGAAGATCGGCTACGACGCCTCCGATGTGTCGGTGGGCTGGTGCTGGGTGGATCTGGAGGCAGAGGACCGCGTGCTGTGGATGCTGCTGACGGGGAAGCTGTGGGAGCTGCTGGCCTACGTCACGCTGCCGGTGCTGTACCTCCTGGTCTGGAAGCACATCGACAGAGCGCACGAGGCGCTGTCCGAGTACCGGCCCATCTTCGAGTCACGCCGGCCGCAGCCCTGCGCCAACGCCTCGGTGGCCGACAAGAAGCTGCTGCTCATCCCGCTCGTCTTCATCTGCCTGCGCGCCTGGAGCACCGTGCGCTTCGTCCTCACGCTCCTGGGCTCCCCGCTGGTGCGCTCGCCGGCGCTGGTCGTCCTGCACGGCGTCGGGAACACCTTCCAGGGAGGGGCCAACTGCATCCTGTTCGTCCTCGGCACCCGCGCCGTCCGCATGCGGCTCTGCTCCCTGTGTCGCTGTTGTCCCCAGCCCTCCGCCCCGGGGCCCCCCGGCCCCCCCGGCCCCCCCAAGGCACCCACGTTCTCCAAGACAGGAGACCCCCCGGGACTCCCCCAGTGA

XM_004863731.1 Coding sequence

Rpl22 ribosomal protein L22

High confidence: 4 potential gene matches
Length: 387 bp    Location: 5189184..5197077   Strand: +
>XM_004863731.1
ATGGCGCCCGTGAAAAAGCTTGTGGCAAAGGGGGGCAAAAAAAAGAAGCAGGTCCTGAAGTTCACCCTTGACTGCACACATCCTGTAGAAGATGGAATCATGGATGCTGCCAATTTCGAGCAGTTTCTCCAGGAGAGAATCAAGGTGAATGGCAAAGCCGGGAATCTCGGTGGAGGGGTGGTCACCATCGAAAGGAGCAAGAGCAAGATCACCGTGACTTCCGAGGTGCCTTTTTCCAAAAGGTATTTGAAATATCTCACCAAAAAATATTTGAAGAAGAATAATCTACGTGACTGGTTGCGCGTAGTTGCTAACAGCAAAGAGAGTTACGAATTACGTTACTTCCAGATTAACCAGGATGAAGAGGAGGAGGAAGATGAGGATTAA

XM_004863852.1 Coding sequence

Aurkaip1 aurora kinase A interacting protein 1

High confidence: 4 potential gene matches
Length: 600 bp    Location: 8246678..8248002   Strand: +
>XM_004863852.1
ATGTTCCTGGCGCGCCTGACTTCGCGGTTTGCCAGGGCCGTGCCCTGGGCAGGGTGTAGTCGGCCGTGGCCTGTCTCGGTGGCTCCGGGCAGCCGTGCCTGCCAGCGCCCACACAGCTTGCAGCCCGCAGGCCTGAGCAGGACGGCCTTCCTTCCTGGCAAGGGGCCCCAGCTGGAGCTTGAGGAATTGCTGGTCCCCAGGAAGATGGCCATCAGCCCCCTGGAGAGCTGGCTGACCGCCCGCCACCTCTTACCCAAATTGAATGCTGGGACCCCAGCAACTGTGACTCCAGGCCAATTCTACCAGTGTCCTCCCGGCCAAGTGGAAGAGGGGACCAAGCAGGTGGATGAGGGCGTCTGGGATGCTCCGCAGATGCAGTGCAAAAATGTCCTGAAGATCCGACGGCGGAAGATGAACCACCACAAGTACCGAAAGCTGGTCAAGAGAACTCGGTTCCTACGCCGAAAAGTCCAGGGAGGACGCTTAAAGCGGAAGCAGGTGAAGTTTGAGAAAGACTTGAGACGCATCTGGCTGAAGGCCGGCCTGAAGGAGGCCCCCCAGGGGTGGCAGACCCCCAAGATCTACCTGAAGGTTAAATGA

XM_004863819.1 Coding sequence

Tmem52 transmembrane protein 52

High confidence: 4 potential gene matches
Length: 588 bp    Location: 7918555..7920136   Strand: +
>XM_004863819.1
ATGGCCTCGGGGCTCTCGGCTGGGCTCTTGCTGCTGCTCCTGCCGCTCCTGCTCTTGCGGCTGCCGCAGGTGGCGCCGGGCTCGGCGGACAGCGGCGGCTGCGACCCCTCGGACCAGTGCCCACCCCAGGCCCGCTGGAGCAGCCTGTGGCACGTGGGGCTCATCCTACTCACTGTCCTGCTGCTGCTGCTGTGCGGGGTCACTGCCAGTTGCATCGGGTTCTGCTGTCTCCGAAAGCAGGCACACACTCAGACTCACCTGTCCCCGGCGTGGCAGCCCCGTGACCTGACAGCCATCCCCGTGGACAGTGACAGCCCTGTGCACAGCACTGTGACCTCCTACAGCTCGGTGCAGTATCCACTGGGCATACGGCTGCCGCTGCCCTTTGGGGAGCTGGACCCAGACTTCATGGCCCTGCCGGCCTATAGCCTGTCCACCTTGGAGCTGCCACCCTCCTACGATGAGGCCATCAAGATGGCGAAGCCCAGAGATGAGCTGGCTCCTCCCCAGAAACCAGGTCCTCTCCCAGGGCCCTCGGGCCTCGGGACCACCCCAAGGCCCCAGGAGCCAGGTCCCAATGCCCAGTAG

XM_004863706.1 Coding sequence

Zbtb48 zinc finger and BTB domain containing 48, transcript variant X1

High confidence: 4 potential gene matches
Length: 2067 bp    Location: 4951229..4943773   Strand: -
>XM_004863706.1
ATGGACGGCTCCTTTGTCCAGCACAGTGTGAGGGTTCTGCAGGAGCTCAACAAGCAGCGGGAGAAGGGGCAGTATTGCGACGCCACCCTGGACGTGGGGGGCCTGGTGTTCAAGGCACACTGGAGCGTCCTTGCCTGCTGCAGTCACTTCTTCCAGAGCCTCTATGGGGATGGCTCAGGGGGCAGTGTTGTCCTTCCTGCTGGTTTCGCGGAGATCTTTGGCCTCCTTCTGGACTTTTTCTACACTGGTCACCTTGCCCTTACCTCAGGGAACCGGGATCAGGTGCTCCTGGCAGCCAGGGAGTTGCGAGTACCAGAGGTCGTGGAGCTGTGCCAGAGCTTCCAGTCCAAAACCTCCGTGGGACAGGCAGTGAGCGGCCAGAGTGGGCTGGGGAAACCTGCCTCTCGGGAAGTGAGCAGCCACCTCAAGGAGCCAACAGACTTGGAGGAAGAGGAAGGTTCGAGGACTCTGGGCCTGGTTCCCAGGGATCAGGACCCCAGAGATTGTCACAGCTCCCAGAGGCCCCAGCTCAGTCCCCCTGCTCAGACTGAGAGCCCCTCCTTCCTCTGTGGGAGACTCAAGCAGGCTGTGAAGCCTTGTCCCCCAGAGGACAAGGAGCCTGAGGACTGCAAAGTGCCCCCGAGGTCCTTCGAGGCTGAAGGTGCCCAGCTGCAGGGTGGGAGTAATGAGTGGGAAGTGGTGGTTCAAGTTGAGGACGACGGGGATGGTGATTGTGTTTCTGAGCTTGAGACTGTGCTGACCAGGAGGAAGTCAGAGGACATCAGAAAGCCCTGTGCTGCCGAGCCAGCCCTGGGTTCAGGGTCCCTGGCAGCTGAGCCCACTGAGAACAGAAAAGGGACAGCTGTGCCTGTTGAATGCCCTACGTGCCATAAAAAGTTCCTCAGCAAATACTATCTGAAGGTGCACAACAGGAAGCACACCGGGGAGAAACCCTTTGAGTGTCCCAAGTGTGGGAAGTGTTACTTCCGGAAGGAGAACCTCCTGGAGCATGAAGCCCGGAATTGCATGAACCGCTCGGAACAGGTCTTCACGTGCTCCGTGTGCCAGGAGACCTTCCGCCGGAGGACGGAGCTGCGGGTGCACATGGTGTCGCACACGGGGGAGATGCCCTACAAGTGCTCCTCCTGCTCCCAGCAGTTCATGCAGAAGAAGGATTTGCAGAGCCACATGATTAAGCTGCACGGAGCCCCCAAGCCCCACGCATGCCCCACCTGCGCCAAGTGCTTCCTGTCCCGGACTGAGCTACAGCTGCATGAGGCCTTCAAGCACCGCGGGGAGAAACTGTTTGTGTGCGAGGAGTGCGGGCACCGGGCCTCGAGCCGCAACGGGCTGCAGATGCACATCAAGGCCAAGCACAGGCACGAGCGGCCATACGTGTGCGAGTTCTGCAGCCACGCCTTCACACAGAAGGCCAACCTCAACATGCACCTACGCACACACACGGGTGAGAAGCCCTTCCAGTGCCACCTCTGTGGCAAGACTTTCCGTACCCAAGCCAGCCTGGACAAGCACAACCGCACCCACACGGGCGAGCGGCCCTTCAGCTGCGAGTTCTGTGAGCAGCGCTTCACGGAGAAGGGCCCCCTCCTGCGGCATGTGGCCAGCCGCCATCAGGAGGGCCGGCCCCACTTCTGCCAGATCTGTGGCAAGACCTTCAAAGCTGTGGAACAGTTACGCGTGCATGTCAGGCGGCACAAGGGGGTGCGGAAGTTCGAGTGCACTGAGTGTGGCTACAAATTCACACGGCAGGCCCACCTGCGGAGGCACATGGGGATCCACGACCGCGTGGAGAACTACAACCCGAGGCAGCGCAAGCTCCGCAACCTCGTCATCGAGGACGAGAAGATGGTGGTGGTGGCGCTGCAGCCTCCCGCGGAGCTGGAGGTGGGCTCGGCCGAGGTCATTGTGGAGTCCCTGGCCCAGGGCGGCCTGGCCCCCCAGCTCCCCAGCCAGGGACTGCGTGCCGAGGAGAGCTTCGCCGGCCCGGGTGTCCCGGAGCCCGCGCTCATCGTCACAGCTGCCGTCCCCGAGGACTGTGACACGTAG

XM_004863687.1 Coding sequence

Vamp3 vesicle-associated membrane protein 3

High confidence: 4 potential gene matches
Length: 393 bp    Location: 4019672..4012487   Strand: -
>XM_004863687.1
ATGTCTGCAGGTTCGAGTGCTGCCACTGGCAGTAACCGAAGACTTCAGCAGACACAAAATCAAGTAGATGAGGTGGTGGACATAATGAGAGTCAACGTGGATAAGGTGTTAGAAAGAGACCAGAAGCTCTCTGAGTTAGATGACCGTGCTGACGCGCTGCAAGCAGGAGCTTCTCAGTTTGAAACAAGTGCTGCCAAGTTGAAGAGGAAATACTGGTGGAAGAACTGCAAGATGTGGGCCATAGGGATTACCGTTCTGGTGATCTTCATCATCATCATCATCGGTGAGTTACTTCCTGTGTTTACAGATGACTGCCTACTATACAAGAATACAGAGTACAAAGCTCCCTCAGAATCACAGCTCATTCCCAGGCTTTCAAAGAATTTGCATTAG

XM_004863636.1 Coding sequence

Lzic leucine zipper and CTNNBIP1 domain containing, transcript variant X4

High confidence: 4 potential gene matches
Length: 645 bp    Location: 2592219..2602685   Strand: +
>XM_004863636.1
ATGGCTTCCAGAGGAAAGACAGAGACAAGCAAATTGAAGCAGAATTTAGAAGAACAGCTGGATAGGCTCATGCAGCAGTTACAAGACCTGGAGGAATGCAGAGAGGAACTTGATACAGATGAATATGAAGAGACCAAAAAGGAAACTCTGGAGCAGCTGAGTGAATTTAATGATTCACTGAAGAAAATTATGTCTGGAAATATGACGTTGGTGGATGAACTAAGTGGAATGCAACTGGCTATTCAGGCAGCCATCAGCCAGTCCTTCAGAACCCCAGAGGTCATCAGATTGTTTGCAAAGAAGCAACCCGGTCAGCTTCGTACAAGGTTAGCAGAGATGGACAGAGACCTGATGGTGGGCAAGCTGGAGCGAGACCTGTACACCCAGCAGAAAGTGGAGATCCTCACAGCGCTCCGGAAGCTCGGAGAGAAGGTGCTGTCCTCAGCCAGTTTGAGAAAGTCTCCTCGGACCTCGGCTCTGGAGACAAAGTCCTGGCTCTGGCAAGTTGTGAGGTTGAAAAAGCAAAAAAATGACAGTTTGGCAGCTGGTGACATCAATTACCTTCTTACTGTAAATGGTGGTTTTCTTCTGAGGATTTTGAGTCATTGCAAAGAAACAGAGTCTCGACATGTATTTACATCCTAA

XM_004863651.1 Coding sequence

Tmem201 transmembrane protein 201, transcript variant X1

High confidence: 4 potential gene matches
Length: 1992 bp    Location: 2835443..2817104   Strand: -
>XM_004863651.1
ATGGAGGGACTGAGCGCGCTGCTAGCCCGCTGCCCCACGGCCGGCCTGGCCGGTGGCCTGGGGGTCACAGCGTGCGCCGCTGCCGGCGTGCTACTCTACCGGATCGCGCGGAGGGCAAAGCCGACGCACATGGTGGTCAACTGCTGGTTCTGCAACCACGACACGCACGTGCCCTACGGAAACCGCAACTGCTGGGACTGTCCCCACTGCGAGCAGTACAACGGCTTCCAGGAGAACGGCGACTACAACAAGCCCATCCCTGCCCAGTACCTCGAGCACCTGAACCACGTGGTGAGCAGCATGCCCAGCCCCCATGACCCTGCGCAGCCACAGCAGTGGGTGAGCAGCCAGGTGCTTCTGTGCCGCAAGTGCAACCACCACCAGACCACCAAGATCAAGCAGCTGGCCGCCTTCACGCCCAGGGAAGAGGGCAAGTATGACGAGGAGATCGAGGTGTACCGCCACCACCTGGAGCAGATGTACAAGTTGTGTCGGCCGTGCCAGGTGGCCGTGGAGTACTACATCAAGCACCAGAACCGCCAGCTGCGCGCCCTGCTGCTCAGCCACCAGTTCCGGCGCCGGGAGGCAGACCAGGCCCAGAGCTTCAGCTCCTCTGTGGTGAAGGCCCCGGTCCAGGTCATCCTGCTCCGCGCCCTGGCCTTCCTGGCCTGCACCTTCCTGTTGACAACAGCGCTATACGGGCCCAGCAACCCCTTCACCCTGGGTGTCGCACTGCCCCCAGCCCTGCCACCTGGCACCAACAGCTCGGCCGCACCAGACAACAGCACTGCCCCAGGGACCAAGGGCTGGCAACAGCTGCTGGACCTGTTGCCCGAGCACACGGCAGAGACACTGCTGGAGGCCTGGGCCTTCGGGCAGAGCCACCAGATGGGCATCGTGGCCATGGGCCTGCTCACCTGCCTGCTGGCCATGCTGCTGGCCGGCCGCATCAGACTCCGCAGGATCGACGCCTTCTCCGCCTGCCTGTGGGCCCTGCTGCTGGGGCTGCACCTGGCCGAGCAGTACCTGCAGGTGGCCTCGCCTGGCTGGCTGGACACGCTCAAGCTCAGCGCGATGTCCCTGTGCTGCCTAGTGGGCTTCACAGCAACCGTGGCCACAAGGAAGGTGACGGGCCCTAGGAGGTTCCGGCCCCGAAGGTGCTTTCCCGGAGATGCCGTGGGCTTCCTCCCCGCCAGCCCCAGCCTTACAGTGCCCAGCCCCAGTGTCACGGGCTCCTCGCCGGCCCTGTTCGTGCCCACCCCACCCGGCTTCCTGCCGCTCACCAACCAGCAGCTGTTCCGGCCGCCCCGACGGGCCTCGCCCTCCTCACTGCCAGGCCGCCTCAGCCGGGCCCTCTCGCTGGGCACCATCCCCTCTCTGACTCGAGCAGATTCGGGGTACCTGTTCAGCGGGAGCCGCCCACCATCCCGGGCATCTCGCCCCCAGGAGGTTCCCCTTTCGGATTACTTCTCTTTGCTGTCGGGCCGCCACCTGTCCTCCCCTCTCCCATCTCCAGCGCCCTCCGTGGCCAGCTCAGTGGCCTCCAGCTACGGCTCTCTGCGCCACCGCAGGCCCCTCATCAGCCCCGCCCGGCTCAACCTGAAGGGCCAGAAGCTGCTGCTGTTCCCAGCCACCCCCGGGGAGCTGCCCAGCACCCCCAGCAGCTCGGAGGAGCACTCCCCACACAGCGGGAACCTCTTCACCCCGGGGCCACCCCTGCCACCCGCAAGGCAGCCCGTTCCCGACAGGGACACCATGCACAGCGCCGATGTGCGCGCCAGACCGGAGAGCGGCAGCCGCTCCATCAAGAAGGAGGATGACGCTTCCCAGTCGTCCATGTGTGTGGTGGACACCACCACCCGGGGGTGCTCGGAGGAGGCCGCCGCCTGGAAGGGGCGACTCGGTCCCTCCTTGACCCAGGGCCTCCTGGCGGTGAGCTTGGCTGCCAATGCTGTATTCACCTCCGCCTACCTGTACCAGAGCCTGCGCTGA

XM_004863593.1 Coding sequence

Tardbp TAR DNA binding protein, transcript variant X3

High confidence: 3 potential gene matches
Length: 1245 bp    Location: 1789820..1759497   Strand: -
>XM_004863593.1
ATGTCTGAATATATTCGGGTAACAGAAGATGAGAACGATGAACCCATTGAAATACCAGCAGAAGATGATGGGACAGTACTACTGTCCACAGTTACAGCCCAGTTTCCAGGGGCATGTGGGCTGCGCTACAGGAATCCAGTGTCCCAATGTATGAGAGGCGTCCGTCTGGTTGAAGGAATTCTGCATGCCCCAGATGCTGGCTGGGGAAATCTGGTATATGTTGTCAACTATCCCAAAGATAACAAAAGGAAAATGGATGAGACAGATGCTTCTTCAGCAGTTAAAGTGAAAAGAGCAGTCCAGAAAACATCGGACTTAATAGTGTTGGGTCTTCCGTGGAAAACAACTGAGCAGGATCTAAAAGAATATTTTAGTACCTTTGGAGAAGTTCTTATGGTGCAGGTCAAGAAAGATATTAAAACTGGTCATTCAAAAGGCTTTGGCTTTGTTCGTTTTACGGAATATGAAACCCAGGTGAAAGTAATGTCACAGCGACATATGATAGATGGACGATGGTGTGACTGTAAACTTCCTAATTCTAAGCAAAGTCCGGATGAGCCTTTGAGGAGCAGAAAGGTGTTTGTTGGGCGTTGTACAGAGGACATGACTGCTGATGAGCTTCGGCAGTTCTTCTCTCAGTACGGAGAAGTGGAAGATGTCTTCATTCCCATACCGTTCAGGGCTTTTGCCTTTGTTACCTTTGCAGATGATCAGGTTGCCCAATCTCTTTGTGGAGAGGACTTGATCATTAAAGGAATCAGCGTGCATATATCCAATGCTGAACCTAAGCACAATAGCAATAGACAGTTAGAGAGAAGTGGAAGATTTGGTGGTAATCCGGGTGGCTTTGGGAATCAGGGTGGGTTTGGAAACAGTAGAGGGGGTGGAGCTGGCTTGGGAAACAATCAGGGCAGTAACATGGGTGGGGGGATGAATTTTGGTGCTTTTAGCATTAATCCAGCAATGATGGCTGCAGCCCAGGCCGCGCTGCAGAGCAGCTGGGGTATGATGGGCATGCTTGCCAGTCAGCAGAACCAGTCTGGCCCATCAGGTAATAACCAAAGCCAGGGCAACATGCAGAGGGAGCCAAATCAGGCTTTTGGCTCTGGAAATAACTCTTACAGTGGTTCTAATTCTGGTGCTGCAATTGGTTGGGGATCAGCATCGAATGCAGGGTCAGGCAGTGGTTTTAATGGAGGCTTTGGCTCAAGCATGGATTCTAAGTCTTCTGGCTGGGGAATGTAG

XM_004863589.1 Coding sequence

Masp2 mannan-binding lectin serine peptidase 2, transcript variant X1

High confidence: 4 potential gene matches
Length: 1344 bp    Location: 1745481..1750837   Strand: +
>XM_004863589.1
ATGAGGTGGACAGCAGTGCCCATGGCGTCTCCCCGAGGGCTGCTTATCCTCCTGGGACTGCTGTGGGGCTCGGTGGCTGCCACCTCGGGCCTCAGGTGGCCTGAGCCTGTGTTCGGGCGTCTGGCGTCCCCCGGCTTCCCGGGAGAGTACCCCAACCTTCAGGAGCAGCGCTGGGCCCTGGCCGCGCCCCCAGGCTACCGCCTGCGACTCTACTTCACCCACTTCGACCTGGAGCTGTCCTACCTGTGCGAATACGACTTTGTCAAGCTGAGCTCGGGGACCAAGGTGCTGGCCACGCTGTGTGGCTGGGAGAGCACAGACACCGAGCGGGTGCCCAGCAACGACACCTTCTACTCGCCAGGCCCCAGCCTGGACGTCACCTTCCGCTCCGACTACTCCAACGAGAAGCCGTTCACGGGCTTTGAGGCCTTCTACGCCGCCGAGGACATCAACGAGTGCGAAGTGTCCCCGGGGGAGACACCACCCTGCGATCACCACTGTCACAACTACCTGGGTAGCTTCTACTGCTCCTGCCGGGTGGGCTACGTCCTGCACGAGAACAAGCGCACCTGCTCAGCCCTGTGCTCGGACCAGGTCTTCACCGCGCGGTCTGGGGAGCTCAGCAGCCCTGAATACCCGCGGCCGTACCCTAAACTCTCCAGCTGCACTTACCACATCCGCCTAGAGGAGGGGTTCAGTGTCATCCTGGACTTCGTGGGGCCCTTCGATGTAGAATCGCATCCTGAAAGCCAGTGTCCCTATGACTCCCTCCAGATCCACACAGGCAAAGGGAAGTACGGCCCACTGTGTGGGGAGACGTCGCCCCACAGGATCGAAACAAAGAGCAACACTGTGACCATCACTTTTGTCACCGATGACTCAGGGGACCACACAGGCTGGAAGATGCACTACACAAGCACAGCGCAGCCGTGCCCCAATCCGATGGCACCACCTAATGGCCGCATTTCACCCATGCAAGACAAGTACATCCTCCGTGACAGCTTCTCCATCTTCTGCGATGTTGGCCACGAGCTTCTGCACGTGAGTGACCAGGGGACAAACGGCAGCGATCACGATGGCACACTTACGTTCCTGTTCCTATCTGATGGGCAGAGGGTAGAGACAGCACGGTGGTTTCTTGCCAAGGTTTCAACGGTAAAATGCAAAGAAATAAGCCAGTGCCAGGCAAGAGGGATGGCATGGAGTTTTATTCTGGGTGTCCTGCCTTTTACAAATTTTGAAAGCATGTTTTTGGCGCCGGCGATGGAGCCCAGCGCCTCGTGCACACTAGGCATGCGCAGCTCCACCCCCTCTCCCGTGCGCACCCCCCCCCCGCTACTTTAG

XM_004863596.1 Coding sequence

Casz1 castor zinc finger 1, transcript variant X2

High confidence: 4 potential gene matches
Length: 5367 bp    Location: 2024597..2077767   Strand: +
>XM_004863596.1
ATGAAAGTTGATTATTTAAGTGAATTCGGCTTTCGACTCTCCGACTATGAGTTTGGGACCAAGGAGCGCAGAATGGATCTCGGAACAGCTGAAGGCACCCGGTGCACCGACCCGCCTGCAGGCAAGCCCTCAATGGCGGCCAAGCGCAAAGGTGGCCTGAAGCTCAACGCCATCTGCGCCAAGCTGAGCCGCCAGGTGGTGGTGGACAAGGGAGCAGAGGCCGGCTCCCAGGCCGTGGGCAGCCCACTGCGGCCCCGGGACAAGGAGTGCAGTGGCCCTGAGTCTGGGGTGCCCCAGGCTCCCCGAAGCGAAGAAGACAAGAGGCGGGCGGTGATCGAGAAGTGGGTCAACGGGGAGTACAGCGAGGAGCCAGCACCCACGCCAGTGTTGGGGCGAATTCCCCGAGAGGGCCTGGAGCTGCCGCCCGAGGGAGTCTACATGGTCCAGCCCCAGGGCTGCAGCGATGAGGAAGACCATGCAGAAGAGCCTTCCAAAGATGGCGGCGGCAGCCTGGAGGAGAAGGACTCGGATGGGACAGCCTCAAAGGACAGCAGTGGCCCTGGTGCCAAGCAGGCTTCAGGAGAGGCCTCCTCTCTGCGGGACTATGCGGCCTCCACCATGACCGAGTTCCTTGGCATGTTCGGCTACGACGACCAGAACACGAGGGACGAGCTGGCCAGGAAGATCAGCTTCGAGAAGTTGCACGCGGGCTCCACCCCTGAGGCGGCCACCTCCTCCGTGCTGCCCGCCTCAGAGGACGCCCTCAGCAAGCGGGTGCGGTTCTCCAAGTACGAGGAGTACATCCGAAAGCTCAAGGCCGGGGAGCAGCTCTCCTGGCCAGCCCACGGCACCAAGGTGGAGGAGCGGGCAGGCAAGGAGGTGGTGGGTCCCCTGCCGGGCCTGCGGCTGCCCAGCAACACCACCCACCTAGAGACCAAGGCCACCATCTTGCCCCTGCCGTCACACAGCAGTGTCCAGATGCAGAACCTGGTGGCCCGTGCCTCCAAGTATGACTTCTTCATCCAAAAACTGAAGACGGGTGAGAACCTGCGGCCCCAGAATGGGAGCACCTACAAGAAGCCATCCAAGTACGACCTGGAGAACGTCAAGTATCTGCACCTCTTCAAACCAGGGGAGGGCAGCCCTGACATGGGCGGGGCCATCGCCTTCAAGACGGGCAAAGTGGGGCGGCCCTCCAAGTACGACGTCCGGGGCATCCAGAAGCCCAGCCCCGCCAAGGTTCCACCCACCCCCAGCCTGGCTCCTGCAGCCCTCGCCGTTGTGCCCAGTGCTCCCAGCGCCCCCGGGCCAGGGCCCGAGCCACCTGCCTCCCTGTCCTTCAACACTCCTGAGTACCTGAAGTCCACCTTCTCCAAAACAGACTCCATCACCACAGGCACCGTCTCCACTGTCAAGAACGGATTGCCCACAGATAAGCCAGCTGTCACTGAAGATGTAAACATTTACCAGAAATATATTGCCAGGTTCTCAGGCAGTCAGCACTGTGGCCATATCCATTGCGCCTACCAGTACCGTGAGCACTACCACTGCCTGGACCCAGAGTGCAACTACCAGAGGTTCACGAGTAAGCAGGACGTGATCCGGCACTACAACATGCACAAGAAGCGCGACAACTCCCTGCAGCACGGCTTCATGCGCTTCAGCCCGCTGGATGACTGCAGTGTATACTACCACGGCTGCCACCTCAACGGGAAGAGCACCCACTACCACTGCATGCAGGTGGGCTGTAACAAGGTGTACACAAGCACGTCCGACGTGATGACCCACGAGAACTTCCACAAGAAGAATACACAGCTCATCAACGACGGCTTCCAGCGCTTCCGAGCCACTGAGGACTGCGGCACGGCCGACTGCCAGTTTTATGGACAGAAGACCACGCACTTCCACTGCAGGCGCCCTGGCTGCACATTCACCTTCAAGAACAAGTGTGACATTGAGAAGCACAAGAGCTACCACATCAAGGATGACGCCTATGCTAAGGATGGCTTCAAGAAGTTCTATAAGTACGAGGAGTGCAAGTATGAGGGCTGTGTGTACAGCAAGGCCACCAACCACTTCCACTGCATCCGCGCCGGCTGCGGCTTCACCTTCACCTCCACCAGCCAGATGACCTCGCACAAGCGCAAGCACGAGCGCCGCCACATCCGCTCCTCGGGCGTGCTGGGGCTGCCACCCTCGCTGCTGGGCGCCAAGGACACGGAGCACGAGGAGTCAAGCAACGACGACCTGGTCGACTTCTCTGCCCTGAGCAGCAAGAACTCCAGCCTGAGCGCCTCTCCCACTAGCCAGCAGTCCTCCGCATCCCTGGCCGCCGCTGCCAGCGCCACCACCGAGGCTGTGCCCAGTGCCACCAAGCCTCCCAACAGCAAGGTCTCGGGGCTTCTGCCCCAGGGCCTGCCTGGCTCCATCCCGCTGGCACTGGCCCTCTCCAACTCTGGCCTGCCCACCACTGCGCCCTATCTCCCCCTCCTCCCTGGCCGGGGGAGCGCGTCCCTGCCTGTGGGTGCCCCCGGCCTTCTGAGTGCCGTGTCATCTGGGGCAGCACCCTCAGCAGCCCCTGACACACCTGCTCTGGTGGCCTCAGGAGCTGGAGACTCGGCCCCAGCAGCTGCCACCTCTGTCCTGGTGCCCCCTGCCTCCATCATGGAGAGGATCTCTGCGAGCAAAGGGCTCATCTCACCCATGATGGCCAGACTGGCTGCGGCTGCCCTCAAGCCCTCTGCCACCTTTGACCCAGGAAGCGGGCAGCAGGCCACCCCTACCAGGTTCCCCCTGGCCCAGGTGAAGCAGGAGCCCTGCAGCGAGAGCGCTGGTGCCCCAGGCCCACACGAGGCTGCCCACGACCGCAGTCTCAACCTGACTGTGAAGGAGCCCAGTAATGAATCAAATGGCCACGCAGTCCCAGCAAATTCATCTCTTTTATCCTCGCTTATGAATAAGATGTCTCAGGGCGACCCTGGCCTCGGCAGCCTGCTGAACATCAAGGCAGAAGTGGAGGGGAGCCCTGCTACGGAGCCCTCACCCTTCCTGGGCAAGGCTGTGAAGGCACTTGTCCAGGAGAAGCTGTCGGAGCCCTGGAAGGTGTACCTGCGCAGGTTTGGTACCAAGGACTTCTGTGACGCCCAGTGTGACTTCCTCCACAAGGCCCATTTCCACTGCGTGGTGGAGGAGTGTGGTGCGCTCTTCAGCACCCTGGACGGGGCCATCAAGCACGCAAACTTCCACTTCCGGACAGAGGGAGGAACAGCGAAAGGAAACACAGAGGCTTCCTTCCCAGCCTCTGCTGCTGAGACCAAACCTCCCCTAGCACCCTCATCCCCCCCAGCACCCCCTGGCGCCACAGTCCCGGGGTCTTCCCTGGAGGGGCCCACTCCTAACCCAGCCTTGGTGCCCTCCACCCCCACCCTGCTCGCCTGGAAGCAGCTGGCTTCCACCATACCCCAGATGCCTCAGATGCCCGCGTCAGTGCCTCACCTTCCCGCTTCACCCTTGGCAACGACTTCTCTAGAGAACGCCAAGCCCCAGGTCAAACCCGGATTCCTCCAGTTCCAGGAGAATGATCCTTGCCTCACGACAGACTGCAAGTACGCCAACAAGTTCCACTTCCACTGTCTCTTTGGGAACTGCAAGTACGTCTGCAAGACCTCTGGCAAGGCTGAATCCCACTGCCTGGATCACATCAACCCCAACAACAGCCTGGTGAATGTGCGAGACCAGTTTGCTTACTATTCCCTCCAGTGTCTCTGTCCCAACCAGCACTGTGAATTCCGGATGCGAGGGCACTACCACTGCCTCCGGACTGGCTGCTACTTTGTGACCAACATCACCACCAAGCTGCCCTGGCACATAAAGAAGCATGAGAAGGCTGAGCGGCGGGCGGCCAATGGATTCAAATACTTCACCAAGCGGGAGGAGTGCGGCAGGCTAGGCTGCAAGTACAACCAGGTGAACAGCCACTTCCACTGCATCCGGGAGGGCTGCCAGTTCTCCTTCCTCCTCAAGCACCAGATGACCTCTCACGCCCGGAAGCACATGCGGAGGATGCTAGGGAAGAACTTCGACCGAGTGCCCCCCTCCCAGGGCCCCCCAAGCCTGATGGATGCCGAGACAGATGAGGGCATGGATTACACCGGCTGCAGCCCAGGCGCTGCCTCCTCCGAGTCGTCCACCATGGATCGGAGCTGCTCAAGCACCCCGGTGGGCAACGAGAGCACTGCGGCAGGGAACACCATCTCCATGCCCACCGCCTCGGGGGCCAAAAAGCGCTTCTGGATCATCGAGGACATGTCGCCCTTCGGCAAGCGGCGGAAGACGGCCTCCTCGCGCAAGATGCTGGACGAGGGCATGATGCTGGAGGGCTTCCGGCGCTTCGACCTCTACGAGGACTGCAAGGACGCGGCCTGCCAGTTCTCACTCAAGGTCACGCACTACCACTGCACTCGGGAGAACTGCGGCTACAAGTTCTGCGGGCGCACGCACATGTACAAGCACGCGCAGCATCACGACCGCGTGGACAACCTGGTGCTGGACGACTTCAAGCGCTTCAAGGCCTCGCTCAGCTGCCACTTCACCGACTGCCCATTCTCGGGCACCAGCACGCACTTCCACTGCCTGCGCTGCCGCTTCCGCTGCACCGACAGCACCAAGGTCACGGCGCACCGCAAGCACCACGGCAAGCAGGACGTGATCAGCGCCGCGGGCTTCTGCCAGTTCAGCTCGAGCGCAGACTGCGCCGTGCCCGACTGCAAGTACAAGCTCAAGTGCTCGCACTTCCACTGCACCTACCCGGGCTGCCGCCACACGGTGGTGGGCATGTCGCAGATGGACTCGCACAAGCGCAAGCACGAGAAGCAGGAGCGCGGGGAGCCGCCCGCCGCGTCGCCCTCGCCCTCGCCCTCGCCCGGCGGCCTGGATGGGGCGCTCGCGCTCGGCGCTGAGCCCGGGGCGTCGCTGCTCTTCCTGCAGTCGGCGGCCACGGGCCTGGGCCTGGCCCTGGCGCTGGGCGATGCGGGTGACCCCGGGCCGCCCGACGCCGCCGCAGCTGCCTCCCGCCCGCAGGAGGGGCCCACTGTGCCCGGCCCGGCCAGCGCTGCTGTCCAGGCCGCGGGGGAGTCCTCGCAGGAGGATGACGAGGAGGAGCTGGAGATGCAGGAGGAGGCCGAGGACGACGACGACGACGAGGACGACGACGAGGACGACGACGAGGACGACGACGACGACGAGGACGACGACGACGAGGACCTGCGCACCGACTCGGAGGAGTCGCTGCCCGAGGCGGCAGCCGAGGCCCCGGCGCTGGTGGCCCTGGGCACCCCGGGGCCAGCGCCCGCCGCGGCATCGCCCTAG

XM_004863623.1 Coding sequence

Kif1b kinesin family member 1B, transcript variant X8

High confidence: 4 potential gene matches
Length: 5331 bp    Location: 2428563..2282999   Strand: -
>XM_004863623.1
ATGTCGGGAGCCTCGGTGAAGGTGGCTGTCCGGGTGCGGCCCTTCAATTCTCGGGAGACCAGTAAGGAGTCCAAGTGCATCATTCAGATGCAGGGCAGCTCAACCAGTATTATTAACCCAAAGAACCCTAAGGAAGCACCGAAGTCCTTCAGCTTCGACTACTCCTACTGGTCTCACACCTCGCCTGAAGATCCCTGCTTTGCATCTCAAAACCAAGTGTACAATGACATTGGGAAGGAAATGCTCTTACATGCCTTTGAGGGCTATAACGTCTGTATTTTTGCCTACGGGCAGACTGGTGCTGGGAAATCTTACACAATGATGGGTAAACAGGAAGAAAGCCAGGCTGGCATCATTCCACAGTTGTGTGAAGAGCTCTTTGAGAAGATCAATGACAACTGTAATGAAGAGATGTCTTACTCTGTAGAGGTGAGCTACATGGAAATTTACTGTGAGAGAGTGCGAGATTTGCTGAACCCCAAAAACAAGGGTAACTTACGTGTACGTGAACACCCGCTTCTTGGCCCCTATGTGGAAGACCTGTCGAAGCTGGCAGTGACTTCTTACACTGACATCGCTGACCTCATGGACGCTGGGAACAAAGCCAGGACAGTGGCAGCTACCAACATGAATGAAACAAGTAGTCGTTCCCATGCTGTGTTTACCATTGTTTTCACCCAGAAGAAACATGACTCAGAGACGAACCTCTCCACTGAGAAGGTCAGTAAAATCAGCTTGGTGGATCTAGCAGGAAGTGAACGCGCTGATTCAACTGGTGCCAAAGGAACTCGATTAAAGGAAGGAGCAAACATTAATAAGTCCCTTACAACACTGGGCAAAGTCATTTCAGCCTTGGCAGAAGTGGATAACTGCACCAGCAAGAGTAAGAAGAAGAAGAAAACTGATTTCATTCCTTACAGGGATTCTGTACTTACTTGGCTTCTTCGAGAAAATCTGGGTGGCAATTCTCGGACTGCAATGGTTGCTGCTCTGAGCCCAGCAGACATCAACTATGATGAAACTCTGAGCACTCTGAGATATGCAGATCGTGCGAAACAGATTAAATGTAATGCTGTCATCAATGAGGACCCCAATGCCAAACTGGTTCGCGAGTTAAAGGAGGAAGTGACACGGCTGAAGGACCTGCTTCGTGCTCAGGGACTAGGAGATATTATTGATACATCCATGGGGTCCCTCACTTCATCTCCGTCCTCCTGCTCGCTCAGTAGTCAGGTGGGGCTGACATCTGTGAGCAGCATTCAGGAGAGGATCATGTCTACACCTGGAGGAGAGGAAGCCATTGAGCGTCTGAAGGAATCAGAGAAGATCATCGCTGAGTTGAATGAAACCTGGGAAGAGAAGCTTCGAAAAACAGAAGCCATCAGAATGGAGAGAGAGGCCTTGTTGGCAGAGATGGGCGTTGCCATTCGGGAAGATGGAGGAACGCTGGGGGTTTTCTCACCTAAAAAGACCCCACATCTTGTTAACCTCAATGAAGACCCACTAATGTCTGAATGCCTGCTTTATTACATCAAGGATGGGATTACAAGGGTCGGCCAAGCAGATGCTGACCGGCGCCAGGACATAGTGCTGAGTGGGGCCCACATTAAAGAGGAGCACTGCATCTTCAGGAGCGAGAGAAACAACAGTGGCGAAGTTATCGTGACTCTGGAGCCCTGTGAGCGCTCGGAAACCTACGTGAATGGCAAAAGGGTAGCCCAGCCTGTTCAGCTCCGCTCAGGAAACCGTATCATCATGGGTAAAAACCATGTTTTTCGTTTTAACCACCCGGAGCAAGCGCGGGCTGAGCGGGAGAAGACTCCTTCTGCTGAGACCCCCTCTGAGCCTGTGGACTGGACATTTGCCCAGAGAGAGCTCCTGGAGAAACAAGGGATTGATATGAAACAGGAGATGGAAAAAAGGCTACAGGAAATGGAGATCCTTTACAAAAAGGAAAAGGAGGAAGCAGATCTTCTGTTGGAGCAGCAGAGACTGGACTATGAGAGTAAATTGCAGGCCTTGCAGAAGCAGGTTGAGACCCGATCCCTGGCTGCCGAAACAACTGAAGAGGAAGAAGAGGAGGAAGAAGTTCCGTGGACACAGCATGAATTTGATTTGGCTCAGTGGGCCTTCCGCAAGTGGAAGTCTCACCAATTTACTTCATTGCGGGACTTACTCTGGGGCAATGCTGTGTACCTGAAGGAGGCCAATGCCATCAGTGTGGAGCTGAAGAAGAAGGTGCAGTTCCAGTTTGTTCTTCTGACTGACACACTGTACTCCCCTTTGCCACCTGAACTGCTTCCCACTGACGTGGAAAAGATTCACGAGGATAGGCCTTTCCCTCGCACAGTGGTGGCAGTAGAAGTTCAGGATCTGAAGAATGGAGCAACGCATTATTGGTCTTTGGAGAAACTTAAACAGAGGCTGGATTTGATGCGAGAGATGTATGACAGGGCAGGTGAGATGGCCTCCAACGCCCAAGACGAAAGCGAAGCCACCATGACGGGCAGCGATCCATTCTACGATCGGTTCCACTGGTTCAAACTTGTGGGAAGCTCCCCCATTTTCCACGGCTGTGTGAATGAGCGCCTTGCCGACCGCACACCCTCCCCTACTTTTTCCACGGCCGACTCCGACATCACTGAGCTGGCTGACGAGCAGCAAGATGAGATGGAGGATTTTGATGATGAGGCATTCGTGGATGACACCGGCTCTGACGCAGGGACGGAGGAGGGATCAGATCTCTTCAGTGATGGGCGTGACCCGTTTTACGACCGGTCCCCTTGGTTCATTTTGGTGGGAAGGGCATTTGTGTACCTGAGCAATCTGCTCTACCCCGTGCCCCTGATCCACAGGGTGGCCATCGTCAGCGAGAAGGGGGAGGTGCGGGGATTTCTGCGTGTGGCCGTCCAGGCCATTGCAGCGGATGAAGAAGCTCCGGATTATGGCTCTGGAATTCGACAGTCAGGAACAGCTAAAATATCTTTTGATAACGAATACTTTTATCAGAGTGACTTTTCCTCAGTTGCAATGACTCGTTCTGGTCTGTCCTTGGAGGAGCTGAGGATTGTGGAAGGACAGGGTCAGAGTTCTGAGGTCATCACTCCTCCAGAGGAAATCAGCCGAATGAATGATCGGGATTTGAAGTCAGGCACTTTGCTGGATGGTAAGATGGTGATGGAAGGGTTTTCCGAAGAGATTGGCAACCACCTGAAACTGGGCAGTGCCTTTACCTTTCGAGTAACAGTGTTGCAGGCCAGCGGGATCCTCCCCGAGTATGCGGATATCTTCTGTCAGTTCAACTTCTTGCATCGCCATGATGAAGCGTTCTCCACTGAACCCCTCAAAAACAACGGCAGAGGAAGTCCCCTGGGCTTTTATCATGTGCAGAATATTGCGGTGGAGGTCACAGAGTCATTTGTGGACTATATCAAAACCAAGCCTATTGTATTTGAAGTCTTTGGGCATTATCAGCAGCACCCACTTCATCTGCAAGGACAGGACCTTAGCAGTCCGCCTCAGCCTTCTCGACGATTCTTCCCTCCACCCATGCCACTCTCCAAGCCAGTTCCAGCCACCAAGTTAAACACCATGAGCAAAACCAGCCTCGGCCAAAGCATGAGCAAGTATGACCTCCTGGTTTGGTTTGAGATCAGTGAACTGGAGCCTACAGGAGAGTACATCCCGGCTGTGGTTGACCATACTGCAGGGTTACCCTGCCAGGGGACGTTTCTGCTTCACCAGGGCATCCAGCGAAGGATCACAGTGACCATCATCCACGAGAAGGGGAGTGAGCTGCACTGGAAAGACGTCCGGGAGCTGGTGGTAGGCCGGATTAGAAATAAGCCCGAGGTGGATGAAGCTGCAGTCGATGCCATCCTCTCCCTAAATATCATCTCTGCCAAGTACCTGAAGTCTTCGCACAACTCCAGCAGAACCTTCTACCGTTTCGAGGCCGTGTGGGACAGCTCCCTCCATAACTCCCTTCTCCTGAACCGAGTGACGCCCTACGGAGAGAAGATCTACATGACCCTGTCCGCCTACCTGGAGCTGGACCACTGCATCCAGCCTGCGGTCATCACCAAGGACGTGTGCATGGTCTTCTATTCCCGAGACGCCAAGATCTCGCCGCCACGCTCTCTGCGCAGCCTCTTTGGCAGTGGCTACTCCAAGTCACCAGACTCGAATCGAGTCACTGGGATTTATGAACTCAGCTTATGCAAAATGGCAGACACAGGTAGCCCAGGCATGCAGAGGCGGCGGAGGAGAGTGCTGGACACATCAGCGGCCTATGTGCGCGGTGAGGAAAACCTGGCCGGCTGGCGGCCCCGCGGGGACAGCCTCATCTTGGAGCACCAGTGGGAGCTGGACAAGCTGGAGCTGCTGCACGAGGTGGAGAAAACGCGCCACTTCCTGCTGCTGCGTGAGAGACTTGGTGACAGCATCCCCAAATCCCTGAGTGACTCATTGTCCCCCAGCCTCAGCAGTGGGACCCTCAGCACCTCCACCAGCATCTCCTCTCAAATCTCAACCACCACCTTCGAAAGCGCCATCACCCCCAGCGAGAGCAGCGGGTATGACTCGGCAGACATCGAGAGCCTGGTGGATCGCGAGAAAGAGCTGGCCACCAAGTGCCTGCAGCTCCTCACCCACACTTTCAACCGGGAGTTCAGCCAGGTGCACAGCAGCATCAGCGACTGCAAGTTGTCTGACATCTCTCCAATGGGACGCAACCCTTCCGTGTCCAGTTTCAGCAGTGCCACCCTCACCCCGTCCTCCACATGCCCCTCTCTGGTCGACTCCAGGAGCAACTCTGTGGATCAGAAGACCCCAGAAGCCAATTCCCGGGCCTCCAGTCCCTGCACAGAATTTGAACAGTTTCAGATCATCCCAGCTGTAGAGACACCCTATTTGGCCCGAGCAGGAAAACATGAATTTCTCAATCTCGTTCCAGATATTGAAGAAATCCGACCAGGCTCAGTGGTCTCTAAGAAAGGATACCTGCATTTCAAGGAGCCGCTTTCCAGCAGCTGGGCCAAGCATTTTGTTGTGGTCCGTCGCCCTTACGTCTTCATCTACAACAGTGACAAGGACCCAGTGGAACGTGGCATCATTAACCTGTCCACGGCACAGGTGGAGTACAGTGAGGACCGGCAGGCTATGGTGAAGACACCTAACACCTTCGCTGTGTCCACAAAGCATCGAAGGGTCCTTCTGCAGGCTGTCAATGACAAGGACATGAATGACTGGTTATATGCCTTTAACCCCCTCCTTGCTGGCACAATACGGTCAAAGCTGTCCCGGAGATGCCTGAGCCAGCCCAAGTACTGA

XM_004863923.1 Coding sequence

Clstn1 calsyntenin 1

High confidence: 4 potential gene matches
Length: 3864 bp    Location: 2679726..2751653   Strand: +
>XM_004863923.1
ATGTCCTCTGCAGGTTCAGAGCCGGGTACAGGCGCAGTGACTGCCAAGGGCCACACCAAAGTGGCCTGGGAAGTTTGTGTCCCCTCCGAGTACCGCTGCACATCTCCTCTGTACAATGGAGCCGCTGAGTCTCAGGGCGCAGTGCCCCAGCGTGGGACGCTGCTGGGGTCCGGCAGCGAGAAGGGGCGCCGGGCCGGGACACAGGGAGAAGGGACGACCCCAGACGTCCCCGGCGTCCTCTGCGTTTGGGGGGCTGTGGCACCGTCGCAAGCCCCGCGGATCCCTCAGGAAGAGCCAGCACCGCCACCGCGAGTCCCCGTCCCCGTCCCCGACCTGAGCCGGCTGACCCCGGCCTCGGACGCCTCTCCCGACCCGAGCTCGCTCAGGTCCCCGCCCTCGGCAGAGGATGCCGCAGAGGTTCAGGGAGGGACGGGGCGGCCCGCAGGGAGGCGCTGGGGGGTCCGGGCTCCTCCGGGGTGCGAGGGCGGGGAGCCCGGGTCCTTCGGGTGCAGAGGAGGAGCGCCCCGGGCGTGGAGGCCCCAGCACCGCTCGGAGGCGCGCGTGGGGAATGAGGGGACAGCGACGAGGGGAGCGAGACTGGCGGGGCCGGGCGGGGGCGCGGCCCTGGGGGCCAATGGGGAGCCCGCCCTCGGGCGCGCCCCCTCCGGCCGCGCGCTCCCGCGTCCGCCTGGTGCGCGCGCGCCGGGCGCCGCTCCCTGCCCGCCCCCTCCCGCGCGCCGCGCCCGCCCCGCCCCGCCCTGCCGGTCCCCTTGCCGGACCGAAGCGCGCGCCGACGCCGCCGCCATTTTAGTCGCCGCCGCCGCCTCAGCGAAGCGCTGCTCGAGGCGGGAGGGCGCCGCGGCCGGAGCGGGCCCAGGGCTCGGCACGGCGCCTCCCGCTCTGCCCCCGGCCGCTCGCCGCGCCGCTCCGCAGCGGCCGGCCGCCGGGCTGCTGCTCGCCGGGCTGCTGTGCGGCGGCGGGGTCTGGGCCGCGCGAGTTAACAAGCATAAGCCCTGGCTGGAGCCCACCTACCACGGGATTGTGACTGAGAACGACAACACGGTGCTGCTCGACCCCCCCCTGATGGCGCTGGATAAGGACGCGCCTCTGCGCTTTGCAGAGAGTTATGAGGTGACAGTCACCAAAGAAGGTGAGATTTGTGGCTTTAAAATTCACGGGCAGAATGTCCCCTTTGATGCAGTGGTAGTGGATAAATCCACTGGCGAGGGGATAATTCGCTCCAAAGAGAAACTGGACTGTGAGCTGCAGAAAGACTACACATTCACCATCCAGGCCTACGACTGCGGGAAGGGCCCCGACGGCACCAGCATGAAGAAGTCTCATAAATCAACTGTCCACATCCAGGTGAACGATGTGAATGAGTATGCGCCTGTGTTCAAGGAGAAGTCCTACAAGGCGACGGTCACCGAGGGCAAGCAGTATGACAGCATCCTGAGGGTGGAGGCCGTGGACGCAGACTGCTCCCCTCAGTTCAGTCAGATCTGCAGCTATGACATCGTCACTCCTGATGTGCCCTTCGCTGTGGACAAAGATGGTTACATAAAGAACACCGAGAAGCTGAACTATGGGAAGGAGCGTCAGTATAAGCTGACCGTCACGGCCTATGACTGTGGGAAGAAGAGGGCTACGGAAGATGTTCTGGTGAAGATCAGCATCAAGCCTGCCTGCACACCTGGGTGGCAAGGCTGGAGCAACAGGGTTGAATACGAACCTGGCACCGGCGCTCTGGCTGTCTTCCCCAACATCCACCTGGAGACGTGTGACGAGCCAGTGGCCTCAGTGCAGGCCACGGTGGAGCTGGAGACCAGCCACATCGGGAAGGGCTGCGACCGAGATACCTACTCTGAGAAGTCCCTCCACAGGCTGTGCGGGGCTGCTGCGGGCACCGCCGAGCTGCTTCCCTCCCCTGGCAGCTCCTTCAACTGGACCGTTGGCCTCCCCACCGACAACGGCCATGACAGTGACCAGGTCTTTGAGTTCAACGGCACTCAGGCAGTGAGGATCCCAGATGGTGTTGTGTCCATCAGCCCTAAGGAGCCCTTTACGATTTCCGTGTGGATGAGGCACGGGCCTTTCGGCAGGAGGAAGGAGACGATTCTTTGCAGTTCGGACAAGACAGATATGAACCGACATCACTACTCGCTCTATATCCATGGGTGCAGGCTGATTTTCCTCCTGCGTCAGGATCCTTCCGAGGAGAAGAAATACAAACCTGCAGAATTCCACTGGAAGTTGAATCAGGTCTGTGATGAGGAATGGCACCACTTCGTCCTCAACGTGGAGCTCCCGAGTGTGACTCTGTACGTGGATGGCGTTTCCCATGAGCCCTTCTCTGTGACCGAGGATTATCCACTCCATCCATCCAAGATAGACACCCAGCTCGTGGTTGGGGCTTGCTGGCAAGAGTATTCAGGAGTTGAAAATGACAATGACACTGAACCTGTGACTGTGGCCTCCGCAGGAGGTGACCTGCACATGACCCAGTTTTTCCGAGGGAACCTGGCCGGCCTAACCGTCCGGACCGGAAAACTCGCAGACAAGAAGGTGATCGACTGTCTGTACACCTGCAAAGAGGGGTTGGACCTCCAGGTCCCCGAGGACAGCAGCGCCGTGCAGGTCCGACCCAGCCCCGGCCAGTCGGTGTTGACTCTGGAGGGTGATGACATTGGGGAGCTAGACAAGGCCATGCAACACCTCTCCTACCTGAACTCGCGGCAGTTCCCCACGCCGGGCATCCGGAGACTCAGAGTCACCAGCACGGTCAAGTGCTTTCATGAGGCCACCACCTGCATCCAGGTCCCCCCAGTCGAGGGCTACGTGATGGTTTTGCAGCCTGAAGAGCCCAAGATCAGCCTCAGCGGCGTCCACCATTTTGCCCGTGCGGCTTCTGAGTTTGAGAGCTCCGAGGGGGTCTTCCTGTTCCCCGAGCTGCGGATCATCAGCACCATCACGAGGGAGGTGGAGCCCGAGGGGGACGGGGCCGAGGACCCCACAGTCCAAGAGTCCCTGGTGTCTGAGGAGGTTGTGCATGACCTGGATACCTGCGAGGTCACAGTGGAGGGAGAGGAGCTGAACCTGGAGCAGGAGAGCCTGGAGGTGGACGAGGCCCGGCTGCAGCAGAAGGGCATCGAAGTGAGCCGCTCGGGCCTGGGCATGGTCCTCAGAGGGGTGGAGACCATGGTCAGCTATGAGGAGGTTTTGCACCTCCTTCGATATCGGAACTGGCATACCAGGTCCCTGCTTGATCGGAAGTTCAAGCTCATCTGCTCTGAGCTGAATGGTCGCTACCTGAGTAATGAGTTTAAGGTGGAGGTGAACGTGATCCATACGGCCAACCCTGTGGAACATGCCAACCACATGGCTGCCCAGCCACAGTTTGTTCACCCTGAACATCACTCCTTTGTGGACCTCTCAGGTCACAACCTGGCCAGTCCTCACCCATTCGCAGTGGTCCCCAGCACCGCCACTGTGGTGATCGTGGTGTGCGTCAGCTTCCTGGTTTTCATGATCATCCTGGGAGTGTTTCGGATCCGGGCTGCACACCAGCGAACGATGCGGGACCAGGACACGGGGAAGGAGAATGAGATGGACTGGGACGACTCTGCGCTGACCATCACCGTGAACCCCATGGAGACGTATGAGGACCAGCACAGCAGTGAAGAGGAGGAGGAGGAGGAGGAGGAGGAAGAGGAGGAGGAGAGCGAGGATGGGGAGGAGGAGGAGGAGGAGGACATCACCAGTGCGGAGTCAGAGAGCAGTGAGGAGGAGGGCGGCCCTGGCGATGGCCAGAACGCGACCCGGCAGCAGCAGCTGGAGTGGGACGATTCCACGCTCAGCTACTGA

XM_004863648.1 Coding sequence

Pik3cd phosphatidylinositol-4,5-bisphosphate 3-kinase, catalytic subunit delta, transcript variant X3

Length: 3138 bp    Location: 2789132..2751724   Strand: -
>XM_004863648.1
ATGCCCCCCGGGGTCGACTGCCCCATGGAGTTCTGGACCAAGGAGGAAAATCAGAACGTGGTGGTGGACTTCCTGCTCCCCACGGGGATCTACCTCAACTTCCCTGTGTCCCTCAATGCCAACCTCAGGACCATCAAGCAGGTGCTGTGGTATCGGGCACAGTATGAGCCGCTCTTCCACATGCTCAGCGGTCCTGAGGCCTACGTGTTCACCTGCGTCAACCAGACAGCAGAGCAGCAGGAGCTGGAGGACGAGCAGCGGCGGCTGTGCGACATTCGGCCCTTCCTGCCGGTGCTGCGCGTGGTGGCCCGGGAGGGCGATCGAGTCAAGAAGCTCATCAACTCCCAGATCAGCCTCCTCATCGGCAAAGGCCTCCACGAGTTCGACTCCCTGGGTGACCCAGAAGTGAACGACTTCCGTGCCAAGATGCGCCAGTTCTGCGAGGAGGCGGCTGCAAGGCGCCAGCAGCTGGGCTGGGAGGACTGGCTGCAGTATAGCTTCCCCCTGCAGCTCGAGCCCTCGGCCGGGAGCTGGGGGCCCAGCACCCTGAGGCTCCCCAACCGGGCCCTGCTGGTCAACGTCAAATTCGAGGGCAGCGAGGAGAGCTTCACCTTCCAGGTGTCCACCAAGGACATGCCGCTGGCGCTCATGGCCTGCGCCCTGCGCAAGAAGGCCACAGTCTTCCGGCAGCCGCTGGTGGAGCAGCCGGAGGACTACGTGCTGCAGGTGAACGGGCGGCTCGAGTACCTATACGGCAGCTACCCGCTGTGCCAGTTCCAGTATGTCTGCAGCTGCCTGCACAGTGGACTGACCCCCCACCTCACCATGGTGCACTCCTCTTCTATCCTGGCCATGCGGGATGGGCAGGGCAACCCTGACCCCCAGGTCCAGAAGCCCCACCCCAAGCCGCCCCCCGTTCCCACCAAGAAGCCCTCCTCCGTGTCCCTGTGGTCGCTGGAGCAGCTGTTCTGCATCGAGCTCATCCAGGGCAGCAAGGTGAATGCGGATGAGCGCATGAAGCTCGTGGTGCAGGCCGGGCTCTTCCACGGCCATGAGATGCTATGCAAGACAGTGTCCAGCTCAGAGGTCAGCGTGTGCTCCGAGCCTGTGTGGAAGCAGCGGCTGGAGTTTGACATCAGCATCTGCGACCTGCCGCGCATGGCCCGGCTCTGCTTCGCGCTCTATGCCGTGGTGGAGAAAGCCAAGAAGGCGCGCTCCACCAAGAAGAAGTCTAAGAAGGCGGACTGCCCGATCGCCTGGGCCAACATCATGCTGTTCGACTACCGGGACCAGCTGAAGACTGGCGAGCGCCGCCTGTACATGTGGCCCTCGGTCCCAGATGAGAAAGGTGAGCTGCTGAACCCCGCGGGGAGCGTGCACGGAAACCCCAACACAGAGAGCGCTGCTGCCCTGGTCATCTTCCTGCCCGAGGTGGCCCCCCACCCCGTGTACTACCCTGCCCTGGAGAAGATCCTGGAGCTGGGGAGACACGGGGAGCAGCGCGGACAAGGCACGGAGGAGGAGCAGCTGCAGCTGAGGGAGATCCTGGAGCGGCGGGGCTCGGGCGAGCTGTACGAGCATGAGAAGGACCTGGTGTGGAAGATGCGGCATGAGGTCCAGGAGCACTTCCCAGACGCGCTGGCCCGCCTGCTGCTGGTCACCAAGTGGCACAAGCACGAGGATGTGGCCCAGATGCTCTACCTCCTGTGCTCCTGGCCCGAGCTGCCCATCCTGAGTGCCCTGGAGCTGCTGGACTTCAGCTTCCCTGACTGTCACGTGGGCTCCTTTGCCATCAGGTCCCTGCGGAAACTGACGGATGATGAGCTCTTCCAGTACCTGCTGCAGCTGGTCCAGGTGCTCAAGTATGAGTCCTACCTGGACTGCGAGCTGACCAAGTTCTTGCTGGACCGGGCGCTGGCCAACCGCAAGATCGGCCACTTCCTCTTCTGGCATCTCCGCTCTGAGATGCACGTGCCGTCAGTGGCCCTGCGCTTTGGCCTCATCATGGAGGCCTATTGCAGGGGCAGCACCCACCACATGAAGGTGCTGATGAAGCAGGGGGAAGCACTGAACAAGCTGAAGGCGCTGAATGACTTCGTGAAGGTGAGCTCCCAGAAGACCACCAAGCCCCAGACCAAGGAGCTCATGCACCTGTGCATGCGGCAGGAGACCTATCTGGAGGCACTCTCCCACCTGCAGTCCCCACTGGACCCAAGCACACTGCTGGAGGAAGTGTGCGTGGAGCAGTGCACCTTCATGGACTCCAAGATGAAGCCGCTGTGGATCATGTACAGCAGCAAGGAGGCGGGCACCACTGGCAGCGTGGGCATCATCTTCAAGAACGGGGATGACCTCCGCCAGGACATGCTGACCCTGCAGATGATCCAGCTCATGGATGTGCTATGGAAGCAGGAGGGCCTGGACCTGAGGATGACGCCCTACGGCTGCCTCCCCACCGGGGACCGCACGGGCCTCATCGAGGTGGTGCTGCACTCGGACACCATCGCCAACATCCAGCTGAACAAGAGCAACATGGCAGCCACGGCCGCCTTCAACAAGGACGCCCTGCTCAACTGGCTCAAGTCCAAGAACCCTGGGGAGGCCCTGGAGCGAGCCATTGAAGAGTTCACCCTGTCCTGTGCTGGCTACTGTGTGGCCACCTACGTGCTGGGCATCGGTGACCGGCACAGCGACAACATCATGATCCGTGAGAGTGGGCAGCTGTTCCACATTGATTTTGGCCACTTCCTGGGAAATTTCAAGACCAAGTTTGGAATCAACCGTGAGCGGGTCCCGTTCATCCTCACCTATGACTTCGTCCACGTGATTCAGCAGGGAAAGACGAATAACAGCGAGAAATTTGAAAGGTTCCGGGGCTACTGCGAACGAGCCTACACCATCCTGCGGCGCCATGGCCTCCTCTTCCTCCACCTCTTTGCACTGATGCGGGCAGCGGGCCTGCCTGAGCTCAGCTGCTCCAAAGACATCCAGTACCTCAAGGACTCCCTGGCGCTGGGGAAAACAGAGGAGGAGGCGCTGAAGCACTTCCGGGTGAAGTTCAACGAAGCCCTCAGGGAGAGCTGGAAGACCAAAGTGAACTGGCTGGCACACAACGTGTCCAAAGATAACAGGCAGTAG

XM_004863646.1 Coding sequence

Pik3cd phosphatidylinositol-4,5-bisphosphate 3-kinase, catalytic subunit delta, transcript variant X1

Length: 3138 bp    Location: 2775338..2751724   Strand: -
>XM_004863646.1
ATGCCCCCCGGGGTCGACTGCCCCATGGAGTTCTGGACCAAGGAGGAAAATCAGAACGTGGTGGTGGACTTCCTGCTCCCCACGGGGATCTACCTCAACTTCCCTGTGTCCCTCAATGCCAACCTCAGGACCATCAAGCAGGTGCTGTGGTATCGGGCACAGTATGAGCCGCTCTTCCACATGCTCAGCGGTCCTGAGGCCTACGTGTTCACCTGCGTCAACCAGACAGCAGAGCAGCAGGAGCTGGAGGACGAGCAGCGGCGGCTGTGCGACATTCGGCCCTTCCTGCCGGTGCTGCGCGTGGTGGCCCGGGAGGGCGATCGAGTCAAGAAGCTCATCAACTCCCAGATCAGCCTCCTCATCGGCAAAGGCCTCCACGAGTTCGACTCCCTGGGTGACCCAGAAGTGAACGACTTCCGTGCCAAGATGCGCCAGTTCTGCGAGGAGGCGGCTGCAAGGCGCCAGCAGCTGGGCTGGGAGGACTGGCTGCAGTATAGCTTCCCCCTGCAGCTCGAGCCCTCGGCCGGGAGCTGGGGGCCCAGCACCCTGAGGCTCCCCAACCGGGCCCTGCTGGTCAACGTCAAATTCGAGGGCAGCGAGGAGAGCTTCACCTTCCAGGTGTCCACCAAGGACATGCCGCTGGCGCTCATGGCCTGCGCCCTGCGCAAGAAGGCCACAGTCTTCCGGCAGCCGCTGGTGGAGCAGCCGGAGGACTACGTGCTGCAGGTGAACGGGCGGCTCGAGTACCTATACGGCAGCTACCCGCTGTGCCAGTTCCAGTATGTCTGCAGCTGCCTGCACAGTGGACTGACCCCCCACCTCACCATGGTGCACTCCTCTTCTATCCTGGCCATGCGGGATGGGCAGGGCAACCCTGACCCCCAGGTCCAGAAGCCCCACCCCAAGCCGCCCCCCGTTCCCACCAAGAAGCCCTCCTCCGTGTCCCTGTGGTCGCTGGAGCAGCTGTTCTGCATCGAGCTCATCCAGGGCAGCAAGGTGAATGCGGATGAGCGCATGAAGCTCGTGGTGCAGGCCGGGCTCTTCCACGGCCATGAGATGCTATGCAAGACAGTGTCCAGCTCAGAGGTCAGCGTGTGCTCCGAGCCTGTGTGGAAGCAGCGGCTGGAGTTTGACATCAGCATCTGCGACCTGCCGCGCATGGCCCGGCTCTGCTTCGCGCTCTATGCCGTGGTGGAGAAAGCCAAGAAGGCGCGCTCCACCAAGAAGAAGTCTAAGAAGGCGGACTGCCCGATCGCCTGGGCCAACATCATGCTGTTCGACTACCGGGACCAGCTGAAGACTGGCGAGCGCCGCCTGTACATGTGGCCCTCGGTCCCAGATGAGAAAGGTGAGCTGCTGAACCCCGCGGGGAGCGTGCACGGAAACCCCAACACAGAGAGCGCTGCTGCCCTGGTCATCTTCCTGCCCGAGGTGGCCCCCCACCCCGTGTACTACCCTGCCCTGGAGAAGATCCTGGAGCTGGGGAGACACGGGGAGCAGCGCGGACAAGGCACGGAGGAGGAGCAGCTGCAGCTGAGGGAGATCCTGGAGCGGCGGGGCTCGGGCGAGCTGTACGAGCATGAGAAGGACCTGGTGTGGAAGATGCGGCATGAGGTCCAGGAGCACTTCCCAGACGCGCTGGCCCGCCTGCTGCTGGTCACCAAGTGGCACAAGCACGAGGATGTGGCCCAGATGCTCTACCTCCTGTGCTCCTGGCCCGAGCTGCCCATCCTGAGTGCCCTGGAGCTGCTGGACTTCAGCTTCCCTGACTGTCACGTGGGCTCCTTTGCCATCAGGTCCCTGCGGAAACTGACGGATGATGAGCTCTTCCAGTACCTGCTGCAGCTGGTCCAGGTGCTCAAGTATGAGTCCTACCTGGACTGCGAGCTGACCAAGTTCTTGCTGGACCGGGCGCTGGCCAACCGCAAGATCGGCCACTTCCTCTTCTGGCATCTCCGCTCTGAGATGCACGTGCCGTCAGTGGCCCTGCGCTTTGGCCTCATCATGGAGGCCTATTGCAGGGGCAGCACCCACCACATGAAGGTGCTGATGAAGCAGGGGGAAGCACTGAACAAGCTGAAGGCGCTGAATGACTTCGTGAAGGTGAGCTCCCAGAAGACCACCAAGCCCCAGACCAAGGAGCTCATGCACCTGTGCATGCGGCAGGAGACCTATCTGGAGGCACTCTCCCACCTGCAGTCCCCACTGGACCCAAGCACACTGCTGGAGGAAGTGTGCGTGGAGCAGTGCACCTTCATGGACTCCAAGATGAAGCCGCTGTGGATCATGTACAGCAGCAAGGAGGCGGGCACCACTGGCAGCGTGGGCATCATCTTCAAGAACGGGGATGACCTCCGCCAGGACATGCTGACCCTGCAGATGATCCAGCTCATGGATGTGCTATGGAAGCAGGAGGGCCTGGACCTGAGGATGACGCCCTACGGCTGCCTCCCCACCGGGGACCGCACGGGCCTCATCGAGGTGGTGCTGCACTCGGACACCATCGCCAACATCCAGCTGAACAAGAGCAACATGGCAGCCACGGCCGCCTTCAACAAGGACGCCCTGCTCAACTGGCTCAAGTCCAAGAACCCTGGGGAGGCCCTGGAGCGAGCCATTGAAGAGTTCACCCTGTCCTGTGCTGGCTACTGTGTGGCCACCTACGTGCTGGGCATCGGTGACCGGCACAGCGACAACATCATGATCCGTGAGAGTGGGCAGCTGTTCCACATTGATTTTGGCCACTTCCTGGGAAATTTCAAGACCAAGTTTGGAATCAACCGTGAGCGGGTCCCGTTCATCCTCACCTATGACTTCGTCCACGTGATTCAGCAGGGAAAGACGAATAACAGCGAGAAATTTGAAAGGTTCCGGGGCTACTGCGAACGAGCCTACACCATCCTGCGGCGCCATGGCCTCCTCTTCCTCCACCTCTTTGCACTGATGCGGGCAGCGGGCCTGCCTGAGCTCAGCTGCTCCAAAGACATCCAGTACCTCAAGGACTCCCTGGCGCTGGGGAAAACAGAGGAGGAGGCGCTGAAGCACTTCCGGGTGAAGTTCAACGAAGCCCTCAGGGAGAGCTGGAAGACCAAAGTGAACTGGCTGGCACACAACGTGTCCAAAGATAACAGGCAGTAG

XM_004863649.1 Coding sequence

Pik3cd phosphatidylinositol-4,5-bisphosphate 3-kinase, catalytic subunit delta, transcript variant X4

Length: 3138 bp    Location: 2772697..2751724   Strand: -
>XM_004863649.1
ATGCCCCCCGGGGTCGACTGCCCCATGGAGTTCTGGACCAAGGAGGAAAATCAGAACGTGGTGGTGGACTTCCTGCTCCCCACGGGGATCTACCTCAACTTCCCTGTGTCCCTCAATGCCAACCTCAGGACCATCAAGCAGGTGCTGTGGTATCGGGCACAGTATGAGCCGCTCTTCCACATGCTCAGCGGTCCTGAGGCCTACGTGTTCACCTGCGTCAACCAGACAGCAGAGCAGCAGGAGCTGGAGGACGAGCAGCGGCGGCTGTGCGACATTCGGCCCTTCCTGCCGGTGCTGCGCGTGGTGGCCCGGGAGGGCGATCGAGTCAAGAAGCTCATCAACTCCCAGATCAGCCTCCTCATCGGCAAAGGCCTCCACGAGTTCGACTCCCTGGGTGACCCAGAAGTGAACGACTTCCGTGCCAAGATGCGCCAGTTCTGCGAGGAGGCGGCTGCAAGGCGCCAGCAGCTGGGCTGGGAGGACTGGCTGCAGTATAGCTTCCCCCTGCAGCTCGAGCCCTCGGCCGGGAGCTGGGGGCCCAGCACCCTGAGGCTCCCCAACCGGGCCCTGCTGGTCAACGTCAAATTCGAGGGCAGCGAGGAGAGCTTCACCTTCCAGGTGTCCACCAAGGACATGCCGCTGGCGCTCATGGCCTGCGCCCTGCGCAAGAAGGCCACAGTCTTCCGGCAGCCGCTGGTGGAGCAGCCGGAGGACTACGTGCTGCAGGTGAACGGGCGGCTCGAGTACCTATACGGCAGCTACCCGCTGTGCCAGTTCCAGTATGTCTGCAGCTGCCTGCACAGTGGACTGACCCCCCACCTCACCATGGTGCACTCCTCTTCTATCCTGGCCATGCGGGATGGGCAGGGCAACCCTGACCCCCAGGTCCAGAAGCCCCACCCCAAGCCGCCCCCCGTTCCCACCAAGAAGCCCTCCTCCGTGTCCCTGTGGTCGCTGGAGCAGCTGTTCTGCATCGAGCTCATCCAGGGCAGCAAGGTGAATGCGGATGAGCGCATGAAGCTCGTGGTGCAGGCCGGGCTCTTCCACGGCCATGAGATGCTATGCAAGACAGTGTCCAGCTCAGAGGTCAGCGTGTGCTCCGAGCCTGTGTGGAAGCAGCGGCTGGAGTTTGACATCAGCATCTGCGACCTGCCGCGCATGGCCCGGCTCTGCTTCGCGCTCTATGCCGTGGTGGAGAAAGCCAAGAAGGCGCGCTCCACCAAGAAGAAGTCTAAGAAGGCGGACTGCCCGATCGCCTGGGCCAACATCATGCTGTTCGACTACCGGGACCAGCTGAAGACTGGCGAGCGCCGCCTGTACATGTGGCCCTCGGTCCCAGATGAGAAAGGTGAGCTGCTGAACCCCGCGGGGAGCGTGCACGGAAACCCCAACACAGAGAGCGCTGCTGCCCTGGTCATCTTCCTGCCCGAGGTGGCCCCCCACCCCGTGTACTACCCTGCCCTGGAGAAGATCCTGGAGCTGGGGAGACACGGGGAGCAGCGCGGACAAGGCACGGAGGAGGAGCAGCTGCAGCTGAGGGAGATCCTGGAGCGGCGGGGCTCGGGCGAGCTGTACGAGCATGAGAAGGACCTGGTGTGGAAGATGCGGCATGAGGTCCAGGAGCACTTCCCAGACGCGCTGGCCCGCCTGCTGCTGGTCACCAAGTGGCACAAGCACGAGGATGTGGCCCAGATGCTCTACCTCCTGTGCTCCTGGCCCGAGCTGCCCATCCTGAGTGCCCTGGAGCTGCTGGACTTCAGCTTCCCTGACTGTCACGTGGGCTCCTTTGCCATCAGGTCCCTGCGGAAACTGACGGATGATGAGCTCTTCCAGTACCTGCTGCAGCTGGTCCAGGTGCTCAAGTATGAGTCCTACCTGGACTGCGAGCTGACCAAGTTCTTGCTGGACCGGGCGCTGGCCAACCGCAAGATCGGCCACTTCCTCTTCTGGCATCTCCGCTCTGAGATGCACGTGCCGTCAGTGGCCCTGCGCTTTGGCCTCATCATGGAGGCCTATTGCAGGGGCAGCACCCACCACATGAAGGTGCTGATGAAGCAGGGGGAAGCACTGAACAAGCTGAAGGCGCTGAATGACTTCGTGAAGGTGAGCTCCCAGAAGACCACCAAGCCCCAGACCAAGGAGCTCATGCACCTGTGCATGCGGCAGGAGACCTATCTGGAGGCACTCTCCCACCTGCAGTCCCCACTGGACCCAAGCACACTGCTGGAGGAAGTGTGCGTGGAGCAGTGCACCTTCATGGACTCCAAGATGAAGCCGCTGTGGATCATGTACAGCAGCAAGGAGGCGGGCACCACTGGCAGCGTGGGCATCATCTTCAAGAACGGGGATGACCTCCGCCAGGACATGCTGACCCTGCAGATGATCCAGCTCATGGATGTGCTATGGAAGCAGGAGGGCCTGGACCTGAGGATGACGCCCTACGGCTGCCTCCCCACCGGGGACCGCACGGGCCTCATCGAGGTGGTGCTGCACTCGGACACCATCGCCAACATCCAGCTGAACAAGAGCAACATGGCAGCCACGGCCGCCTTCAACAAGGACGCCCTGCTCAACTGGCTCAAGTCCAAGAACCCTGGGGAGGCCCTGGAGCGAGCCATTGAAGAGTTCACCCTGTCCTGTGCTGGCTACTGTGTGGCCACCTACGTGCTGGGCATCGGTGACCGGCACAGCGACAACATCATGATCCGTGAGAGTGGGCAGCTGTTCCACATTGATTTTGGCCACTTCCTGGGAAATTTCAAGACCAAGTTTGGAATCAACCGTGAGCGGGTCCCGTTCATCCTCACCTATGACTTCGTCCACGTGATTCAGCAGGGAAAGACGAATAACAGCGAGAAATTTGAAAGGTTCCGGGGCTACTGCGAACGAGCCTACACCATCCTGCGGCGCCATGGCCTCCTCTTCCTCCACCTCTTTGCACTGATGCGGGCAGCGGGCCTGCCTGAGCTCAGCTGCTCCAAAGACATCCAGTACCTCAAGGACTCCCTGGCGCTGGGGAAAACAGAGGAGGAGGCGCTGAAGCACTTCCGGGTGAAGTTCAACGAAGCCCTCAGGGAGAGCTGGAAGACCAAAGTGAACTGGCTGGCACACAACGTGTCCAAAGATAACAGGCAGTAG

XM_004863654.1 Coding sequence

Spsb1 splA/ryanodine receptor domain and SOCS box containing 1

High confidence: 4 potential gene matches
Length: 822 bp    Location: 2977241..2965227   Strand: -
>XM_004863654.1
ATGGGTCAGAAGGTCACTGGAGGGATCAAGACTGTGGACATGCAGGACGCCACCTACCGGCCCCTAAAGCAGGAGCTCCAGGGCCTGGATTACTGCAAGCCCACACGGCTGGACCTGCTGCTCGACATGCCGCCTGTGTCCCACGACATCCAGCTGCTGCACTCTTGGAACAACAACGACCGCTCGCTCAACGTCTTTGTCAAGGAGGACGACAAGCTGATCTTTCACCGGCATCCGGTGGCCCAGAGCACGGACGCCATCAGGGGCAAAGTCGGGTACACCAGAGGGCTGCATGTGTGGCAGATCACATGGGCCATGCGACAGCGGGGCACGCATGCTGTGGTGGGGGTGGCCACAGCTGACGCCCCACTGCACTCGGTTGGGTACACAACCCTCGTGGGGAATAACCACGAGTCCTGGGGCTGGGACTTGGGGCGCAACCGGCTCTACCATGATGGGAAGAACCAGCCAAGCAAAACGTACCCAGCCTTTCTGGAGCCAGATGAGACGTTCATCGTCCCCGACTCTTTCCTCGTGGCCCTGGACATGGATGACGGGACCCTGAGCTTCATTGTGGATGGACAGTACATGGGAGTGGCTTTTCGGGGACTCAAGGGCAAAAAACTGTATCCTGTAGTGAGTGCCGTCTGGGGCCACTGTGAGATCCGCATGCGCTACTTGAATGGACTTGATCCCGAGCCCCTGCCGCTCATGGATCTCTGCCGGCGCTCGGTGCGCCTGGCCCTGGGGAAGGAGCGCCTGGGCGCCATCCCCGCGCTGCCGCTGCCCGCCTCGCTGAAGGCTTACCTCCTCTACCAGTGA

XM_004863662.1 Coding sequence

H6pd hexose-6-phosphate dehydrogenase (glucose 1-dehydrogenase), transcript variant X8

Length: 2406 bp    Location: 3052102..3029187   Strand: -
>XM_004863662.1
ATGGTGGGAAGATGCAGGCACCCAGGCCTTTGGAAGATGCTCACGGTGGCCATGTGCGTGGCCCTCGTGGGCTGCCTGCAGGCCCAGGAGCTCCGGGGACACGTCTCCATCGTCCTGCTGGGAGCGACCGGGGACCTGGCTAAGAAGTACTTGTGGCAGGGACTGTTCCAGCTCTACCTGGACGAGGTGGGGAAGGACCATAGTTTTAGCTTCCATGGGGCTGCTCTGACGGCACCCGAGCAGGGCTGGAAGCTGATGGCCAAGGCCCTGGAATCCCTCTCCTGCCCCAGTGACATGGCACCTAGTCACTGTGCTGAACTCAAGGATCAGTTCCTGCGCCTGAGCCAGTACCGCCAGCTGAAGACAGCCGAAGACTATCGGACACTGAGCAAGGACATTGAGGCACAGGTCAAGCAAGAGGACCTCCGGGAGGCTGGCAGGATTTTCTACTTCTCCGTGCCACCCTTTGCCTATGTGGACATTGCCCGCAACATCAACAGCAGCTGCCGGCCAGGCCCGGGTGCCTGGCTGCGGGTTGTCTTTGAGAAACCCTTTGGCCATGACCACCTCTCTGCCCAGCAGCTGGCCACTGAACTTGGGAGCTTTTTCCAGGAGGAGGAGATGTACCGGGTGGACCATTACCTGGGCAAGCAGGCTGTGGCTCAGATCCTGCCCTTCCGAGACCAGAACCGCAAGGCCCTGGATGGCCTCTGGAACCGGCACCATGTGGAGCGGGTGGAGATCATCATGAAGGAGACCGTGGATGCAGAAGGTCGCATCAGCTTCTACGAGGAGTACGGCGTCATCCGAGATGTCCTGCAGAACCACCTGACCGAGATCCTCATGCTGGTGGCCATGGAGCTGCCGCTCAATGTCAGCAGCTCGGCGGCCGTGCTGCAGCACAAGCTCGAAGCCTTCCGTGGCCTGAGGGGCCTGAACAAGGGCAGCGCCGTGGTGGGCCAGTACCAGGCCTATAGCGCGCAGGCACGCAGGGAGCTGCAGAAGCCCGAGGGCTTCCACAGCCTGACTCCCACCTTCGCAGGTGTCCTCGTGCATGTGGACAGCCTGCGCTGGGAGGGTGTGCCCTTCACCCTGATGTCTGGCAAGGCCCTGGACGAGAGAGTGGGCTATGTGCGGGTCCTGTTCAAAAACCAGGCGTTCTGCATCCAGCACGAGAGGCACTGGGCCCCAGAGCAGAGCCCGTGTCTTCCCCGGCAGATCATCTTCCACATCGGACATGGTGAGCTGAGCCACCCAGCCATCCTGGTCAGCCGGAACCTGTTCAGGCCCTCCCTGCCTGCACACAGCTGGGCGGAAGTGCAGGAGAGGCCCGGGCTCCGAGTGTTGGGTCGCCCCCTGTCTGATTTCTATGCCTACAGCCCCTTGAGGGAGCGAGACGCCTACTCCATCCTCCTGTCCCACATCTTCCACGGCCGGAAAGAATCCTTCATCACCACAGAGAACTTGCTGGCTTCCTGGGATTTCTGGACCCCGTTGCTGGACAGCCTGGCCCATGAGGTCCCGCGCCTCTACCCGGGGGGAGCAGACACCGGCTGTCTGTTGGACCTGGAGTTAAATGGGGGCCACCTGTCCTTCTCCCAGCAGCAGCCCGAGCAGCTGGTCCCAGGGCCGGGGTCGGCCCCCAAGCCCAGTGACTTCCAGGTCCTCAGGGCCAGGTACCGAGAGAGCCCGCTGATCTCGGCCTGGCCTGAGGAGCTGATCTCCAGGCTGGCCAGCGACATTGAGGCCTCTGCCCTGCAGGCCGTGCAGCACTTCGGCAAGTTCCACCTGGCGCTGTCGGGTGGCTCCAGCCCCATCGCCCTGTTCCAGCAGCTGGCCATGGGCCACTACAGCTTCCCCTGGGCCCACACACACCTCTGGCTGGTGGACGAGCGCTGCGTCCCGCTGTCGGACCCTGACTCCAACTTCCAGGGCCTGCAGGCTCACCTGCTGCAGCACATCCGCTTGCCCTACTACAATATCCACCCCATGCCGGTGCACCTGCACCAGCGGCTGTGCGCGGAAGAGGACCAGGGTGCCCAGACCTATGCCGGGGAGATCTCGGCCCTGGTGGCCAACAGCAGCTTCGACCTGGTGCTGCTGGGCATGGGCACCGATGGGCACACGGCCTCCCTCTTCCCGCAGTCGCCCACGGGCCTGGACGGCGAGCAGCTGGTGGTGCTGACGCAGAGCCCCTTCAGGCCGCACCAGCGCATGAGCCTCAGCCTGCCGCTCATCAACAGGGCCAAGAAGGTGGCCGTCCTGGTCATGGGCCGGACAAAGCGTGACATCACCATGCTGGTGAGCCGTGTGGGCCAGGAGCCCAGGAAGTGGCCCATCTCAGGCGTGCTTCCCAGCTCCGGCCAGCTGGTTTGGTACATGGACTACGAAGCCTTCCTGGGGTGA

XM_004863656.1 Coding sequence

H6pd hexose-6-phosphate dehydrogenase (glucose 1-dehydrogenase), transcript variant X2

Length: 2520 bp    Location: 3049042..3029187   Strand: -
>XM_004863656.1
ATGGGTAGCTGCTCTGCTGGGAGACCTGGCTGGCACTGGGCGTGTGTCCTCTCCTACTTGGGCAGAAGCAAGGACCAGAGCCAGCTTGGGGCCCCCCCTTCTGCGATGGTATCGAAGCCCTTATCGAACAAGCACCCAGGCCTTTGGAAGATGCTCACGGTGGCCATGTGCGTGGCCCTCGTGGGCTGCCTGCAGGCCCAGGAGCTCCGGGGACACGTCTCCATCGTCCTGCTGGGAGCGACCGGGGACCTGGCTAAGAAGTACTTGTGGCAGGGACTGTTCCAGCTCTACCTGGACGAGGTGGGGAAGGACCATAGTTTTAGCTTCCATGGGGCTGCTCTGACGGCACCCGAGCAGGGCTGGAAGCTGATGGCCAAGGCCCTGGAATCCCTCTCCTGCCCCAGTGACATGGCACCTAGTCACTGTGCTGAACTCAAGGATCAGTTCCTGCGCCTGAGCCAGTACCGCCAGCTGAAGACAGCCGAAGACTATCGGACACTGAGCAAGGACATTGAGGCACAGGTCAAGCAAGAGGACCTCCGGGAGGCTGGCAGGATTTTCTACTTCTCCGTGCCACCCTTTGCCTATGTGGACATTGCCCGCAACATCAACAGCAGCTGCCGGCCAGGCCCGGGTGCCTGGCTGCGGGTTGTCTTTGAGAAACCCTTTGGCCATGACCACCTCTCTGCCCAGCAGCTGGCCACTGAACTTGGGAGCTTTTTCCAGGAGGAGGAGATGTACCGGGTGGACCATTACCTGGGCAAGCAGGCTGTGGCTCAGATCCTGCCCTTCCGAGACCAGAACCGCAAGGCCCTGGATGGCCTCTGGAACCGGCACCATGTGGAGCGGGTGGAGATCATCATGAAGGAGACCGTGGATGCAGAAGGTCGCATCAGCTTCTACGAGGAGTACGGCGTCATCCGAGATGTCCTGCAGAACCACCTGACCGAGATCCTCATGCTGGTGGCCATGGAGCTGCCGCTCAATGTCAGCAGCTCGGCGGCCGTGCTGCAGCACAAGCTCGAAGCCTTCCGTGGCCTGAGGGGCCTGAACAAGGGCAGCGCCGTGGTGGGCCAGTACCAGGCCTATAGCGCGCAGGCACGCAGGGAGCTGCAGAAGCCCGAGGGCTTCCACAGCCTGACTCCCACCTTCGCAGGTGTCCTCGTGCATGTGGACAGCCTGCGCTGGGAGGGTGTGCCCTTCACCCTGATGTCTGGCAAGGCCCTGGACGAGAGAGTGGGCTATGTGCGGGTCCTGTTCAAAAACCAGGCGTTCTGCATCCAGCACGAGAGGCACTGGGCCCCAGAGCAGAGCCCGTGTCTTCCCCGGCAGATCATCTTCCACATCGGACATGGTGAGCTGAGCCACCCAGCCATCCTGGTCAGCCGGAACCTGTTCAGGCCCTCCCTGCCTGCACACAGCTGGGCGGAAGTGCAGGAGAGGCCCGGGCTCCGAGTGTTGGGTCGCCCCCTGTCTGATTTCTATGCCTACAGCCCCTTGAGGGAGCGAGACGCCTACTCCATCCTCCTGTCCCACATCTTCCACGGCCGGAAAGAATCCTTCATCACCACAGAGAACTTGCTGGCTTCCTGGGATTTCTGGACCCCGTTGCTGGACAGCCTGGCCCATGAGGTCCCGCGCCTCTACCCGGGGGGAGCAGACACCGGCTGTCTGTTGGACCTGGAGTTAAATGGGGGCCACCTGTCCTTCTCCCAGCAGCAGCCCGAGCAGCTGGTCCCAGGGCCGGGGTCGGCCCCCAAGCCCAGTGACTTCCAGGTCCTCAGGGCCAGGTACCGAGAGAGCCCGCTGATCTCGGCCTGGCCTGAGGAGCTGATCTCCAGGCTGGCCAGCGACATTGAGGCCTCTGCCCTGCAGGCCGTGCAGCACTTCGGCAAGTTCCACCTGGCGCTGTCGGGTGGCTCCAGCCCCATCGCCCTGTTCCAGCAGCTGGCCATGGGCCACTACAGCTTCCCCTGGGCCCACACACACCTCTGGCTGGTGGACGAGCGCTGCGTCCCGCTGTCGGACCCTGACTCCAACTTCCAGGGCCTGCAGGCTCACCTGCTGCAGCACATCCGCTTGCCCTACTACAATATCCACCCCATGCCGGTGCACCTGCACCAGCGGCTGTGCGCGGAAGAGGACCAGGGTGCCCAGACCTATGCCGGGGAGATCTCGGCCCTGGTGGCCAACAGCAGCTTCGACCTGGTGCTGCTGGGCATGGGCACCGATGGGCACACGGCCTCCCTCTTCCCGCAGTCGCCCACGGGCCTGGACGGCGAGCAGCTGGTGGTGCTGACGCAGAGCCCCTTCAGGCCGCACCAGCGCATGAGCCTCAGCCTGCCGCTCATCAACAGGGCCAAGAAGGTGGCCGTCCTGGTCATGGGCCGGACAAAGCGTGACATCACCATGCTGGTGAGCCGTGTGGGCCAGGAGCCCAGGAAGTGGCCCATCTCAGGCGTGCTTCCCAGCTCCGGCCAGCTGGTTTGGTACATGGACTACGAAGCCTTCCTGGGGTGA

XM_004863667.1 Coding sequence

Eno1 enolase 1, (alpha), transcript variant X1

Length: 1305 bp    Location: 3223819..3235128   Strand: +
>XM_004863667.1
ATGTCTATTCTCAAGATCCATGCCCGAGAGATCTTTGACTCTCGTGGGAACCCCACTGTTGAAGTTGATCTCTACACAGACAAAGGTCTCTTCCGAGCTGCTGTCCCCAGCGGCGCCTCCACTGGCATCTATGAGGCCCTGGAGCTGCGTGACAATGACAAGACCCGCTACATGGGCAAGGGTGTGTCAAAGGCTGTTGAGCACATCAATAAAACTATTGCACCTGCCCTGGTTAGCAAGAAACTGAATGTGGTGGAGCAGGAGAAGATCGACAAGCTGATGATCGAGATGGACGGGACGGAGAACAAATCTAAGTTCGGGGCCAATGCCATCCTGGGGGTGTCACTCGCCGTATGCAAGGCTGGTGCCGTGGAGAAGGGGGTGCCCTTGTACCGCCACATCGCCGACCTGGCCGGCAACGCTGAGGTCATCCTGCCTGTCCCGGCCTTCAACGTGATCAACGGCGGCTCCCACGCGGGCAACAAGCTGGCCATGCAGGAGTTCATGATCCTGCCCGTGGGGGCGGCGAGCTTCCAGGAGGCCATGCGCATTGGCGCCGAGGTCTACCACAGCCTGAAGGGCGTCATCAAGGACAAGTACGGGAAGGACGCCACCAACGTGGGCGACGAGGGGGGCTTCGCGCCCAACATCCTGGAGAACAAGGAAGCCCTGGAGCTGCTGAAGAACGCCATCGGGAAGGCCGGCTACACGGACAAGGTGGTGATCGGCATGGACGTGGCCGCGTCTGAGTTTTTCCGTTCCGGGAAGTATGACCTGGACTTCAAGTCCCCCGACGACCCCAGCAGGTACATCTCGCCTGACCAGCTGGCCGACCTCTACAAGTCCTTCATCAGGGACTACCCAGTGGTGTCCATCGAGGACCCCTTCGACCAGGACGACTGGCAGGCCTGGCAGAAGTTCACAGGCAGCGCGGGCATCCAGGTGGTGGGTGATGACCTCACGGTGACCAACCCCAAGCGCATCGCCAAGGCCGTGAGCGAGAAGGCCTGCAACTGCCTGCTGCTGAAGGTCAACCAGATTGGCTCGGTGACCGAGTCCCTGCAGGCGTGCAAGCTTGCCCAGTCCAACGGCTGGGGCGTCATGGTGTCCCACCGCTCTGGGGAGACGGAGGACACCTTCATTGCTGACCTGGTGGTGGGACTCAGCACCGGGCAGATCAAGACTGGTGCACCATGCCGATCCGAGCGCCTGGCCAAGTACAACCAGATCCTCAGAATCGAGGAGGAGCTGGGCAGCAAGGCCAAGTTCGCCGGCAGGAACTTCAGAAACCCCATGGCCAAGTAG

XM_004863779.1 Coding sequence

Prdm16 PR domain containing 16, transcript variant X1

Length: 3810 bp    Location: 7258355..6979718   Strand: -
>XM_004863779.1
ATGCGATCCAAGGCGAGGGCGCGGAAGCTAGCCAAAAGTGACGGAGACGTTGTAAATAATATGTATGAGCCTGACCCGGACCTGCTGGCCGGCCAGAGTGCCGAGGAGGAGACCGAGGACAGCATCCTGTCCCCCATCCCCATGGGGCCGCCGTCCCCCTTCCCCACCAGTGAGGACTTCACCCCCAAGGAAGGCTCGCCCTACGAGGCCCCTGTCTACATTCCCGAAGACATTCCCATCCCGCCAGACTTGGAGCTGCGGGAGTCCTCCATCCCCGGGGCCGGCCTGGGGATCTGGGCCAAGCGGAAGATGGAAGTCGGGGAGAGGTTTGGCCCCTACATGCTGGCGCCCCGGGCCGCGCTGAAGGAGGCAGACTTTGGATGGGAGCCGATGCTGACAGCTACGGAGGTGTCATCCCAGGAAGGCTGCATCAAGAAGATCTCTGAGGACCTGGGCAGTGAGAAGTTCTGTGTGGATGCCAGCCAGGTGGGGGCCGGCAGCTGGCTGAAGTACATCCGAGTGGCATGCTCCTGTGACAACCAAAACCTCACCATGTGCCAGATCAACGAGCAGATTTACTATAAAGTCATTAAGGACATCGAGCCAGGCGAGGAGCTGCTGGTGCACGTGAAGGAAGGCGCCTACTCGCTGCGTGCAGTGCCGCCCGGCCTGGATGAGGGGCCCACGTTCCGCTGTGAGGAGTGTGATGAGCTCTTCCAGTGCAAGCTAGACCTGCGGCGCCACAAGAAGTATGCATGCAGCTCCGCAGGGGCCGCGCTGTTCGAGGGCCTGGGGGACGAGCTCAAGCCTGAGGGCCTGGGCGGCGGGCAGGCTCACGAATGCAAGGACTGCGAGCGAATGTTCCCCAACAAATACAGCCTGGAGCAGCACATGATTGTCCACACGGAGGAGCGGGAATACAAGTGTGACCAGTGTCCCAAGGCCTTCAACTGGAAATCCAACCTCATCCGCCACCAGATGTCCCACGACAGCGGCAAGCGCTTCGAATGTGAAAACTGCGTGAAGGTGTTCACGGACCCCAGCAACCTGCAGCGGCACATCCGCTCGCAGCACGTCGGCGCCCGGGCCCACGCCTGCCCAGATTGCGGGAAGACCTTTGCCACGTCCTCCGGCCTGAAGCAGCACAAGCACATCCACAGCACGGTCAAGCCTTTCATATGTGAGGTCTGCCACAAGTCCTACACGCAGTTCTCCAACCTGTGCCGGCACAAGCGGATGCACGCTGACTGCCGCACGCAGATCAAGTGCAAGGACTGCGGGCAGATGTTCAGCACTACCTCGTCCCTCAACAAGCACCGGCGCTTCTGCGAGGGCAAGAACCATTACACGCCAGGCGGCCTGTTCACCCCGGGCCTGCCCCTGACCCCCAGCCCCATGATGGACAAGGCCAAGCCCTCGCCCAGCCTCAACCACGCCGGCCTGGCCTTCAGCGAGTACTTCCCCTCCCGGCCGCAGCCTGGCGGCCTGCCCTTCTCCGCCGCCCCGCCAGCCTTCCCTGCGCTCACTCCCGGCTTCCCAGGCATCTTCCCTCCGTCCCTGTACCCCCGGCCGCCTCTGCTGCCTCCCACGCCGCTGCTCAAGAGCCCCCTGAACCACACCCAGGACGCTAAGCTGCCCAGCCCCCTGGGCAACCCGGCCCTGCCCCTCCTGTCCGCGGTCAGCAACAGCAGCCAGGGTGGCACGGCAGGCACTGGGCCGGAGGAGAAGTTCGAGAGCCACCTGGAGGACGTGTTCACGGACAAGGCCAAGGCCCGGAGCCCCGACATGTCCGACGGCAGCGACTTCGAGGACATCAACACCACCACAGGCACCGACCTGGACACCACCACGGGCACGGGCTCAGACCTGGACAGTGACGTGGACAGCGACCGCGACAGGGCCAAGGACGACGGAGGCAAGCCCGAGCGTGGGGGCGGCTCCGCAGCCCCAGGGGCCGCCAGCATGGCAGAGGCGCCCGTCTTCTACGCGCAGCACTCCTTCTTCCCGCCGCCTGAGGAGCAGCTGCTGGCCGCCTCGGGCGCCCCCGGCGACTCCATCAAAGCCATCGCGTCCATTGCTGAGAAGTACTTCGGGCCCGGCTTCGTGGGCATGCAGGAGAAAAAGCTGGGCTCGCTGCCCTACCACTCCGTCTTCCCCTTCCAGGTCCTGCCCAACTTCCCGCACTCCCTCTACTCCTTCACGGACCGCGCCCTCGCGCACAACCTGCTGGTCAAGGCCGAGCCCAAGTCGCCCCGGGACGCCCTCAAGGTGGGCGGCCCCAGTGCCGAGTGCCCCTTCGACCTCACCACCAAGCCGAAAGAGACGAAGCCCACCCTGCCCACGCCCAAGGCGCCCTCAGCCCCCGTGTCTGGCGAGGAGCAGCCGCTGGACCTGAGTATCGGCAGCCGGGCCCGCGCCAGTCAGAATGGGGGCGGCCGGGAGCCCCGCAAGAACCACGTGTACGGCGAGCGGAAGCCGGGGCCTGGCGAGGGGCTGCCCAAGGTGTGCCTGGCTCAGCTGCCGCAGCAGCCGTCTCTGCACTACGCCAAGCCCTCGCCCTTCTTCATGGACCCCATCTACAGCAGGGTAGAAAAGCGGAAGGTGACGGACCCCGTGGGTGTCCTGAAGGAGAAGTACCTGCGGCCGCCCTCGCTGCTCTTCCACCCCCAGATGTCAGCCATCGAGACCATGACAGAGAAGCTGGAAAGCTTTGCGGCCATGAAAACGGACTCGGGCGGCTCCCTGCAGCCCCTACCCCACCACCCCTTCAGCTTCCGGTCCCCACCCTCAACGCTCTCGGACCCCATCCTCAGGAAGGGCAAGGAGCGGTACACATGCAGGTACTGTGGCAAGATCTTCCCCAGATCGGCCAACCTCACCAGACACCTGAGGACGCACACCGGGGAGCAGCCATACAGGTGCAAGTACTGCGACCGCTCCTTCAGCATCTCCTCCAACCTGCAGCGGCACGTGCGCAACATCCACAACAAGGAGAAGCCCTTCAAGTGCCACCTGTGCAACCGCTGCTTCGGCCAGCAGACCAACCTGGACCGGCACCTGAAGAAGCACGAGCACGAGGCCGCGCCAGCGGGCCAGCACCCCGGGGTCCCCACCAACCACCTGGGCACCAGCGCCTCCTCCCCCACCTCCGAGTCGGACAACCACGCACTTTTAGATGAGAAAGAAGACTCCTATTTCTCTGAGATCAGAAACTTCATTGCCAACAGTGAGATGAGCCAGGCGTCAACGCGGACAGACAAACGGCCGGAGATCCAGGAGCTGGATGTCGACCCCCAGTGTCCAGGCCTGGCCAGCGAGAAGCCGGAGGACGTGGAGGAGGAGGAGGAGGAGGACCTTGAGGAGGATGAGGAGGACAGCCTGGCGGGGAAGTCCCAGGATGAGGCCGTGTGCCCCACACCTGAGCCCCAGGGCGTCTATGAGGACGAGGAGGATGAGGAGCCACCCACTGCCCTGGCCGTGGGCTTCGACCACACCCGAAGGTGTGTTGAGGAGCGAGAAGGCGGCCTGTTAGCCTTGGAGCAGACGCCGACCTTTGGGAAGGGGCTGGACCTCCGCAGAGCAGCTGAGGAAGCATTTGAAGTTAAAGATGTGCTTAATTCCACCTTAGATTCTGAGGCTTTAAAACAGACCCTGTACAGGCAGGCTAAGAACCAGGCGTATGCAATGATGCTGTCCCTCTCCGAGGACGCGCCCCTCCACGCCCCTGCCCAGAGCTCGCTGGGCGCTTGGCTGAACATAACAGGAGCCTCGTCAGAGTCTGGAGCCTTCAACCCCATCAACCACCTCTGA

XR_206043.1 Non-coding sequence

LOC101700373 PREDICTED: Heterocephalus glaber uncharacterized LOC101700373 (LOC101700373), misc_RNA.

Length: 451 bp     
>XR_206043.1
CACCGGCGAACCTCGGGCTGAGTCACCGCCGCCTGTGTCGGTCCACGTCCGCCCGCTCAGGGCTTCGGGGCGCCAGTCGCCCACGCCGAGCGCAGGATGGCGGGCGGCCAGTGCGGGCTCCGGGACCACCCAGCTCCGGGTTGCATCTTAGCCCCTAGAGGGACAGATTTCAGAGGATGGGAATCGTGCAACTCGGGACCGAAGCACCGCGTCTAGAGACTTTCGGGGACGGGACAAAAAGCTCTTTTTGCCCAGACTGGTCTCAAACTTCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTACAGAGTACCTGGGACACCTGGCATCAGGCTGTGGTTTTGTTTTCGCATTCCTGACACCAGGGGTTATTTGAACATTTTGTCAACCTAATTATGCAGATTTAAAGAATAATAATACTGATAAGAATAAAGATGAAGTTAATTACCCAAAA

XR_206034.1 Non-coding sequence

Vps13d PREDICTED: Heterocephalus glaber vacuolar protein sorting 13 homolog D (S. cerevisiae) (Vps13d), transcript variant X14, misc_RNA.

Length: 13149 bp     
>XR_206034.1
GGCCTGCGCCATTGAGGAGCGGCGGAGAGGAAAAGCTGCGCGGTGCCGGGCCGGGCGGACGCCTCGACAGCGACAGATTCTTCTGTGACCATGAGAGAGAGACATAAAGAATGATCCATGATTTTTAAGTACCTTTCCTTGAGGAAATAGTCATGTTGGAAGGTCTTGTCGCCTGGGTTCTCAATACCTATTTAGGGAAATATGTCAATAACCTGAACACCGATCAGCTCTCAGTTGCCCTGCTCAAAGGTGCTGTGGAGTTAGAAAACTTGCCATTAAAGAAAGATGCCTTGAAAGAACTGGAATTACCATTCGAAGTCAAAGCTGGCTTCATTGGGAAAGTGACCCTTCAGATCCCCTTCTACCGCCCGCATGTGGACCCCTGGGTGATCTCCATCTCCAGCCTCCATTTAATTGGCGCCCCTGAGAAAGTCCAGGACTTCAATGATGAGAAGGAGAAGCTGTTGGAGAGAGAACGCAAGAAAGTGCTGCTGCAAGCGCTGGAGGAGAAGTGGAAGAGCGAACGCCAGCAGAAAGGGGAATCATACTGGTACTCAGTTACCGCCTCCGTAGTGACCAGAATCGTGGAGAACATCGAGTTAAAAATTCAAGATGTCCATTTACGCTTTGAAGATGGCATTACCAATCCTTCCCATCCTTTTGCATTTGGTGTCTGTATTAAGAATGTGTCCATGCAGAATGCTCTGAATGAGCCCGTACAGAAACTGATGCGGAAAAAACAATTAGATGTGGCAGAGTTTAGCATTTACTGGGATGTCGATTGCACGTTGCTGGGGGATTTGCCGCAGGTGGAGTTGCAGGAGGCCATGGCGAAGAGCATGGAGAGTCGCAGTCACCACTACGTCCTTGAGCCCGTGTGCGCCTCCGCGCTCTTGAGGAGAAACTGCTCTAAGGAGCCTCTGCGATCCCGGCACAGCCCCCGCATCGAGTGTGACATTCAGCTGGAGACCATTCCCTTGAAGCTCTCTCAGCTGCAGTACAGGCAGATCATGGAATTCCTCAAGGAGCTGGAACGGAAGGAGAGGCAGGTGAAGTTCCGGAAGTGGAAACCAAAAGCAGCAGTATCTAAGAACTGCCGAGAATGGTGGTATTTTGCTCTGAATGCTAACTTATATGAGATCAGAGAGCAGCGGAAGCGCTGTTCCTGGGACTTCTTATTGCACCGCGCCCATGATGCTGTATTTTACACTGACAAATATTTCAGCAAGTTGAAAGGAGGCTTACTGTCTGCACACGACAAGGAGGAGATATGTCGGATTGAGGAGGAGCAGAGCTTTGAGGAATTGAAGATTTTGCGTGAACTGGTTCACGATCGGTTTTATAAGCAAGAAGAGCTAGCAGAGAGTCTGCGAGAACCTCAGTTCGATTCTCTGGGAGAGTCTCCTGGAGACCCAGATGGCGGCGGAGGCAGTGGGATGCTACAGTACCTTCAGTCCTGGTTCCCTGGCTGGGGCGGCTGGTATGGGCAGCAGACCTCCGAGGGCAAGGTGGTGGAGGGCCTGTCAGCAGAGCGGCAGGAGCAGTGGACCCCTGAAGAGATCCTGGGCACCGAGGAGTTCTTTGACCCCACTGTAGATGCCTCATGTATGAACACATACACAAAGCGAGATCATGTTTTTGCCAAGCTGAACGTGCAGCTGCAGCGTGGTACAGTGACTCTGCTACACAAGGAGCAAGGGACTCCTCAGATGAATGAAAGTGCATTCATGCAGCTTGAGTTTTCAGATGTAAAACTACTAGCAGAATCTCTTCCTCGAAGAAATTCCTCCTTGCTTTTAGTCCGATTGGGTGGACTATTTCTTCGAGACGTGGCTACGGAAGGAACTATGTTTCCTCTTCTGGTCTTTCCTAACCCGCAAAAAGAAGTTGGCAGAGTCTCACAGTCTTTTGGTCTCCAAACCACATCAACAGACAGAAGTGATCAATACCCAGCTGCAGACTCAGACGACCCAGTTTTTGAGATGCTATACGAGAGAAACCCAGTGCACAGTCATTTTGAGAGGCGGCTTAATGTCAGCACGAGACCCTTGAACATCATCTACAATCCCCAGGCCATTAAAAAAGTAGCAGACTTTTTCTACAAGGGAAAGGTTCATACCTCAGGGTTTGGTTATCAGTCTGAACTTGAGTTGAGAGTGGCTGAAGCTGCTCGAAGACAGTATAACAAGCTGAAGATGCAGACCAAGGCAGAAATCCGACAAACTCTTGATCGTTTACTAGTGGGAGACTTCATTGAGGAGAGTAAACGGTGGAGTGTGCGCCTGGATATTTCTGCCCCACAGGTGATATTTCCTGATGATTTCAAGTTCAAGAACCCTGTGTTAGTTGTTGTGGATCTAGGAAGAATGCTGCTGACCAATACCCAAGATGACTCCAGGAGAAAAAGTGGGGACAGGTCAGGTTGTGAAGAGAATGAGTTTAGTGATGATGAATATAAGACTCCACTTGCCACCCCTCCCAATACCCCACCTCCAGAGATAGGCAGCAGTAACGGAGAGAAAACACCTCCCTTTTCTGGAGTTGAATTCAGTGAAGAACAGCTTCAAGCACACTTGATGAGTACGAAGATGTACGAGAGGTACTCCCTGTCATTCCTGGACCTCCAGATCATGGTTGGACGTGTGAAAGACAATTGGAAGCATGTTCAGGATATTGATGTGGGCCCCACCCATGTGGTAGAGAAATTCAACGTTCACCTTCAGTTAGAACGCAGGTTGATTTATACTTCCGATCCCAAGTACCCAGGGGCCGTACTGTCAGGGAACTTGCCAGACTTAAAAATCCACATCAATGAAGATAAGATATCTGCCCTGAAGAACTGCTTTGCTATCCTTACCACCCCAGAAATGAGGACTTCTGACACTCTGATTAAAGAGAAGATTTTCCCCCAAGAAGGACAGCGGGGAAGCTTGCAGGACTCAGTCATGAACTTAACCCAGAGCATCGTGATGGTGGAGCAGCACACCCGGGAGGTTCTGGTGGAGTCGCAGCTCCTGTTGGCTGAATTTAAAGTTAACTGTATGCAGCTTGGTGTTGAGAGCAATGGCCGGTACATTTCTGTGCTCAAGGTGTTTGGTACCAACGCGCACTTTGTAAAAAGGCCTTATGATGCTGAAATCTCCCTGACTGTTCACGGTTTGCTCCTGGTGGACACAATGCAGACCTATGGCGCTGACTTTGACCTTTTAATGGCCTCACATAAGAACCTGAGTTTCGATATCCCAACGGGAAGCCTCCGGGATAGCAGGACGCAGTCTCCTGTCTCTGGACCTAACATGGCCTGTGTGACTGAGGCACCCACCCCGAATGACCCATCAGCAACCAGTGTTCCACTTGAAAAAATTCTCACCAAAGAACAAGAGTCCCTTATTAAGTTGGAATATCAATTTGTGAGTTCAGAGTGCCCGTCAATGAACTTGGACAGCACTCTTCAGGTGATTTCCGTACAGGTCAATAATTTGGATATTATCCTAAATCCTGAGACAATTGTGGAGCTGATTGGTTTTCTTCAAAAATCCTTCCCCAAGGAGAAGGATGATTTGAGTCCTCAGCCCTTAATGACCGATTTTGAAAGAAGCTTTAGAGAACAAGGGACATATCAGTCTACATATGAACAAAACACTGAAGTTGCAGTAGAAATCCATAGACTTAACTTACTACTCCTTCGGACAGTGGGAATGGCAAATGGAGAGAAATATGGCAGGAAAATTGCAACTGCAAGTATAGGTGGCACCAAGGTCAATGTCTCGATGGGGAGCACCTTTGACATGAACGGTTCTCTCGGCTGTTTGCAGCTTGTGGATTTGACACAAGACAGTGTTAAGAACCAGTATGTTGTCAGTATTGGTAACTCCGTAGGCTATGAAAATATTGTCAGTGACATTGGCTACTTTGAGTCCGTGTTTGTCAGAATGGAAGACGCAGCCCTTACTGAAGCTTTGAGCTTCACACTCGTTGAGAAATCTAAACAGGAGTGTTTTCTCAACCTGAAGATGGCTTCCTTGCATTATAACCACTCAGCTAAATTCTTGAAGGAGTTGACCTTATCCATGGATGAACTGGAGGAAAACTTTCGAAGCATGCTGAAAAGTGCTGCCACCAAAGTCACCACTGTGTTAGCTACCAAAACCGCTGAGTACAGCGAGATGGTGTCACTCTTTGAAACTCCAAGGAAGACACGGGAACCCTTTATCTTGGAGGAAAATGAAATATATGGGTTTGGCCTGGCTTCGTCTCATGTGGACACTGTAAAGCTAATCTTGAACATAAACATTGAATCGCCTGTTGTTTCCATCCCTCGGAAGCCTGGGAGTCCTGAGTTGTTGGTAGGACACTTGGGACAGATATGCATCCAGAATTTTGTGGCAGGAGATGATGAATCGAGAAGTGACCGTCTGCAGGTAGAGATCAAAGACATTAGACTATATTCTTTGAATTGCACTCAATTGGCAGGCAGAGAAAGTGCTGGGTCTGAAGTAAATCGGACATTTTGGCTCCCCGCCGGGTCTGCCAGTGTCAACAGTCAGGAGGAAGCGCACTTCACACGGCATGATTTCTTTGAATCGTTGCACAGAGGTCAAGCTTTCCACATACTGAACAACACCACCATTCAGTTTAAACTGGAGAAGATCCCCGTAGAGAGAGAATCTGAATTGACTTTCTCCCTTAGTCCAGATGACCTAGGAACAGCTAGCATCATGAAGATCGAAGGAAAATTTGTCAATCCGGTTCAGGTGGTGTTAGCCAAGCATGTATATGAGCAGGTTTTGCAAACACTGGACAACCTCGTGTATAGTGAAGATCTGAATAAGTTTCCAGCCAGTGCTGCCTCCTCCCCTTGCCCTAGTTCTCCTCTGCCTGTCCTCAGTACCTGCGGAGAACCTTCCGTGGAGAGGAAGGAGAACGGATTGTTCAGCCACTCCAGCCTTTCCAGCACCTCTCAGAAGTCCCTGTCTGTGAAGGAAGCCAAAGCCTTTACTCAGATTCAAGCCAACTTTTGTATATCTGAGCTCCAAGTTCAACTAAGTGGAGATCTGACTTTGGGAGCCCAAGGTCTTGTGAGCTTGAAGTTTCAGGACTTTGAGGTGGAATTCAGTAAGGACCACCCTCAGACCTTATCCATTCAGATTGCCCTGCGGTCTCTGCTGATGGAAGACTTACTAGAGAAGAACCCAGACTCCAAATACAAGAACCTGATGGTGTCTCGAGGGGCTCCCAAGCCATCCAGCTTGGTGCAGAAAGAGTACCTGTCCCAGTCTTGCCCTTCAGTGTCCAATGTGGAGTACCCTGATATGCCTCGGTCTCTCCCTTCTCACATGGAGGAAGCTCCTAATGTCTTCCAGTTGTACCAGAGGCCTGCCTCTGCATCCCGGAAGAAGCAAAAGGAAGTCCTGAACAAGGACTATCCCTTGACCCCACCTCCGTCTCCAACAGTAGATGAGCCCAAGGTACTTGCTGGAAAGAGTAAATTTGATGATTCCTTGGTCCACATCAATATATTCTTGGTAGATAAGAAACACCCAGAATTCTCTTCCAGTTATGACCGTGTTAACCGGAGCATTGATGTTGATTTTAACTGTTTGGACGTGCTGATCACACTGCAAACCTGGGTCGTGATATTGGACTTCTTTGGCATCGGCTCCACTGCAGACAACCATGCAATGAAAGTGCCACCAGAGGACATTCTGCAGAGCTTGAGGTCAGAGTCCAGCGCCTCACCAGAGTCTGCACTGCAGGATCCAGTTAACACTAAGCTGGACGTCAAGGTTCATTCACTCTCTCTCGTGCTGAATAAGACTACCAGTGAGCTCGCTAAAGCGAATGTGTCCAAATTGGCAGCACACCTGGAAATGATTGAGGGAGACTTGGCCTTGCAGGGGAGCCTCGGGAGTCTGTCTCTGAGTGACCTCACAGCCCATGGAGAGTTCTACAGAGAACGGTTTACAACGAGTGGAGAAGAGGCGCTCATCTTCCAGGCTTTTAAATATGGGCAGCCTGACCCTCTGCTCCGGAGGGAGCACGACATGCGGGTGAGTCTGCAGATGGCCTCCGTGCAGTATGTGCACACTCAGCGCTTCCAGGCCGAGGTGGTGGCCTTCATTCAGCACTTCACTCAGCTGCAAGATGTCCTGGGCCGCCAGCGAGCTGCTATCGAGGGCCAGACAGTAAGAGATCAAGCTCAGCGCTGTTCTCGGGTTCTCCTGGATATCGAGGCTGGTGCTCCAGTTCTTCTAATCCCAGAAAGTTCCAGATCAAATAACCTGATTGTAGCAAATTTGGGGAAGTTGAAAGTCAAGAACAAGTTTCTCTTTGCCGGTTTTCCTGGAACTTTTTCCTTACAAGACAAGGAGTCTGTGCCTTCAGCTTCCCCAACAGGTACTCCCAAACACACAGTGAGGAAAATGACAAGCATGGAGGACCCCAAGGGATCTCATCCCCAGGTGCTGTTCATGATGCCCCCTGCTGAAAAAGGCCTGGGCAGCTTGAAGAGTGAGTTTGTGTCCAGTGCTTCCACCAGGCAGCAAGGACAGCAAGCCACACTGCCTGTCAGCCACAGTTCCAGTAGTCCAGTCCTTGTAGAAGACCATGTCTGCTTGCTGGACTGTGTTGTTGTGGATCTACAGGACATGGACATCTTTGCTGCAGAGAGACGCCCACGAGAATACTCAAAAGCCTCTGAGGACGACAGTGGAGATCTGATCTTCCCCTCCTACTGTGTGCGACAGACAGGAGAAAGCCTCTTAACTGAACCTTGTAGGCTGAAATTGCAGGTGGAAAGAAATTTGGACAAAGAAATAAGTCATAGTGTCCCAGACATATCTATCCACGGCAGCCTCTCCTCTGTCCACTGCTCCCTGGACCTGAGTAAATATAAGTTGATCCGAGGCTTGCTAGAGAACAACCTTGGAGAGCCCATTGAGGAATTTATGCGGCCTTATGATTTACAGGATCCAAGAATTCACACTGTTCTGAGTGGAGAGGTATATACTTGCATGTGCTTCCTCATTGACATGGTCAATGTAAGTCTGGAGCTTAAAGATCCAAAAGGAAAAGAAGGTGCTGGATCCCTTGCCAGGTTTGACTTCAAGAAATGTAAACTACTCTATGAGAGTTTTTCTAATCAAACCAAATCTGTTAACTTGGTTTCCCATTCCATGATGGCTTTTGACACACGCTTTGCTGGGCAGAAGACAAGCCCTGGCCTGACCAACGTATTCAGCTGTATCTTTCAGCCTTCCAAGAATAGCAGTACCACCCAAGGGTCCATTCAGATCGAACTTCATTTCAGATCTACAAAGGATTCTTCCTGTTTCACAGTAGTTCTCAACAATCTCCGAGTGTTTCTCATATTTGACTGGCTACTGTTAGTCCATGATTTTCTCCACACACCCAGTGATATTAAGAAACAAAATGTTACTCCTTCTCACCACCATAACTGTAGCAGTGAATCTGCTGTAGTTCCGAAAACTGTGAAGAGTGGAGTAGTTACCAAGCGGTCTTCGCTTCCTATTTCCAACGAAAGGCACCTGGAGGTCAAGGTCAACGTAACAGGCACAGAGTTTGTGGTGGTTGAAGATGTGTCCTGCTTTGATACCAATGCCATTATTCTGAAAGGTACCACAGTGCTCACCTATAAACCCCGCTTTGTCGATCGCCCATTTTCAGGAAGTCTCTTTGGCATTGAGGTGTTTTCGTGCCGACTGGGGAATGAGCACGATACAGCTCTTTCCATTGTTGACCCAGTGCAAATTCAAGTGGAGCTGGTGGGGAATTCTTCTTACCAGAATAGCTCTGGATTGATGGATGCATTCAATAGTGAAGATTTTCCTCCTGTCCTAGAGATTCATTTACAAACCCTGGATATCAGACTCTCCTATAATGATGTTCAGCTGTTTCTTGCCATTGCCAAATCCATCCCAGAGCAAGCTAATGCTGCAGTGCCAGACTCAGTGGCCTTGGAGGCAGACTCTGTTAGCAGTCACCTTCCAGGTGCATCTCAAGTTGGAGAGGAAAGCAGAGAAGGAACAAGACATGCCTTAGATCCCATCTTGGAGTTACAGCTGGCCAGACTGCAGGAGCTGGGATTCAGCATGGATGACTGTCGCAAAGCTCTTTTGGTGTGTCAAGGCCAGTTGAAAAAGGCAGCAAGTTGGTTGTTCAAGAACGCAGAGCCACTGCACTCTCTTTCTCTGGCCGCTGGCAGCCGAGAGAGTCCGGGGACTGTGCCGGCCCCAAGGATCTCGGGAGTAGAGGTCAAAGCCGAGAGCGTGTGCATCTGCTTCATTGATGACTGCATGGACTGTGACGTGCCTCTTGCTGAGCTCACCTTCTCCCGTCTGAATTTTCTTCAGCACATGCGAACCAGTCCTGAAGGCTACGCCCACTTCACCCTGTCTGGAGATTATTATAACCGCGCTCTCTCAGGCTGGGAGCCATTTATTGAGCCCTGGCCGTGTTCTATATCCTGGCAACAACAGGCAGCGAGCCGGCTCCATCCTCCTCGCCTGAAGCTGGAGGCCAAGGCTAAACCCCGTTTGGATGTCAACATCACTTCTGTACTCATTGACCAGTATGTAAGTACCAAGGAATCGTGGATGGCGGATTATTGCCGAGAAGACAAGGAGCCAGATTCGGCCCACTCAGAAGACTGGATCGGCTCATCAGTGGACCCGCCATACTTTGGGCAAAGCCTCCCCCTCATCTACCTTAGAACTAGGAGCACAGCCAGTCTGACTAACCTAGAGCACCAGATCTATGCAAGAGCAGAGGTGAAAACCCCTAAGCGCCGGCAGCCATTTGTCCCCTTTGCTCTGAGGAACCACACGGGGTGCACTTTGTGGTTTGCCACCCTGACCACCACGCCCACCAGGGCAGCGCTGTCTCACAGTGGGAGTCCAGGGGTGGTTCCGGAAGGGAATGGGGCATTTCTGGACGATGGTCATAATGTTAGCGAGTGGCAAGAAGTCCTCACAGGTGAAGAGATTCCCTTTGAATTTGAAGCCAGAGGAAAGTTAAGACACAGACACACCCATGACCTTCGAATCCACCAGCTGCAAGTGAGAGTGAATGGCTGGGAGCAAGTGAGCCCCGTGTCCGTGGACAAAGTTGGGACCTTTTTCCGATATGCAGCACCCGATAAAAATTCATCTTCCTCTACAATTGGCAGCCCAAGCAGCAGAACCAATATTATACATCCACAGGTTTATTTCTCCTCACTCCCACCTGTGCGGGTGGTCTTCGCGGTGACAATGGAAGGCAGTGCTCGGAAGGTCATCACTGTCCGGTCAGCTCTCATTGTGCGGAACAGACTCGAGACACCAATGGAACTGAGACTGGACAGCCCGTCAGCGCCAGACAAGCCAGTGGTGCTTCCCGCTGTCATGCCAGGGGACTCGTTTGCTGTGCCTTTACACCTCACTTCTTGGCGACTGCAGGCCCGGCCCAAAGGATTGGGTGTGTTTTTCTGTAAGGCCCCGATTCATTGGACCAATGTAGTGAAGATGGCAGAGGTTAGTAGCAGCAAGCGAGAGTGTCACTCCATGGACACAGAAAAGAGCCGGTTCTTCAGGTTTTGTGTGGCTATAAAGAAAGAGAACTATCCAGATTATATGCCCTCAAACATATTCTCTGATAGTGCAAAACAGATTTTTAGACAGCCTGGGCATACCATATATCTCCTGCCAACTGTGGTGATCTGCAACTTGCTGCCTTGTGAACTTGATTTTTATGTGAAAGGAATGCCAATTAACGGGACCCTGAAGCCTGGCAAGGAGACAGCCCTCCACACAGCTGATACATCCCAGAACATTGAACTAGGCGTGTCGCTGGAGAACTTTCCCCTCTGTAAAGAATTGCTTATTCCACCTGGGACCCAGAACTATATGGTGAGAATGCGACTCTATGATGTCAACCGGCGACAGCTAAACCTCACAATCCGAATTGTGTGCCGAGCAGAAGGATCCTTAAAGATCTTCATTTCCGCCCCTTATTGGCTCATTAACAAAACAGGGTTACCACTGATCTTCAGACAGGACAATGCAAAGACAGATGCTGCTGGCCAGTTTGAGGAGCACGAGTTGGCCCGGAGCCTGAGCCCTCTCTTATTCTGCTATGCTGACAAAGAGCAGCCAAACCTCTGCACGATGAGAGTCGGAAGGGGGATTCATCCGGAAGGCATGCCAGGCTGGTGTCAGGGCTTCTCCCTGGATGGCGGTAGTGGTGTCCGAGCTTTGAAAGTCATCCAGCAAGGAAACCGCCCAGGGCTGATCTATAACATTGGTATTGATGTCAAGAAAGGCAGAGGTCGCTATATTGACACCTGTATGGTCATCTTTGCCCCCCGTTACCTCTTAGACAATAAATCATCTCACAAGCTCGCATTCGCACAAAGGGAATTTGCCAGGGGACAGGGAGCAGCCAATCCTGAAGGTTACATTTCTACCCTTCCTGGCTCCAGCGTGGTGTTCCACTGGCCTCGCAATGACTATGATCAGCTATTGTGTGTCAGATTGATGGATGTTCCCAATTGCATTTGGTCTGGAGGCTTTGAAGTCAACAAGAATAATTCCTTCCATATCAATATGAGGGATACTCTGGGGAAATGCTTCTTCCTGCGAGTGGAAATTACTCTCCGAGGAGCTACATATAGGATCTCTTTTAGTGACACAGATCAGTTACCCCCTCCTTTCCGAATTGACAACTTTTCTAAGGTCCCTGTTGTCTTCACTCAGCATGGCGTGGCTGAACCCAGGCTCCGAACTGAAGTGAAGCCCATGATGTCACTGGATTATGCCTGGGACGAGCCCACCCTGCCGCCATTCATCACCCTAACTGTTAAAGGGGCGGGCTCCTCGGAGATCAACTGCAACATGAACGATTTCCAGGATAACCGACAGCTTTATTATGAAAATTTCATTTACATTGCTGCTACATATACATTCTCTGGTTTGCAGGAGGGAACTGGAAGGCCTGTGACCTCTCACAAGGCTGTTACCCGTGCAGAGCTTGTCTTGGATGTCTCACCAAAGACGCAGCGCGTCATTTTAAAGAAAAAGGAACCGGGCAAGCGTTCTCAGCTCTGGAGGATGACAGGAACAGGAATGCTGGCCCACGAGGGCTCTGCAGTTCCTCACAACCCCAACAAGCCCTCAGCCACCCGGTCCACCGAGGGCTCTGCCATCCTAGATATTGCTGGTCTTGCTGCAGTAACTGACAACAGATATGAGCCACTGATGCTAAGGAAGCCCGACCGCAGGCGAAGCACAACCCAGACGTGGAGTTTCCGAGAAGGAAAGCTGACCTGTGGCTTGCATGGGTTGGTTGTCCAGGCCAAAGGAGGACTTTCTGGTTTGTTTGATGGAGCTGAAGTTGTTCTTGGTCCTGACACATCTATGGAGCTTTTGGGGCCAGTTCCACCTGAGCAACAATTTATTAATCAAAAAATGAGGCCTGGTTCTGGAATGTTATCCATCAGAGTCATCCCAGATGGACCAACCAGAGCACTCCAGATAACAGATTTCTGCCAGAGGAAAAGTGATCGTACATCATATGAGGTGGATGAACTTCCTGTTACTGAACAAGAACTGCAGAAATTAAGGAATCCAGATACCGAACAGGAATTGGAAGTGCTTGTGAGGCTAGAAGGTGGAATTGGTGTGTCCTTAATTAATAAGGTCCCAGAAGAATTGGTTTTTGCAAGTCTTATGGGAATCAATGTCCACTACACACAGCTGGCAACCAGTCACATGCTTGAACTCAGCATACAGGATGTACAGGTGGACAATCAGCTCATCGGTACCACTCAGCCCTTCATGCTCTATGTGACTCCCCTGAGCAATGAGAACGAGGTCGTTGAGCCTGGCCCCGCCGTGCAGGTCAACGCGGTGAAGTTCCCCAGTAAGAGCGCGCTGACCACCATCTACAAGCATCTGTTAGTCACGGCTCAGAGATTCACAGTACAAATTGAAGAGAAACTGCTCCTCAAACTGCTAAGTTTCTTTGGCTACGACCAAGCAGAGTCAGAGGTGGAAAAATATGACGAAAACCTCCATGAAAAGACAGTTGAGCCGGGTGGAACACCAATTCGTTACTACTTTGAGAATCTCAAGATCAGCATCCCCCAGATCAAGCTGAGTGTGTTCACTTCCAACAAGCTGCCACTGGACCTCAAGGCCCTAAAAAGCACCTTGGGATTCCCATTGATTCGGTTTGAAGATGCTGTGATTAATCTGGATCCGTTCACCAGAGTCCATCCCTATGAGACCAAGGAGTTCATCATCAATGATATTCTCAAACATTTCCAGGAGGAGCTCCTGAGCCAGGCAGCTCGCATCCTGGGATCAGTGGATTTTCTTGGAAATCCCATGGGGCTTTTGAACGATGTCTCTGAAGGAGTTACTGGACTGATAAAGTATGGAAATGTCGGGGGCCTTATCAGAAATGTAACACATGGCGTGTCAAACTCTGCTGCCAAGTTTGCAGGGACGTTGTCGGATGGCCTGGGGAAGACGATGGACAATCGCCATCAGTCGGAGCGGGAGTACATCAGATACCACGCGGCAACAAGTGGGGAGCACCTCGTGGCCGGCATCCATGGCCTGGCTCACGGTATCATTGGTGGATTGACCAGTGTCATAACATCAACAGTGGAAGGTGTGAAAACAGAAGGGGGCGTCAGCGGTTTCATATCCGGCCTTGGGAAAGGGCTTGTTGGCACTGTAACGAAGCCGGTGGCAGGCGCCCTGGATTTCGCATCGGAAACAGCACAGGCGGTGAGAGATACAGCCACACTCAGTGGCCCCAGGACCCAAGCACAGAGAGTTCGGAAACCACGCTGCTGCACGGGACCCCAGGGGCTGCTTCCCCGCTACTCTGAGAGCCAAGCAGAAGGACAGGAGCAGCTCTTCAAACTGACGGACAACATCCAAGATGAGTTGTAAGTGGGAGCCGTGGGGAACAGCCCTGCTGGGCCACTGAGATGCCTCCTCTGTCTTAGAGTGGGGAGATTTCCCTGTGACCTGAGCTTTCTCCTGATTCTCAGATCTCAGAACTGTTGAGGGCTCCTTGTCCCAAGTGTTATTCCAGTTACACTCACTGTTTCACTTCTGGAAAATATTGTATAATTACTTC

XR_206037.1 Non-coding sequence

LOC101697327 PREDICTED: Heterocephalus glaber uncharacterized LOC101697327 (LOC101697327), misc_RNA.

Length: 983 bp     
>XR_206037.1
CATTTCGTACTCAGTAAAGACAGACCAAAGCAATTGGTCCTTTACTGTCACCCATTGTTGGGACCACAGTGGCTGGGCCCAACAGAATAACTGACATGGGGGAGGGGATATGCATCTGTTTTGTTACCCACAGGCGCTCTCCAGATTCCTGCGAAGGCTGTTACTCCATGTCATGTGGCACAAGGTGAGAAGCAACCTCATCTGCTAGCTGCAGAAGATGGCACTTCCACTGTGGCGATGACCAAGAAGGAGAGGAAGACAAATATACTGCCCTCTACAGCACGATCATCAGGACCCTCCTGGAGAGAGATTAAACAACTCACTGCTCGAGCGGAACAAATACTGCAAAGCACTGGCATGCCTTTCACTCCAGAAAATCTCTTCCTGGCAATGATAGCACAAGTCACCTATAATTCTAAGTTGGCAAAGTCCTGAGAGTGCTTTGTATGCTGTTCCAGTGCACCCTCCATGCAGAAGCCATGATGACCTCCTTATACCAAGCCCAGTACCCCTCTACCCTGTACTCTCCACCGTCTGCTCATTCTGGACTATAAAACAAAAAAGGGGGAATTATGGAGAGACTCTGGCTGGAGGAGTGATTGAAATGATTGCAAAGATAAAGGGACTCCCTGGAGCAACAGCACAGGGTTCCTGAAGTGCATGGTTAAAGATTAAAGCTGGCCTGCAGGGCAACAGCCAGGCAGGATCAGAAACAGGTTATCCTTAGCTGTGTTTGTTCCAGCCACTGTTCTTTCCATCCCCAATGGCTTGCTTAGATTAGGTGGAAATGAGTCATGTAGCAGACCACCCCGTTCCTTCCCTGTCCCCTGGCACGAATTCCTGCACAGATGTTTTCCCTCTATGCCTTGAGTTAAGAATAAAAGACCAGGGGTTTCTCAGCTCAGGGCTGCTTCCCTGAGGCTTTCTTGTGCTGAGGAGCCTGGGGGAACAGCCCTTCTGGGGCTCTTGGAGTTTGAACTGGA

XR_206041.1 Non-coding sequence

LOC101722283 PREDICTED: Heterocephalus glaber uncharacterized LOC101722283 (LOC101722283), misc_RNA.

Length: 319 bp     
>XR_206041.1
AGCTCCGGAGACTGGGAAGTCCATGGTCAAAGCAGACTAAGATTCCCCCAGTGTCTGACACCGAGCTGAGCTGCTCTCTCCTGGAGATGGTGCTGCCCCGTGGTGTCCCCTCAGCAGCCGGAGCCACTCTGGAGAGAGATGCACCCTTGTTAGCCACATGGCCCCACGATGGCTCCTCTCCATTGCTCGGAACCAAGTCCCAGCCCTCACAGAAGCTTCATGGTCACAGAAAGTTCCGTGGTACAGTCCCTCCTGCTGCTCCTTTCATTCATTGACCTGGGGCTCGCCAAACTATGGCCCTCTGCCTTTATTTTTTAAA

XR_206050.1 Non-coding sequence

Dvl1 PREDICTED: Heterocephalus glaber dishevelled segment polarity protein 1 (Dvl1), transcript variant X6, misc_RNA.

Length: 2181 bp     
>XR_206050.1
CCCGGCGTCCGAGCCGCGGGCCGGGCCCTGAACACCGCGCGGGCCCCGCGCCTTCGCCGCGCGCCATGGCGGAGACCAAGATCATCTACCACATGGACGAAGAGGAGACGCCGTACCTGGTCAAGCTGCCGGTGGCCCCCGAGCGCGTCACGCTGGCGGACTTCAAGAACGTGCTCAGCAACCGGCCCGTGCACGCCTACAAATTCTTCTTCAAGTCCATGGACCAGGACTTCGGGGTGGTGAAGGAAGAGATCTTTGATGACAACGCCAAGCTGCCCTGCTTCAATGGCCGAGTGGTCTCCTGGCTGGTCCTGGCCGAGGGTGCTCACTCAGACGCCGGGTCCCAGGGCACCGACAGCCACACTGACCTGCCCCCGGCCCTCGAGCGGACAGGTGGCATCGGGGACTCCCGGCCGCCTTCCTTCCACCCAAATGTGGCCGGCAGCCGCGATGGGATGGACCACGAGACCGGCTCAGAGTCCGTGGTCAGTCGCCGGCGGGAGCGAGCCCGGCGCCGGAACCGTGAGGAGGCCACGCGCACCAATGGGCACCCAAGGGGCGACCGGCGGCGGGACCTGGGGCTGCCCTCGGACAGTGCATCTGCTGTGCTGAGCAGCGAACTGGAGTCCAGCAGCTTCGTGGACTCAGAGGACGACAGCACGAGCCGGCTGAGCAGTTCCACAGAGCAGAGCACCTCCTCTCGGCTTATCCGGAAGCACAAGCGCCGGCGCAGGAAGCAGCGCCTGCGGCAGACAGACCGGGCCTCCTCCTTCAGCAGCATCACTGACTCCACAATGTCGCTGAACATCATCACCGTCACACTCAACATGGAGAGGCACCACTTCCTGGGCATCAGCATCGTGGGCCAGAGCAATGACCGGGGTGACGGTGGCATCTACATCGGTTCCATCATGAAGGGCGGGGCAGTGGCCGCCGACGGCCGCATCGAGCCGGGCGACATGCTGCTGCAGGTGAACGATGTGAACTTTGAGAACATGAGCAACGACGACGCTGTGCGGGTGCTCCGGGAGATCGTGTCCCAAACAGGGCCCATCAGCCTCACAGTGGCCAAGTGCTGGGACCCAACCCCCCGGAGCTACTTCACTATCCCGAGGGCTGACCCTGTGCGGCCCATCGACCCAGCCGCCTGGCTGTCCCACACGGCAGCGCTGACCGGCGCCCTGCCCCGCTACGGTACGAGCCCCTGCTCCAGCGCCGTCACGCGCTCCAGCTCCTCCTCACTAACCAGCTCAGTGCCTGGCGCTCCACAGCTGGAAGAAGCACCTCTGACAGTGAAGAGCGACATGAGCGCCATTGCCCGGGTCATGCAGCTGCCAGACTCGGGATTGGAGATCCGTGACCGCATGTGGCTCAAGATTACCATTGCCAATGCTGTTATCGGGGCGGATGTGGTGGACTGGCTGTACACGCACGTAGAGGGCTTCCGGGAGCGGCGCGAAGCCAGGAAGTATGCCGGCAGCATGCTGAGGCGCGGCTTCCTGCGGCACACGGTGAACAAGATCACCTTCTCCGAGCAGTGCTACTATGTGTTCGGGGACCTGTGCAGTGATCTCGCAGCCCTGAATCTCCACAGTGGCTCCAGCGGAGCCTCGGATCAGGACACCCTGGCCCCACTGCCCCACCCAGCCACAGCCTGGCCCCTAGGCCAGGGCTACCCCTACCAGTACCCTGGGCCCCCACCCTGCTTCCCGCCTGCCTACCAGGACCCCAGCTTCAGCTATGGCAGTGGCAGCGCTGGGAGCCAGCAGAGTGAAGGCCTAGGACAGGAGGGTGGACTCCATCCCCGGGGCCCTGCAGCCCACAAGGAATTGTGGAGAGCTGGGAAGACCTTGGAGCCGAGCTGAGGCCGAGGGGCAACATGAAGACCGTGGCTGTGTGTGCAGGGTCTGGGGAGAGGTGCAGCCAGCTGGCCCAGGGGACAGGAGAGGTGAGGGCAGGGGTGGCTGTGCCCAGGGAACCTGTTGGTCTTCAGACCCTGCACAGGCACTTGCTCCCACCCAAACCCGACCCGGCCGCTGCCAGGCCCAGCTGGTGGCAGGCCCGGTGTGTAACTTGTGCTATCCCTTGCTTTGTGCTGAGCAAGCCTTAGACTGAAGGACTAGCGGAGTGGACCCTCGGGGCCGGGAGCAAAAGCAGTGGGTCCACCCGGAGCAGCCGCCG

XR_206051.1 Non-coding sequence

LOC101726242 PREDICTED: Heterocephalus glaber uncharacterized LOC101726242 (LOC101726242), misc_RNA.

Length: 475 bp     
>XR_206051.1
GGGCAGGCGAGGAGGTCACATAAAGTGACTCCACGGGGTCAAGACATGGAACAGGATGTGAGGATGCCACTGCGCAGGGGCATCAGGAAGACAAATGGGATCCTACCTTTGAAATGGAAAAAACAAAAGACAGAGCAGACTGACCTTCTCAAAGCTTGCCAGAGACTGATGGTCTCAAGGCTGACCGTCTAAGGCTTGTCCCTCCTGCTAAATTCACAAAGGTCACCATGCCCAGAAGATGAACTGCTGAAACACAGCTGCCCACCTCCCTATGTCTTAAAGATAAACTGTGAAAACAACATTACCTCCACCTCCCTACCCTTTGCTAAGTTCTGCTTCTGTGAAATTCTGCTCGCTCTCCCACCCTGGCTGAAGAACAGATAAATATGAGAACAAATGGAGAAACAGGGCTCAGACTCTGGAAGGTAACTTCTGCTGGGCTCGCTAGCTAGCGAATAAACCTGCCTTCCCTTCA

XM_004863782.1 Coding sequence

Ttc34 tetratricopeptide repeat domain 34

High confidence: 4 potential gene matches
Length: 1686 bp    Location: 7435409..7447867   Strand: +
>XM_004863782.1
ATGCTGCTGCTCGCGCGAGGCCTGGGCTGCCGGAGCCGGGCTGCGGACACGCACGGGCCCGGGGAGCAGGAAGGGGATGCCTGTGGTGTGCACCAGCTGGCCACGCTGCTGGTGGAGCTGGATCCAGAGGACGAGGCCTCTCGCCTCCTGGCGGCCGATGCCCTGTACCGCCTGGGCCGCCCGGATGATGCCCACAAGTCCCTGCTGGTGGCCCTGTCCCGGAGGCCTCAGGCAGCGGCGGTGCTGGTGCGGCTGGCCCTGCTGCAGCTGCACAGGGGCTTCTCCTATGATGCCAACCAGCTGGTGAAGAAGGTGGTCCAGACCGGGGACACAGCCTGCCTCCAGCCCACCCTGGACATCTTTAGCCATGAGGACCGGCAGTTGCTACAGGGCCACTGCCACTCGAGAGCCCTGAGCATCCTGCGAACACAGCCGTGTGGGGCGGACAGTGGGGCCCACACCCGGGAAGCCATTGCCTACCTCTCTCTGGCCATCTTCGCTGCAGGGAGTAAAGCCAGCGAGTCCCTCCTGGTCCGAGCCCGCTGTTACGGGCTCCTGGGCCAGAAGAAGACTGCCATGTTTGACTTCAACTCCGTGCTGCGGGCCGAGCCAGGGAATGTGCTAGCCCTCTGCGGACGTGCCCTGTTGTACCTGGCCCTGGACCAGTTGCAGGAAGCTGTGGACGATGTTGCCTCTGCCCTGAGGCTCGACCCGGGGACCGTGGTCCCTGAGCTCCACTCTCTGAAGCCGGAAGCCCAGTTGCTGCTCACTCAGGGCCTCCATGCCCACTGCCGGGCCCTCCTGAGCCAGCTGCTGAACAGCAGGCCACCCCTCATGGACGAGGCTGCCCATGGCCTCCTTGCCATGGGGGAGGCGCTGATTAGAGTCAATGCTTCACAGCCAGGCTGGCACATCCTCCTCGTGGACATCCTCACAGCACTGGGCAGGTATGAGGAGGCTCGTGCCCACCTGCAACCAGCCCTACAGTCCTCCTCACCACCAGCAGCAGCCCGGGCCCGGAGGGGCCTGCTCCAGCTCAAGAAAGGAAACGTGGCCACTGCTGCCCAGGACCTGCAGTGCCTGGCGGAGACAGATGCCCAGGACCTCAGCTTCCTGTTGCGCCTCCTACAGCCCTCGGAGCAGCAGAGCCTCACCCAGGCTGCGGCCCAGGAAGCCAGCACCCTCCTAGGCGCAGGGCAGCCCGGGCAGGCGTTGGGCTACTGCTCTCTGGCTGTCCTGGCTGGGGGCAGCCTTACCTGTCACCTGCGTCTGCGGGCCATCTGCTTGGGCGAGCTGCAGCAGTTTGGCCGGGCCCTCGGAGACCTGGACCACGTGCTGCAGGAGGGTGCCGGGGACAGTGACCTGCAGGTGCGGACAGAGGACTTCTGTTCCAGGGGCCGCCTGCTGCTGGGCCTGAGGGACAAGGAGGGGGCCGCGGGGGCCTTCACCCGGGCCCTCGAGCTATCACCTGCTCTGGCCCAGCGCAGCCTGTGGGAGCGGCCAGGCCAGGCCCCTGTTGCCCATGTGTTCCTGCATTTTGGGCAGCACTGCCTGGAGGAACAGCGCTACGAAGAGGCCTGGACAGCGGCCCAGAGCGGCCTCCTGGTGGACCCCAACCATGGTGGCCTGAAGAAACTGAAGGCAAGAACCCGAAAAGAGGCATCCTCTGGCTGCCGGCTGCACTGA

XM_004863789.1 Coding sequence

Pank4 pantothenate kinase 4, transcript variant X1

High confidence: 4 potential gene matches
Length: 2322 bp    Location: 7519382..7532108   Strand: +
>XM_004863789.1
ATGGCGGAGTGTGGAACGAGTGACGGCGGGAGAAGCGGAGACAGCCTGGACAAGAGCATCACGCTGCCCCCCGACGAAGTCTTCCGTAACCTGGAGAACGCCAAACGCTTCGCCATCGACATAGGTGGATCGCTAACCAAGCTGGCCTACTATTCAACAGTGCAGCACAAAGTAGCCAAAGTGAGGTCCTTTGAGCACTCTGGAAAGGACACAGAGCAGGACCATGAGCCACCGTATGAGATCTCAGTTCAGGAAGAGATCACAGCTCGTCTGCATTTCGTCAAGTTCGAGAACACCTACATTGAGGCCTGCCTGGACTTCATCAAAGATCACCTGGTCAACACAGAGACCAAGGTCATCCTGGCCACAGGGGGCGGGGCCTACAAGTTCAAGGACCTCATTGAGGAGAAGCTGCAGCTGAAAGTGCACAAGGAGGATGTGATGACCTGCTTGATAAAGGGGTGCAACTTCGTGCTGAAGAACATCCCAAATGAGGCCTTCGCCTATCAGAAAGATGCTGAGCCCGAGTTCCGCTTCCAGACACAGCACGCCAACATATTCCCGTACCTCCTGGTCAACATTGGCTCTGGGGTCTCCATCGTGAAGGTGGAGTCGGAGGACAGGTTCGAGTGGATCGGCGGCAGCTCCGTTGGCGGCGGCACCTTCTGGGGGCTTGGGGCGCTGCTCACCAAGACAAAGAAGTTCGACGAGCTGCTCCACCTGGCCTCCAAGGGCCAGCACGCCAACGTGGACATGCTGGTGCAGGACATCTATGGCGGGGCCCACCAGACGCTGGGGCTTAGCGGCAACCTCATAGCCAGCAGCTTCGGGAAGTCGGCCACGGCTGACAGAGAGTTCTCCAGAGAAGACATGGCCAAGAGCCTGCTGCATATGATCAGCAATGACATTGGGCAGCTCGCCTGTCTCTATGCAAAGCTCCATGGCCTGGACAGAGTGTACTTCGGGGGCTTCTTCATCCGGGGCCACCCTGTGACCATGCATACCATCACCTACAGCATTAACTTCTTCTCCAAGGGAGAAGTGCAGGCGCTGTTCCTGAGACACGAAGGCTACCTGGGGGCCATCGGAGCATTCCTAAAAGGAGCCGAGCAAGACAATCCTAACCAGTACAGCTGGGGCGAGAACTACGCAGGCAGCTCTGGCCTGATGAGCACGTCACCTGAGCTGTGCCCAACACAGCGGGTGCGGAGTGGCACATTTGACCTGCTGGAGATGGACCGGCTGGAGAGGCCCCTGGTCAACCTGCCCCTCCTCCTGGACCCATCCTCCTATGTGCCCGACACGGTGGACCTCACAGACGATGCCCTGGCCCGAAAGTACTGGCTCACGTGCTTCGAGGAGGCCCTGGATGGGGTGGTGAAACGCGCTGTGGCCAGCCAGCCTGAGTCAGCGGACGCGGCCGAGAGGGCCAGGAAGTTCCGGCAGAAGTACTGGAGCAAGCTGCAGACGCTGCGGCATCAGCCCTTCGCTTACGGGACTCTGACTGTGCGCAGCCTGCTGGACACGAGGGAGCACTGTTTGAACGAGTTCAGCTTCCCAGACCCGTACTCCAAGGTGAAGCAGGAGGAGAACGGCGTGGCACTCAAGTGCTTCCAGTGCGTGGTCCAAGCCCTGGACGCGCTCAGCTGGGAGGAGCGGCAGCTGGCCCTGGCCAGGGGGCTGCTGGCGGGCAACGTCTTTGACTGGGGGGCCAAGGCCGTGTCGGATGTCCTTGAATCTGACCCCCGGTTTGGGTTTGAAGAAGCGAAGAAGAAGCTACAAGAGCGCCCCTGGCTTGTGGACTCCTACAGCAGGTGGCTTCAGAGATTAAAGGGGCCCCCTCATAAATGTGCCTTAATTTTCGCAGATAACAGTGGAATAGACCTCATTTTGGGAGTCTTCCCCTTTGTCAGGGAGCTACTCCTTAGAGGGACGGAGGTCATTCTGGCGTGCAACTCGGGCCCCGCCCTGAACGACGTGACCTACAGCGAGTCTCTCCTCGTGGCCGAGCGCATTGCAGCCATGGACCCCATCATCCACTCTGCGCTCCAAGAAGAGAGGCTGCTGCTGGTACAGACAGGCTCCAGTTCCCCGTGCCTCGACCTCAGCCGCCTGGACAAGGGGCTGGCCGTGCTGGTGCGGGAGCGTGGCGCCGACCTGGCAGTCATCGAGGGCATGGGCCGGGCCGTGCACACCAACTACTACGCCGCGCTGCGCTGCGAGAGCCTCAAGCTGGCAGTGGTCAAGAACGCCTGGCTGGCTGAGCGGCTGGGCGGCCCGCTCTTCAGCGTCATCTTCAAGTATGAGGTTCCAGCCGAGTGA

XM_004863787.1 Coding sequence

Mmel1 membrane metallo-endopeptidase-like 1, transcript variant X2

Length: 2310 bp    Location: 7453213..7482499   Strand: +
>XM_004863787.1
ATGGTGGACAGAGCCGGCTGGGCAGTGCAGAGGCGCCGAGGCTTCCTGGAGAGGGGGCTGCTGCTCCTGCTCCTGCTGGTGACGGGCGCCCTGGTGGCCCTGGGCGTCCTCTACAGCCGAGGGAAGCAGCTGCCCCCCTTTACGAGCTGGCTGTCCTCCTTACAGGAAGAGAGGACCGTTGTAAAACAAGATTTCCCCGCAGCCCTCCGGAAGCCCACGCGGGTGGAAGAGGTCTGCACCAGCCCTGGCTGCGTGGTGGCGGCTGCCAGGATCCTCCAAAACATGGACCCGTCCACGGAACCGTGCAGCAACTTTTACCAGTACGCGTGCGGGGGCTGGCTGCGGCGCCATGTGATCCCTGAGACCAGTTCCCACTACAGCGTCTTCGATATCCTCCGAAACGAGGTGGAGGTCATCCTCAAAGGGGTGCTGGAGAATTCCACTGCCAAGTCCCGGCCAGCCGTGGAGAAGGCGAAGCTGCTGTACCGCTCCTGCATGAACCAGAGCATGATAGAGAAGCGAGACTCTCAGCCCCTTCTGGACGTCTTGGCGGTGGTGGGAGGCTGGCCGGTGGCCATGGACAAGTGGAACCAGACCATAGGCCCCACGTGGGAGCTGGAGCGGCAGCTGGCGGTGATGAACACACAGTTCAACCGGCGGGTCCTCATCGACCTCTTCGTGTGGAATGACGACCTGAACTCCAGCCGCCACATCATCTACATAGACCAGCCCACGCTGGGCATGCCGTCCCAGGAGTACTACATCAAGGAGGGCAGCAACCAGAAGGTGCGGGACGCCTACCTGCAGTTCATGACATCGGTGGCCACCATGCTGCGGAGGGACAACAAGCTGCCTGGGGACACCCACCTGGTGCAGGAGGACATGGCGCAGGTGCTGGAGCTGGAGACTCACCTGGCCAACGCCACCACACCCCCAGAGGAGAGGCAAGATATCACCGAACTATACCACAGGATGGACCTGCAGCAGCTCCAGGACAGGTTCAGCCTGAAGGGTTTTAACTGGACTCTCTTCATACAAACTGTGCTGTCCTCCGTCAAAATCGAGCTGCTGCCCAATGAGGAAGTAGTGGTCTATGGCATCCCCTACCTGGAGAAGCTCGAGAACATCATCGACCTCTACTCGGCCAGGACCATGCAGAACTATCTGGTCTGGCGCCTGGTGCTGGATCGCATCAGCAGCCTGAGCCAGCGGTTCAAGGATGCCCGGGTAAACTACCGCAAGGTGCTGTACGGCACCACGGTGGAGGAGGTGCGCTGGCGGGAGTGCGTCGGCTACGTCAACAGCAACATGGAGAGCGCCGTGGGCTCCCTGTATGTCAAGGAGGCCTTCCCCGGGGACAGCAAGAACATGGTCAGAGAGCTCATCAAGAAGGTGCAGGCCATGTTCGTGGAGACCCTGGACGAGCTGGGCTGGATGGACGAGGAATCCAAGAAGAAGGCCCAGGAGAAGGCCATGAGCATCCAGGAGCAGGTCGGCTACCCCACCTACATCCTTGAGGAAAGCAACAGGCGCCTGGACCAGGAGTATTCCAGCCTGAACTTCTCGGAGGACTTGTACTTCGAGAACACACTGCAGAACCTCAAGGCCAGCGCTCACAGGAGCCTCAGGAAGCTTCGGAAAAAGGTGGACCAGAATCTCTGGATCATTGGGGCCGCAGTGGTCAACGCGTTCTACTCCCCGAACCGAAACCAGATCGTGTTCCCCGCCGGGATCCTCCAACCACCGTTTTTCAGCAAGGAGCAGCCACAGGCCTTGAACTTCGGGGGCATTGGGATGGTGATCGGGCATGAAATCACGCATGGCTTTGATGACAATGGCCGGAACTTTGACAAGAACGGCAATATGCTAGACTGGTGGAGCAACTCCTCGGCCCAGCACTTCCGAGAGCAGTCGGAGTGCATGATCCACCAGTACAGCAACTACAGCTGGGACCTGGCCGGGAGCCAGCACGTGAATGGATTCAGCACCCTCGGGGAAAACATCGCTGACAACGGAGGGGTGCGCCAGGCATTCAAGGCCTACCTAAAGTGGATGGCGGAAGGTGGCAAGGACCAGCTGCTGCCAGGGCTGGAGCTCACCTACAAACAGCTTTTCTTTGTCAACTATGCCCAGGTGTGGTGCGGGTCCTACCGGCCAGAGTTCGCCATCCAGTCCATCAAGACTGACGTCCACAGCCCCCTGAAGTACAGGGTGCTAGGCTCCCTGCAGAACCTGCCTGCCTTCGCTGATGCGTTCCACTGCCCCCGGGGCACCCCCATGCACCCCAAGGAGCGATGCCGCATCTGGTAG

XM_004863933.1 Coding sequence

unclassified transcription discrepancy mRNA

Length: 1191 bp    Location: 7505185..7491478   Strand: -
>XM_004863933.1
ATGGCGTGTGTCCAGCCAGAGCTGGGGACCGAGGAGGCGATGGAGGCCCCTGGTTTCCATGTGAGGCAAGTGTGCAGCGAGGTGACAGGCACTAAGTGCTCGCCCTGCCCTGCTGGGACCTACACCGCCCACCCCAATGGCCTCCGGCAGTGCCTGCGCTGGCAGGACTTCATTCCCATGGCTGCAGATACACAGAAGGGGGTCCAGCTCCTGACTGGGGGCAAAGGTCCAGGACAGCAGACAGACGGGCGACGCCGGGCCTCTGGCTGCTCCAGGTCCCCACTGTGCACAGCTGTGTGGTCCCTGTGGTGGAGGAGCTCCAGCACCCAGGATGCCGCGTGTGACTGTGGCCAAGGCCACTTCTGCAAGGCCCAGGAAGGGGACNCCTGTGTCCTGTGCGAGCCCCACACCACCTGCCACCCTGGCTGGAGGGTGAAGGAGAGACCACCAAGGCAGGACCGAGGCCCAGGAGGTGCCGACTGCCTGCCTGGGACCTTCTCGCCCAATGGGACCCTGGACCAGGTAAGGGAAGCCCGAGCCCTGGACGCCGCCCCCTGCCCAGCAGAAAGGGTTGCAACCCCCCAACCCCGGGCGGCACCAGGGTCCCAGCCAGTACCCAGTGAGCAGCCCGGGGAGCTGGGGCCACAGCGGATCTGCCCCTCCTGGAGGCTCCGGTGGCTCCGGATCTGCGGGGAGGGGCTGCCCGCCCGGGTTCGGAGCCGTCTTGGCTTCCTCGACTCCTGCAGCCCCTGCTGGTCCCTCCTCCCTGCCCTGCTGGGCTCTCCGTCCTCCTCCTGCTCTCTGTGTCCCCAAAATGGGGAGCAGCAGGGCACACGGGAGGCCACAGCCAGGCTGCTGACCAGAGCTGCCCTCAACCTCGGCCCCTGGTGCCCCTGTGCCAGGCCGGCAGGCCCACGTCCTCCCTCCCAGGTGCAGTGGGTGGCTTCAGAGGGAAGCAGAACCGGGGACCAGCAGCAAGGATGGCACCTGCTCCCTTGTGGCGTCTCTGTTCTTGCGTCCTGCATGGTGACCGTCGGCACCCTCACTCTGGCGGGCGTTCTCTCAGCCCTCTGGATACGGAAGAGAAGGAAAAGGTCGTCGGCTGCTCCGGCCCCTTCTGTGACAGGAGTTCCAGGCCGTGGGGCCCCGGAGACCATCCCCATCCAGTTACGCCCGGCCCGCTGCCCCTGA

XM_004863920.1 Coding sequence

Tnfrsf8 tumor necrosis factor receptor superfamily, member 8

High confidence: 4 potential gene matches
Length: 1707 bp    Location: 986351..959493   Strand: -
>XM_004863920.1
ATGTTCTGTGCCACCTCTGCCACCAACTCCTGTGCCCGCTGCTTCCCGCACTCTGCCTGCTCCGAGGGGATGGTGATCACGGCCCCAGGCACAGCTGAGACGGACACGGTCTGTGGCTGGCCTTCCCCGGGAACCAGCCTCGCCTGCGCCAGCCCCGAGGCCTGCAGGACACCCGCCAGCCGTACCACCCACAATGTCAAGCCAACTGTGACGCCCCAGGCCAGTGCGGATGCCAGGACCCGAGCCCTAGGCAGGAACACCCCGCTCCGGCTGGAAGATGCTTCCCGACCGCGACTCATGGGGCTTCCCGAGTCCTCCTTCTCCACGGTGGAGCCGGGCGCAGACCCAGGGCCGTCTCCCTCGCAGCCCTGTCTGCAGGGCTCCGCTGACTGCCCGAGGAAGCAGTGTGAGCCCAACCACTACCTGGACCTGGACGGCCACTGCAGGGCTTGCGTCAGCTGTGCTGGAGACGACCTCGTGGAGAAGGCGCCGTGCTCCTGGAACTCCTCCCGTGTGTGCCAGTGCCGGCCCGGCATGTTCTGTGCCACCTCTGGCACCAGCTCCTGTGCCCGCTGTGTCACCTGCCCAGTCTGTGCACCAGGGACGGGGCCTGGACTGCAGGGTGTGGCTGGCGGGGATGCCACCTCCAAGCCGCTTCCCCCAGGGGCCTGTCCTGACTGCAGCACCCCAGAAAGCAGCAAGGCTCCTGCCAGCACGAGCCCCACGCTGAGCCCCCTGGAGGGCTCCCCAACCAGCCGCAGGCCGCCCATCTCCACTAGCGCTCCAGTCTCCCTCTCCTCCACAGGGAAGCCCATTTTGGATCCAGGACCCGTGCTCTTCTGGGTGGCCATGGTGCTGGCCGTGGCGCTGGGCTCCGGCTCCTTCCTCCTGTGCTTCCGGAGGGCCTGCAGGGCGCGGATCTGCCAGAAGCTGCACCTGTGCTACCCGACCCACACCTTCCGACCGAAGCTGGAGCGGGCGGGAGACGAGTCTCAGTGTGGACAGCAGGCAGGCCACACAGCCCGGAAGCAGCGGCGCCAGCTCAGACGCTGGTCCCCTGGGAGGCTGGCCCAGCTGCTGACCGGATTCCAGATCCAGGAGGAGCCTGACGAGATCAGCCCCGTGGAGAGCTATGGGCACAGGGCTGGGCCTGGGGCCTCAGCAGACCTTGGCCAGGGCCCCAGCTCCACCCTGGGCAGCTTCCAGCTCCTGGCCTGGATGCAGGGGATTTTCCAGAAAGGCTTGCCTATGCGGCCCGGGAGTGACAGGTCAGGGACAGAGCCGGGCACAGGGGCACTGAATGTATCAAGCCCCTGGGTCGAGGAGACCTGTGCCAGTGTGGGGGCGGCCTGCCCCGAGAGCCTCCTGCTGCTGGATGACAGTCCTCCCGGGGGTGCCTCACCTCCCAGGGACCCCCCTGAGCCCCGGGAGTCCACAGAGCACACCAACAACCGGATCGAGAAGATCTACATCATGAAGGCTGACACAGTGATCGTGGGGAGTGTGAAGACGGAGGTGCCCGAGGGCCGGGGCACCGGGGGCACCGTGGGCCCAGCGGGGCCTGGGCTGGAGGCCGAGCTGGAGGTGTACCACGCCCCCCACTACCCTGAGCAGGAGACAGAGCCGCCCCTGGGCAGCGGCGGGGACATCGTAATGTTCTCTGTGGAGGAGGAAGGGAAGGAGGACCCCTGGCCCCGTGGGAAGTGA

XM_004863541.1 Coding sequence

Miip migration and invasion inhibitory protein, transcript variant X1

Length: 1638 bp    Location: 1035407..1027152   Strand: -
>XM_004863541.1
ATGGTGGAGACTGAAGACCTCATGCGCCTCCGGCTGCACAACCTGGGGCTTCTGAGGCAGCTGTGGGCCGGGCAGGCTGCTGTGCAGTGTGCGGTGGCCCGGGCAGTGTCCAAGTCAGGCGTGGACTCCAGCAGCAGCAGCTGTGACTCCGAGATGCCACTGACCCCAGAAACGTCCTCGGCCTCCCCCAGCACCTCCTGCTCACAGGACCAATGGTGCGCGTGGGCCCCCCTGGACACCCATCGGGGTCACCCCTGTGACACGGCCTGGGCCCGCTCCAGGGTGTCCTCTCTGCCTCCTGCCAAGTGCCAGCGTCCCGGGGCCCTGGGCCCTCCGAGGCCTCACTCGGTGCCCCTGCTGGCTTCCAGTGACCTGTGGGAGCCATCCACGGGGCCCGATGATCCGGGGCCTCGGGACGCCCAGGTCCCGAAGTCCATGCTGGCCCGGCGGAGCAGGCCGTCCAAGCCCCGAGTGACCTTCTGCGAGGAGTCTGCAGTGCCCGAGAGCAGCTGGCGCCTCCGGCCCTACCTGGGCTACGACTGGATCGCAGGGTCCCTGGACAGCAGCTCACCTGTCAGCAGCAAGCCCGAGGCCTTCTTCTCCGAGCTGCAGGAGTTCCGGGAGGCCCACCGGGAGGAGTGCATCGGCCGCGTCCACGAGCCCCACCTCCAAGGCCTGCGGCAGGGTGAGGATGCGGAGAAGGGCCATGAGTGTGAGTGTCAAGGCTCTGGGGGACCCCGAATTGTTTGGGGGGCTTCACGGGAATGGGGCCTTCCCTGTGTGCCACCCCCACCCTGGGCCTGGACTTGCTTCCCAGAGGGGTTGGAGCCCATGTGCTTGGGCAAAGCCAGGCCCCAGCTCAAGGGACCTGGTGCTTCTCGTGGCTCTTACAGGTGTGTTCTCCTACCGTGTCAACCGGCGCCTGTTCCTGGTGCCCTCGGACCCTGGTGTCCCCTGCCGCTTGTGTGGGACCCCTCGGGACCAGCGGGGCCCCGAGACCCTGGCAGAGCCTGCACAGGTCCAGGTGAGCGTCCCGCCCTCGGTCCTGGACCCCCCGCACCGGTACCGTATCCACCGACGCAAGAGCTTCGACGCCTCCAACACGCTGGCCCTGCCTCGGCACTGTCTGCTGGGCTGGGACATTGCCCCTCCAAAGCCCGAGAGAAGCTCGGCCCCCAGGAGTCTCGACCTCTGGTCCTCGGTCTCCTCTGCGGCCCAGCACCGGAAGCTGCTGGCCGCCAGCCCTTCTCACCTGGTACAGTTGGGGCGGCAGAGTCCCCTGAGGGGCAGGACGGGAGTGGGGGTACAAGGCCCTGTCCCCTGCACCCTCGCGCCCTTCCCCGCCTCCCCTGCCCGACCCCGGAAGCTGAGCCAGACTCTAAGACTCAGGACCCCAGTGAGCCTGACATTTCCCACCCCTTGCCCAGGCCTTGCCAGAGCAGGCCCCGCGCCCCACTCCGATGTGGTCAGAGCCCCAAGTCCCACGGGCCCCACAGTGAAGCCCTGAGCTCTGGCCACCTGGACGGCAGCGCTGTCAGCCCCAGCGTCCTCTGCAGGCAGTGCCACGAGGAGGAAGCCCCTGCCCACCTCGGGATACAGAGTGGGGTCTCGGGGTGGGGCCAGTGGTTTTGGGGATGA

XM_004863544.1 Coding sequence

Miip migration and invasion inhibitory protein, transcript variant X4

Length: 1638 bp    Location: 1035320..1027152   Strand: -
>XM_004863544.1
ATGGTGGAGACTGAAGACCTCATGCGCCTCCGGCTGCACAACCTGGGGCTTCTGAGGCAGCTGTGGGCCGGGCAGGCTGCTGTGCAGTGTGCGGTGGCCCGGGCAGTGTCCAAGTCAGGCGTGGACTCCAGCAGCAGCAGCTGTGACTCCGAGATGCCACTGACCCCAGAAACGTCCTCGGCCTCCCCCAGCACCTCCTGCTCACAGGACCAATGGTGCGCGTGGGCCCCCCTGGACACCCATCGGGGTCACCCCTGTGACACGGCCTGGGCCCGCTCCAGGGTGTCCTCTCTGCCTCCTGCCAAGTGCCAGCGTCCCGGGGCCCTGGGCCCTCCGAGGCCTCACTCGGTGCCCCTGCTGGCTTCCAGTGACCTGTGGGAGCCATCCACGGGGCCCGATGATCCGGGGCCTCGGGACGCCCAGGTCCCGAAGTCCATGCTGGCCCGGCGGAGCAGGCCGTCCAAGCCCCGAGTGACCTTCTGCGAGGAGTCTGCAGTGCCCGAGAGCAGCTGGCGCCTCCGGCCCTACCTGGGCTACGACTGGATCGCAGGGTCCCTGGACAGCAGCTCACCTGTCAGCAGCAAGCCCGAGGCCTTCTTCTCCGAGCTGCAGGAGTTCCGGGAGGCCCACCGGGAGGAGTGCATCGGCCGCGTCCACGAGCCCCACCTCCAAGGCCTGCGGCAGGGTGAGGATGCGGAGAAGGGCCATGAGTGTGAGTGTCAAGGCTCTGGGGGACCCCGAATTGTTTGGGGGGCTTCACGGGAATGGGGCCTTCCCTGTGTGCCACCCCCACCCTGGGCCTGGACTTGCTTCCCAGAGGGGTTGGAGCCCATGTGCTTGGGCAAAGCCAGGCCCCAGCTCAAGGGACCTGGTGCTTCTCGTGGCTCTTACAGGTGTGTTCTCCTACCGTGTCAACCGGCGCCTGTTCCTGGTGCCCTCGGACCCTGGTGTCCCCTGCCGCTTGTGTGGGACCCCTCGGGACCAGCGGGGCCCCGAGACCCTGGCAGAGCCTGCACAGGTCCAGGTGAGCGTCCCGCCCTCGGTCCTGGACCCCCCGCACCGGTACCGTATCCACCGACGCAAGAGCTTCGACGCCTCCAACACGCTGGCCCTGCCTCGGCACTGTCTGCTGGGCTGGGACATTGCCCCTCCAAAGCCCGAGAGAAGCTCGGCCCCCAGGAGTCTCGACCTCTGGTCCTCGGTCTCCTCTGCGGCCCAGCACCGGAAGCTGCTGGCCGCCAGCCCTTCTCACCTGGTACAGTTGGGGCGGCAGAGTCCCCTGAGGGGCAGGACGGGAGTGGGGGTACAAGGCCCTGTCCCCTGCACCCTCGCGCCCTTCCCCGCCTCCCCTGCCCGACCCCGGAAGCTGAGCCAGACTCTAAGACTCAGGACCCCAGTGAGCCTGACATTTCCCACCCCTTGCCCAGGCCTTGCCAGAGCAGGCCCCGCGCCCCACTCCGATGTGGTCAGAGCCCCAAGTCCCACGGGCCCCACAGTGAAGCCCTGAGCTCTGGCCACCTGGACGGCAGCGCTGTCAGCCCCAGCGTCCTCTGCAGGCAGTGCCACGAGGAGGAAGCCCCTGCCCACCTCGGGATACAGAGTGGGGTCTCGGGGTGGGGCCAGTGGTTTTGGGGATGA

XM_004863807.1 Coding sequence

Prkcz protein kinase C, zeta, transcript variant X2

Length: 1659 bp    Location: 7846937..7759514   Strand: -
>XM_004863807.1
ATGCCCGGCCGGACCGGCCCCAAGATGGACGGGCGCGGCGGCCGCGTCCGCCTCAAGGCGCACTTTGGCGGGGACATCCTGATCACCAGTGTGGACACTGTGATGACCTTCCACGCGCTCTGCGGAGAAGTGCGTGACATGTGCAGGCTGGATCCACAGCACCCGCTCACCCTCAAGTGGGTGGACAGCGAAGGTGACCCCTGCACCGTGTCCTCCCAGATGGAGCTGGAGGAGGCCTTCCGCCTGGCCTGTCAGCACCGTGACGAGGGACTCATCCTCCACGTCTTCCCAAGCATCCCGGAGCGGCCTGGCCTGCCCTGTCCCGGAGAAGACAAATCCATCTACCGCCGTGGAGCCAGAAGATGGAGGAAGCTCTACCGTGCCAACGGCCATCTCTTCCAAGCCAAGCGCTTTAACAGGCGGGCGTACTGCGGCCAGTGCAGCGAAAGGATATGGGGCCTCTCACGGCAAGGCTACAGATGCATCAACTGCAAGCTGCTGGTCCATAAACGCTGCCACGTGCTCGTCCCGCTGACCTGCAGAAGGCATATGGATTCTGTCATGCCTTCCCAAGAGCCTCCCGCAGACGAGAAGAGTGACGGCGTGGACCTGCCCTCCGAGGACACCGATGGAATTGCTTATATCTCTTCAACCCGCAAGCACGACAACATTAAAGATGATTCTGAGGACCTTAAGCCAGTTATCGACGGGGTCGACGGGA