Gene Name | Heterocephalus glaber isolate NMR 29 unplaced genomic scaffold, HetGla_female_1.0 scaffold00106, whole genome shotgun sequence |
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Cnih3 cornichon homolog 3 (Drosophila), transcript variant X3
Length: 474 bp Location: 6646603..6599655 Strand: ->XM_004867459.1 ATGCGAGCCCAGTGGATCTCATTTCACCCAGTCTCCAGCAGCCAAGCTGCCTTGGTAACGAGGCGCAGGAGACGACACAGCTGTGTTCCTGTGGCTTTGGAAGCCGACACAGCCCTGCAGGAAAAGGTGGCCAGGACCCAGAGGGAGCGGCTGAGGAACATCGAGCGGATCTGCTTCCTTCTTCGAAAGCTGGTGCTGCCCGAGTACTCCATCCACAGCCTCTTCTGTGTCATGTTCCTGTGTGCTCAGGAGTGGCTCACCCTCGGCCTGAACGTGCCCCTGCTCTTCTACCACTTCTGGAGGTACTTCCACTGCCCGGCCGACGGCCCAGAGCTGGCCTATGACCCACTGGTGGTCATGAACGCGGACACCCTGAGTTACTGCCAGAAGGAGGCCTGGTGCAAACTGGCCTTCTACCTGCTCTCCTTCTTCTACTACCTGTACTGCATGATCTCCGCGTTGGTGAGCTCCTAA
Cnih3 cornichon homolog 3 (Drosophila), transcript variant X4
Length: 435 bp Location: 6643301..6599655 Strand: ->XM_004867460.1 ATGGCCTTCACCTTCGCCGCCTTCTGCTACATGCTGGCCCTCGTGCTGTGCGCCGCGCTCATCTTCTTCGCCATCTGGCACATAATCGCCTTCGATGAACTCAGGACGGACTTCAAGAACCCCATAGACCAGTGCAACCCTGTTCATGCGCTGGTGCTGCCCGAGTACTCCATCCACAGCCTCTTCTGTGTCATGTTCCTGTGTGCTCAGGAGTGGCTCACCCTCGGCCTGAACGTGCCCCTGCTCTTCTACCACTTCTGGAGGTACTTCCACTGCCCGGCCGACGGCCCAGAGCTGGCCTATGACCCACTGGTGGTCATGAACGCGGACACCCTGAGTTACTGCCAGAAGGAGGCCTGGTGCAAACTGGCCTTCTACCTGCTCTCCTTCTTCTACTACCTGTACTGCATGATCTCCGCGTTGGTGAGCTCCTAA
Cnih3 cornichon homolog 3 (Drosophila), transcript variant X2
Length: 483 bp Location: 6643301..6599655 Strand: ->XM_004867458.1 ATGGCCTTCACCTTCGCCGCCTTCTGCTACATGCTGGCCCTCGTGCTGTGCGCCGCGCTCATCTTCTTCGCCATCTGGCACATAATCGCCTTCGATGAACTCAGGACGGACTTCAAGAACCCCATAGACCAGTGCAACCCTGTTCATGCGAGGGAGCGGCTGAGGAACATCGAGCGGATCTGCTTCCTTCTTCGAAAGCTGGTGCTGCCCGAGTACTCCATCCACAGCCTCTTCTGTGTCATGTTCCTGTGTGCTCAGGAGTGGCTCACCCTCGGCCTGAACGTGCCCCTGCTCTTCTACCACTTCTGGAGGTACTTCCACTGCCCGGCCGACGGCCCAGAGCTGGCCTATGACCCACTGGTGGTCATGAACGCGGACACCCTGAGTTACTGCCAGAAGGAGGCCTGGTGCAAACTGGCCTTCTACCTGCTCTCCTTCTTCTACTACCTGTACTGCATGATCTCCGCGTTGGTGAGCTCCTAA
Degs1 delta(4)-desaturase, sphingolipid 1
>XM_004867439.1 ATGGGGAGCCGCGTGTCGCGGGAGGACTTCGAGTGGGTCTACACCGACGAGCCGCACGCCGCGCGGCGCCGCGAGATCCTGGCAAAGTATCCAGAGATAAAATCCTTGATGAAACCTGATCACAACTTGATATGGATTATTATCGTGATGGTTCTCACCCAGCTCGTTGCCTTTTACTTAGTGAAAGACTTGGACTGGAAATGGGTCGTATTTTGGGCCTATGTCTTTGGCAGCTGCATTAACCACTCAATGACTCTGGCTATTCATGAGATTTCCCACAACTTCACCTTTGGCCACCACAAGACACTGTGGAATCGCTGGTTTGGAATGGTTGCTAATCTTCCCATTGGGGTTCCATATTCAGTTTCCTTTAAGAGATATCACATGGATCACCATAGATACCTTGGAGCTGATGGCATTGATGTGGATATTCCTACTGATTTTGAGGGCTGGTTCTTCTGTACCACTTTCAGAAAGTTTCTATGGGTTATTCTTCAGCCTCTCTTTTATGCTTTTCGACCTCTGTTCATCAATCCCAAACCAATTTCTTATCTTGAAATTATCAATACTGTGGTCCAAATCACTTTTGACATTCTAGTTTACCACATTTTAGGAATTAAGTCTTTAGTCTACATGTTGGCAGGATCTCTTCTTGGTCTGGGCTTACACCCGATTTCTGGACATTTTATAGCCGAACATTACATGTTCTTAAAGGGACATGAAACTTACTCATATTATGGGCCTCTGAATTTACTGACCTTCAATGTGGGTTATCACAATGAACATCACGACTTTCCCAATGTTCCTGGAAAGAGCCTTCCACTGGTGAGGAAAATAGCCGCAGAATACTACGACAACCTGCCCCACTACAATTCCTGGGGGAAAGTGCTGTATGATTTTGTGATGGATGACACCATAAGTCCCTACTCCAGAATGAAGAGGCCTGCAAAAGGGCAGGAGGTCCTGGAGTAA
LOC101701824 chromosome unknown open reading frame, human C1orf115
Length: 381 bp Location: 4112445..4120631 Strand: +>XM_004867462.1 ATGGCGCTGGGAGCCGCGCTGCGGGCACGGGCGGGCGGCGGCCTCACGCACCGCTGGGTGCGGTGCCGGGCGCGGGCGCGGGGCGACGAGGACGCCCAGGCCGTGCTGGACGCGGAGGCCGAGGCCCCGGGGCGCGCGGACCCCGAGGGCGCACAGGGCCCGCACCCGGCCTCGCGCCCGGAGCCCCAGCCACAGGAGGAGGCGGCGCCCGGGGAGGCGCGCGGGAAGCGGCGCCGACGGCGGCTGAAGAAGTGCGGCAAGAACGTGGGCAAGGTCGTCACCAAGGGCTGCCGATACCTCGTCCTTGGCCTGCAGAGCTTTGCCGCTGCCTACTCCTCCCCGTTCGCAGTGGGCACCAGCGTGGTGTCCCTTGTGCGCTAG
Srp9 signal recognition particle 9kDa
>XM_004867454.1 ATGCCGCAGTACCAGACCTGGGAGGAGTTCAGCCGCGCGGCCGAGAAGCTCTACCTGGCGGACCCGATGAGAGCACGGGTGGTTCTCAAATATAGGCACGCTGATGGGAATTTATGTATTAAAGTAACAGATGATTTAGTTTGTTTGGTGTACAGAACAGATCAAGCCCAAGATGTGAAGAAGATTGAGAAGTTCCACAGTCAGCTGATGCGACTTATGGTAGCCAAGGAGTCCCGCAGTGTTGCTATGGAAACAGACTGA
LOC101697838 small nuclear ribonucleoprotein-associated protein N-like
Length: 714 bp Location: 6385922..6385137 Strand: ->XM_004867455.1 ATGACTGTGGGCAAGAGCAGCAAGATGCTGCAGCACAATGACTACCGAATGCGATGCATCCTGCAAGATGGGCGGATCTTCATTGGCACCTTTAAAGCTTTTGACAAGCATATGAATTTGATCCTCTGTGATTGTGGTGAGTTCAGGAAGATCAAGCCAAAGAATCCAAAACAGCCAGAACGTGAAGAAAAGCGGGTTTTGGGTTTGGTCTTGCTGTGTGGGGAGAACTTGGTATCCATGCCTGTGGAAGGCCCACCACCTAAAGATACTGGCATTGCTCGGGTACCACTTGCTGGAGCTACAGGAGGTCCCGGGGTTGGGAGGGCAGCTGGCAGAGGTGTACCAGCTGGTGTACCAATTCCCCAGGCTCCTGCTGGATTGGCAGGCCCTGTCCGAGGAGTTGGGGGTCCATTCCAGCAGATAATGACTCCACAGGGAAGGGGTACTGTGGCAGCTGCTGCAACTACCAGCACTGCTGGAGCCCCAACCCAATACCCACCAGGAAGGGGGACTCCACCCCCTCCTGTAGGCAGAGCAACCCCACCTCCAGGCACTATGGCTCCTCCACCTGGTATCAGACCACCCATGGGCCCACCAATTGGGCTTCCTCCTGCTCCAGGGACACCAATAGGCATGCCTCCTCCAGGAATGAGACCCCCTCCACCAGGAATTAGAGGTCCATCTCCCCCAGGAATGCGTCCACCAAGACCCTAG
LOC101706120 transmembrane protein 63A-like
Length: 2451 bp Location: 6114234..6139633 Strand: +>XM_004867468.1 ATGATCGACTCCCCACTCCTGGAGCTGTGGTGGCCCGAGACCGTGTCCATCCGGGAGGGGCTGGGCCTCGGGGACAAGGCCAATGACTCCTACTGCTACAACTCTGCCCAAAACAGCACAGTGCTCCAGGGGGTCACCTTCGGAGGCATCCCCACTGTCCTGCTCATCGATGTCTGCTGCTTCCTGTTGTTAATCTTGGTGTTTTCCATCATAAGAAGAAGATTCTGGGATTATGGCCGCATTGCCCTGGTATCAGAAGCAGACAGATTACAGAGACTGTCATCACCTTCCTCCTCAGGGAAACAAGACTTGGAAAATGAACTGGGATGCTGCCCCTGGCTGATGGCCATCTTCCGTCTACACGATGACCAGATCCGGGAGAGGTGTGGAGAGGATGCCGTCCACTACCTGTCCTTCCAGAGGCACCTCATCTTCCTGCTGGTGGCAGTCAGTGCCTTGTCCCTGTGTATCATCCTGCCCGTGAACCTCTCGGGAGACCTGCTGGACAAAGACCCCTACAGTTTTGGAAGGACCACCATAGCAAACCTGGAGACCCACAATGACCTGCTCTGGCTGCATGCTGTCTTTGCCGTCATCTACCTCTCCCTCACTGTGGGCTTCATGCGGCACCACACGCAGTCCATCAAGTACACAGAGGAGACCCTGGTTAGACGGACCCTGTTTATCAGTGGGATCCCTAGAGATGCCAAGGAAGAGAACGTTGAGAGGCACTTCTGGGACGCGTATCCGACATGTGAGGTGGCTGACATCCAGCTGTGCTACAATGTGGCCAAGCTGATCTACCTGTGCGAGGAGAGAAAGAAGACCGAGAAGAGCCTGGCCTACTACACGAGCCTGCAGGAGAGGACTGGCCAGCCGACCTTCGTCCACTCCAGGCCCTGTGGCCAGTTCTGCTGCTGTGAAGGGTGGGGTTGTGAGCAGGAGGACACCATTGCCTACTACACCCGCCTGTACAACCAGCTGCTGACCAGGATCACGGAGGAGGAGCGCCAGGTGCAGGGCCAGCCCCTGGGAATGGCCTTCGTCACCCTTCGAGAGAAGTCTATGGCCACCTACATCCTGAAAGACTTCAGAGCCTGGAAGTGTCAGAGCCTTCAGTGCAAAGGGGAGCCCCAGCCATCCTCCTACAGCAGAGAGCTGTGCGTCTCCAGGTGGAGGGTTACCTTGGCTGCTTACCCGGAGGACATCTGCTGGAAGAACCTCTCTGTCCAGGGCCTCCGCTGGTGGCTGCAGTGGCTCAGCATCAACTTCACCCTCTTCGTGGTGCTCTTCTTCCTAACCACACCCTCCATCATCCTGTCTACCATGGACAAGTTCAATGTCACCAAGCCCATCCACGCGCTGAACGTGAATGAGTTCTCGCCGCCGGCCGGGGCCAGGTGGCTGAGCGCTGAGGAGCTGGCAGTCACCGCCGATTCACACGTGCCCACAGCTCTGGGCCAGGGTGACGGTGACATCCAGGTCCACAGACTCGGTGGCCAGCCCTCTTCCTTGTCTTCTGCCATCCGAGTTCCCCTGGGCAGTGGCCAGGCACAGCGTGTGTCTGTGTCCCTCAGAGCACGTGTAAAGGCAGCGCTTCAGGTGCCTGCCTCCTTCAGTGGGAAAGAGGCTCAGCTCCACTCCAGCCCTGTCCCCAGGTGTGTCTTCCTGCCGGACCAGGGCGCCTTCTTCGTGAACTATGTGATCGCCTCAGCCTTCATCGGCAGTGGCATGGAGCTGCTGCGGCTGCCGGGCCTCATCCTCTACACCTGCCGCATGGTCATGGCCAGGACAGCGGCTGAGCGCAGGAATGTCGAGCAGAACCAGGCCTACGAGTTCGAGTTTGGAGCCATGTACGCCTGGATGCTCTGCGTCTTCACCGTCATCATGGCCTACAGCATCACCTGCCCCATTATCGTGCCATTCGGCCTCATCTACATCCTGCTCAAGCACATGGTGGACCGGCACAACCTCTGCTTCGTCTATCTCCCGGCCAAGCTGGAGAAGAGGCTGCACTTCTCTGCCGTGAGCCAGGCCCTGGCTGCACCCATCCTCTGCCTCTTCTGGCTCTTCTTCTTCTCCTTCCTTCGCCTGGGTCTGCAGGCCCCTGCCACCCTGTTCACCCTCCTGGCCGTGCTGCTTACCATCCTGGTCTGCCTGGCCCATGCCTGCTTTGGCTGCTTCCGGCACCTCAGCCCTCTCCACTACCAGACAGAAGAATCTGCAAGCCAGGAAGGGAGTGAGGCAGAAGCCCAGGAGCCTCCACCACTCACACCCTATGTGCCCCGGATCCTGAGTGGTCTGGCCTCGGAGAGAACAGCCCTGTCCCTGCAGCACCAGCAGAACTATGGCACCATCCACCACGTCAGCGGGACCCTCCTAGAGCAGGACACGGCCCATATCCCAGAGGACAGTGCCGTTCCCGCCTCCTCCACTCCAGGCTTCCTGTGA
LOC101705765 uncharacterized LOC101705765
Length: 2034 bp Location: 6087247..6109304 Strand: +>XM_004867467.1 ATGGGGCAGCAGGGCGAGGGTGCTCGGAGCTTGGTGGCGGATGTAGCAGTCGGCCCCGGGGGCCGGGAGTCTTGGGACCAGTGTGCACTAACGAGAAGCCAAGAAGCCATGGAGCCAACAAAAACTGCTCTCGGCTATACCACGTGGCGCCGGTCAGGCTGCGATGGTGTCAGAGTCACTGCGGGAGCCTCTGCAGCTGGGACGGGCACTGTGCCTCGAGCTGCAGTGTGCAGCGTGGCTGATGTGATGGACTCGGGCTGTGGCTCCTTGAAGGCTGTGGGCAGCTTATCCGACAGCGACCAGCTTCTGGGCCTGGAGCCGACTGAGAGTGGCAGGGAGGAGAGGCGCGTCCAGGCGGAAGGGGTCCCTTCAGCCCCTGGGGTGGAGGCCCGGAGTCCTGCCGGGCAGCACAGTGACTCCTCGTCCCCGATGCTGTCTTCTCGCACCCGGGACCATTGTGGCAGCGCACATCGCCAGTTCATAGCTGGGTCCACACCAGCCCTGTCCGCCCCCTCCCGAGTGATGGCCGTGGTGCTGGTCTTCTGCCTACGCGCGGGCTGGGACAGCAGCGTGTGTCCTGTGGGAGGGAGAAGGCGGCTGTGCGTGGACCACTGGAGCATCGTGGAGCCAGCAGTGTTCAGCGAGTGTGACCTTCGCTGTGGGGGAGACAGGGCGGTCCAGCAGCATGGAGGACAGGCACTGGCCAGCCGAGGGCTGGGGGGCCGAGCCCTCCTGGAGCGGGCTGCGCCCGTGCTGGGGCATGGGGTGTCGGCTCTGGCTTCCAGGGCTGCCACTGCTGGGAAGCAGGACAGGGCAGCCGTGGGGATCTGTGTGCGCCTGACCCTGCAAACCGCAGGCTCGCTTATCACTCATCTGTCCAAGGAATCATTCAAGATTTGGGGCCTGGGCATGCACAGCCCTGGTCTGGAGGAAGAGCAGAACCTACCCCTGGAGCCCTGGGCCAACAGGCCATGGCCTCAGCCCTGCGCTCCACAGACCCTCCCACTCTCTCCGCCGGGCCTTGCCTTCCAGAACCCAGTCATCAGCCAGTTCTTCCCAACCCTCCTCCTCTGGTCCTTCTCAGCCCTGCTCCCCACCATAGTCTACTACTCGACGCTGCTGGAGTCGCACTGGACCAAGTCGGGGGAAAACTGGAACACGATGACCAAGGTCTACATATTCTTGATCTTCATGGTGCTGATCCTGCCCTCCCTTGGCCTTACCAGCCTGGATTTTTTCTTCCGGTGGCTCTTTGACAACACTTCCTCGGAGGGCTCGATAAGGTTGGAGTGTGTCTTCCTGCCGGACCAGGGCGCCTTCTTCGTGAACTATGTGATCGCCTCAGCCTTCATCGGCAGTGGCATGGAGCTGCTGCGGCTGCCGGGCCTCATCCTCTACACCTGCCGCATGGTCATGGCCAGGACAGCGGCTGAGCGCAGGAATGTCGAGCAGAACCAGGCCTACGAGTTCGAGTTTGGAGCCATGTACGCCTGGATGCTCTGCGTCTTCACCGTCATCATGGCCTACAGCATCACCTGCCCCATTATCGTGCCATTCGCCGAGCCACACCCTCCCAGGGAAGGCGCCCTGGTGCCTCAGCCGGCAGCCACCCACTCGGGCCCCACCTTCGCAGGCCTCATCTACATCCTGCTCAAGCACATGGTGGACCGGCACAACCTCTGCTTCGTCTATCTCCCGGCCAAGCTGGAGAAGAGGCTGCACTTCTCTGCCGTGAGCCAGGCCCTGGCTGCACCCATCCTCTGCCTCTTCTGGCTCTTCTTCTTCTCCTTCCTTCGCCTGGGTCTGCAGGCCCCTGCCACCCTGTTCACCCTCCTGGCCGTGCTGCTTACCATCCTGGTCTGCCTGGCCCATGCCTGCTTTGGCTGCTTCCGGCACCTCAGCCCTCTCCACTACCAGACAGAAGAATCTGCAAGCCAGGAAGGGAGTGAGGCAGAAGCCCAGGAGCCTCCACCACTCACAGTAAGCCGTCTGCTGCTTGCCCCCTGCTTGCTGCCCTTGCTGCTCTGGTGGTAA
Nvl nuclear VCP-like, transcript variant X2
Length: 2283 bp Location: 5971381..5905257 Strand: ->XM_004867441.1 ATGCGGCCGCGGCTGGCGAGGCCTGAGGACCGCAGGCTACAGCAGCGGGTGGTGCAGTACCTCACCAGTAATGCATGTGGCAAATATGTGGACACTGGAGTCTTAGCATCTGATTTGCAAAGAATGTACAGTATGGACTATGGTCGAAGAAAAAGGAATGCTTTTAGGATTCAGGTAGAAAAAGTATTTAACATAATTAGTAGTGAGAAGGAGTTTAAGAATCTAACAGAATTAGAAGATGAACATCTGACAAAAAGACCGAGAAAAGGCGGAGAGGATGATGAGTATACTGAAAGCTCTTCTGATGATGATTCAAATGCAGAAGATTACACAGATCCACAGGATACGAAAGATTTTTCTCTTCTGGAGAGTGATAAAAAAAGGAAAGCCAAGATAAAGGGCAAAGGAAACAAACAGAAAAAAGAAGATCTTCAGGAAGTAGATGGAGAAATAGAAGCTGTCCTCCAAAAGAAAGCTAAAACCAGAGGGCTAGAATTGCAGATCTCCAGTGCGAAGTTTGAAGATGTTGGAGGCAATGATGTGACATTAAAAGAAGTCTGCCAGATGCTCATACACATGCGTCATCCAGAGGTGTACCACCACCTGGGCATTGTGCCCCCTCGAGGCGTTCTCCTTCACGGGCCCCCTGGCTGCGGGAAGACGTTGCTTGCACACGCAATTGCTGGGGAACTTGACCTGCCGCTTCTGAAAGTGGCTGCTCCAGAGATTGTGTCAGGAGTTTCTGGGGAATCTGAACAGAAGCTCAGAGACTTATTTGAACAAGCTGTGTCAAGTGCACCATGCATTGTTTTCATTGATGAAATTGATGCTATTACTCCCAAAAGAGAAGTTGCTTCAAAAGACATGGAACGAAGAATTGTAGCTCAGCTTCTATCCTGTATGGATGATCTGAATAATGTGGCTGCTACTGCTCAAGTCCTAGTCATTGGAGCTACAAACCGACCAGACTCATTAGACCCTGCTTTGAGACGTGCGGGAAGGTTTGACCGAGAAATATGCCTAGGTATCCCAGATGAAGCTTCCAGGGAAAGAATACTTCAAACTTTATGCCGAAAACTGAGACTTCCTGAAACATTCAATTTTTGCCACTTAGCACATCTGACACCAGGCTTTGTTGGTGCCGATCTGATGGCACTTTGCCGAGAGGCAGCCGTATGTGCAGTGAACAGGGCCTTGATGAAGCTGCAGAAGCAACAAAGAGGAGGCCCTGAGGGCAGAGGCGGCCAGGGGGAAAGGCTGGAAACAGAGCCCACTTCGGAAACACAGGATGAATTGCAAAGGCTGCTGAGGTTGCTAAGAGACCAAGACCCCCTCTCAGAGGAGCAGATGCAAGGACTGTGCATTGAATTGAATGACTTCACTGTTGCTCTTGCCTCAGTCCAACCCTCTGCCAAAAGGGAAGGTTTTGTCACTGTTCCCAATGTGACTTGGGCAGACATTGGTGCTCTGGAAGATGTTAGAGAAGAGCTCACCATGGCCATACTGGCACCGGTACGCAACCCAGACCAGTTCAAGGCTCTTGGCCTGGTGACTCCAGCTGGAGTCCTCCTTGCTGGTCCTCCTGGCTGTGGGAAAACTCTGCTGGCAAAGGCTGTGGCAAATGAGTCTGGACTAAATTTTATATCTGTCAAGGGCCCAGAATTACTGAATATGTATGTTGGTGAGAGTGAACGTGCTGTGCGGCAGGTTTTTCAGCGAGCCAAGAACTCAGCACCCTGTGTGATATTCTTTGATGAAGTGGATGCGTTATGTCCTCGAAGGTCAGACAAAGAGACTGGCGCAAGTGTCCGGGTGGTGAATCAGCTACTTACAGAGATGGATGGTCTGGAAACACGACAGCAGGTTTTTATTATGGCAGCCACTAACAGGCCAGATATCATTGACCCTGCAATTCTGCGCCCAGGCCGGCTGGACAAAACACTCTTTGTGGGTTTGCCACCCCCAGCAGACCGTCTTGCCATTTTAAAAACTATCACAAAAAATGGCACCAAACCTCCACTGGATGCAGATGTAAATTTAGAAGCAGTTGCTGGTGACCTTCGCTGTGATTGCTATTCGGGTGCAGACCTCTCTGCTTTGGTGCGAGAAGCTTCTCTGTGTGCCCTGAGACAGGAAATGGCGAGAGAAAAGTCTGGAAATGTAAAAGGTGAGCTCAAGATTAGTCATATGCACTTTGAAGAAGCTTTTAAGAAAGTGAAACCATCTATATCAGTAAAGGATCAAAAAATGTATGAAGCTCTTCAGCGATCCCTCAGCCAGTGA
Ephx1 epoxide hydrolase 1, microsomal (xenobiotic), transcript variant X2
Length: 1581 bp Location: 6169703..6161930 Strand: ->XM_004867446.1 ATGTGGCTGGAAATTCTCCTCGCCTCCGGGCTGGGCTTCCTCATCTACTGGTTTGTGTCCCGGGACAAGGAGGAGACTTTGCCGCTTGAAGATGGTTGGTGGGGCCCAGGGGCAAAGCCCACAGTCAGGGAGGACGAGAGCATCCTGCCTTTCAAGGTGGAGACCTCAGAGGAGGAGATCAGGGACTTACACCAGAGGATTGATAGGTTCCGCCCAACCCCGTCATTGGAGGGCAGCCGATTCCACTATGGCTTCAACTCCAAGTACCTGAAAAAGATCCTGTCCTACTGGCGGAATGAATTTGACTGGAGGAAGCAGGTAGAGATCCTCAACAAGTACCCTCACTTCAAGACAAAGATTGAAGGGCTGGACATCCACTTTGTCCATGTGAAGCCCACACAGCTGCCCTCAGGCTGTAGCCCAAAGCCCTTGCTGATGGTGCATGGCTGGCCCGGCTCCTTCTACGAGTTTTATAAGATCATCCCGCTCCTGACGGACCCAAAGAGCCACGGCCTAAGTGATGAACATGTGTTTGAAGTCATCTGCCCCTCCATCCCTGGCTACAGCTTCTCAGAGGCATCCAGCAAGAAAGGCCTGAATTCAGTGGCCACTGCCAGGATCTTTTACAAGCTGATGCTTCGGCTGGGCTTCCAGGAATTCTACATTCAGGGAGGAGACTGGGGGTCCCTGATCTGCACCAACATGGCCCAGCTGGTGCCCAGGTGCGGCCTGTCAGGGATGTATGGCCAAGAGGGTGTGGTGCTGGGCACAGCTTCCTGCACTGCCCCTGCCTGCCAGCAGCTCGCCTGGGCCCTCATTCCAGGGCCCCCGGGCGGGGAGGCCAGGGAGACCATCCCCCCGGGCTCTGGCCTCGCTGTGTCTGACCCCTCCCTTGACGCGAGCCCAGCCTCACTGGAACTGCTCTCTTCCCTCAGCCACGTGAAGGGCCTGCACTTGAACATGGCATTTGTTTTAAGAAGTACTCACACTCTGGCCCCTCTCCTGGGCCGGCGTATCGGGGGGCTTCTTGGCTACACCGAGAGAGATATGGAGCTGCTGTCCCCCTTCAAGGAAAAGGTTTTCTACAGCATCATGAGGGAGAGCGGCTACATGCACATCCAGGCCACCAAGCCAGACACTGTGGGGTGTGCTCTGAATGACTCTCCTGTGGGACTGGCTGCCTACATCCTGGAGAAGTTTTCCACCTGGACCAATGCAGATTTCCGAGACCTGGAGGACGGAGGCCTGGAGAGGAAGTTCTCCCTGGACGACCTGCTGACCAACATCATGCTCTACTGGACAACAGGGTCCATCGTCTCCTCCCAGCGCTACTATAAGGAGAACCTGGGCCAGGGCCTAATGACCCAGAAGCATGAGTGGATGAAGGTCTCTGTGCCCACTGGCTTTGCCGCCTTCCCCTGCGAGTTACTGCACCTCCCTGAGAGGTCGGTGAGAGCCAAGTACCCCAAGCTCCTCTCCTACTCCTACATGGCCCGTGGGGGCCACTTCGCTGCCCTGGAGGAGCCCGACCTGCTGGCCCAGGACATCCGCAAGTTTGTGACACTGGTGGAGCAGCAGTGA
Ephx1 epoxide hydrolase 1, microsomal (xenobiotic), transcript variant X1
Length: 1596 bp Location: 6168121..6161930 Strand: ->XM_004867445.1 ATGATCCCAAGAACTCAGGAGTTTAAGACAGGAGGGTCACAAGTTCAGGGCAAAGCACGGCTGCCTCGGTGTGCTGGTGATGTGGGAGCTTTGCTTTGCCACTGTCATGGCGTGGCGTTTGCAGTCTTCGCGCTGCCATGGAACCCACTTTCTCCCATGCCATGCCTGGCCTCTCTCCTTGGTCTGGTCCCACTGCAGGACTTACACCAGAGGATTGATAGGTTCCGCCCAACCCCGTCATTGGAGGGCAGCCGATTCCACTATGGCTTCAACTCCAAGTACCTGAAAAAGATCCTGTCCTACTGGCGGAATGAATTTGACTGGAGGAAGCAGGTAGAGATCCTCAACAAGTACCCTCACTTCAAGACAAAGATTGAAGGGCTGGACATCCACTTTGTCCATGTGAAGCCCACACAGCTGCCCTCAGGCTGTAGCCCAAAGCCCTTGCTGATGGTGCATGGCTGGCCCGGCTCCTTCTACGAGTTTTATAAGATCATCCCGCTCCTGACGGACCCAAAGAGCCACGGCCTAAGTGATGAACATGTGTTTGAAGTCATCTGCCCCTCCATCCCTGGCTACAGCTTCTCAGAGGCATCCAGCAAGAAAGGCCTGAATTCAGTGGCCACTGCCAGGATCTTTTACAAGCTGATGCTTCGGCTGGGCTTCCAGGAATTCTACATTCAGGGAGGAGACTGGGGGTCCCTGATCTGCACCAACATGGCCCAGCTGGTGCCCAGGTGCGGCCTGTCAGGGATGTATGGCCAAGAGGGTGTGGTGCTGGGCACAGCTTCCTGCACTGCCCCTGCCTGCCAGCAGCTCGCCTGGGCCCTCATTCCAGGGCCCCCGGGCGGGGAGGCCAGGGAGACCATCCCCCCGGGCTCTGGCCTCGCTGTGTCTGACCCCTCCCTTGACGCGAGCCCAGCCTCACTGGAACTGCTCTCTTCCCTCAGCCACGTGAAGGGCCTGCACTTGAACATGGCATTTGTTTTAAGAAGTACTCACACTCTGGCCCCTCTCCTGGGCCGGCGTATCGGGGGGCTTCTTGGCTACACCGAGAGAGATATGGAGCTGCTGTCCCCCTTCAAGGAAAAGGTTTTCTACAGCATCATGAGGGAGAGCGGCTACATGCACATCCAGGCCACCAAGCCAGACACTGTGGGGTGTGCTCTGAATGACTCTCCTGTGGGACTGGCTGCCTACATCCTGGAGAAGTTTTCCACCTGGACCAATGCAGATTTCCGAGACCTGGAGGACGGAGGCCTGGAGAGGAAGTTCTCCCTGGACGACCTGCTGACCAACATCATGCTCTACTGGACAACAGGGTCCATCGTCTCCTCCCAGCGCTACTATAAGGAGAACCTGGGCCAGGGCCTAATGACCCAGAAGCATGAGTGGATGAAGGTCTCTGTGCCCACTGGCTTTGCCGCCTTCCCCTGCGAGTTACTGCACCTCCCTGAGAGGTCGGTGAGAGCCAAGTACCCCAAGCTCCTCTCCTACTCCTACATGGCCCGTGGGGGCCACTTCGCTGCCCTGGAGGAGCCCGACCTGCTGGCCCAGGACATCCGCAAGTTTGTGACACTGGTGGAGCAGCAGTGA
Fbxo28 F-box protein 28
>XM_004867438.1 ATGGCGGCGGCGTCGGAAGAGCGGATGACTGAGGAGGGAGGCGGCAGCCACGGTGACGGCGGCTCTTGTTCTGCCGCTGGCTCTGCCCAGCGACAGCCTCCCCCGCCCCCTGCCCAGCCCCCGCAGCCGGGGTCCCAGGCGCCCCCGGCGCCGGCGCTGGTTCCGGACCAGCTGCCTCAGAACAACACGCTGGTGGCGCTGCCCATCGTAGCCATCGAGAACATCCTCAGTTTTATGTCCTACGACGAAATTAGCCAGCTGCGTCTGGTTTGTAAAAGAATGGACTTGGTTTGCCAGAGAATGTTGAATCAGGGGTTTCTGAAAGTGGAGAGGTACCATAACCTGTGTCAGAAGCAAGTGAAAGCACAGCTCCCAAGGAGAGAATCAGAAAGGAGAAACCATTCTTTAGCTCGTCATGCAGACATCCTTGCAGCTGTGGAAACAAGGCTGTCACTGTTAAACATGACTTTTATGAAGTATGTGGATTCCAATCTCTGTTGCTTCATCCCAGGAAAGGTGATTGATGAGATTTACCGTGTGTTGAGATATGTCAATTCTACCAGAGCCCCACAGCGTGCTCATGAAGTCCTCCAGGAGTTAAGGGATATCTCCTCCATGGCCATGGAGTACTTTGATGAAAAGATCGTTCCAATTCTGAAGAGGAAACTGCCAGGATCGGACGTGTCTGGAAGGCTCATGGGCTCTCCTCCAGTGCCAGGCCCGTCCGCAGCCCTAACGACAATGCAGCTCTTCTCGAAGCAGAACCCTTCGAGACAAGAGGTCACCAAACTCCAGCAGCAGGTTAAGACCAATGGTGCTGGCGTGACTGTTCTCAGGCGGGAAATTTCTGAGCTTCGCACCAAAGTGCAGGAACAGCAGAAACAGCTTCAAGACCAAGACCAGAAACTGCTAGAGCAGACCCAGATCATAGGGGAACAGAATGCGCGGTTGGCAGAGCTGGAGCGCAAACTGCGGGAAGTCATGGAGAGTGCTGTGGGAAGCTCCTCCGGGGCCGGGCAGAGTGAGGAGTCTCCTCGGAAACGGAGGAAGGCCACAGAAGCCATGGACTCGCTTAGAAAATCAAAGCGGCTTCGGAATCGAAAGTAG
Nvl nuclear VCP-like, transcript variant X1
Length: 2553 bp Location: 5971381..5905257 Strand: ->XM_004867440.1 ATGCGGCCGCGGCTGGCGAGGCCTGAGGACCGCAGGCTACAGCAGCGGGTGGTGCAGTACCTCACCAGTAATGCATGTGGCAAATATGTGGACACTGGAGTCTTAGCATCTGATTTGCAAAGAATGTACAGTATGGACTATGGTCGAAGAAAAAGGAATGCTTTTAGGATTCAGGTAGAAAAAGTATTTAACATAATTAGTAGTGAGAAGGAGTTTAAGAATCTAACAGAATTAGAAGATGAACATCTGACAAAAAGACCGAGAAAAGGCGGAGAGGATGATGAGTATACTGAAAGCTCTTCTGATGATGATTCAAATGCAGAAGATTACACAGATCCACAGACAGCAAACCACATGAACACTTCACTACTCTCTTTATATCGGAAAGGAAATCCTGATTCTGTTTCAAATACTCCTGAGATGCAGCAAAGAGAAACAACTGCTTCAGCACCACGACTAAGTTCTAAAACAGACTCCATTCCTTTCAAGACTCCTGCCAGAGAGTCTGAGGGAGGATGGTTTATTGACAAAATCCCACATGGAAAGAAAAACAGTTTTTTCTTGGAGCCATTGGACAAGAAAAGTGATTCCAAGTCTGTATCTAAGGTACAGGATACGAAAGATTTTTCTCTTCTGGAGAGTGATAAAAAAAGGAAAGCCAAGATAAAGGGCAAAGGAAACAAACAGAAAAAAGAAGATCTTCAGGAAGTAGATGGAGAAATAGAAGCTGTCCTCCAAAAGAAAGCTAAAACCAGAGGGCTAGAATTGCAGATCTCCAGTGCGAAGTTTGAAGATGTTGGAGGCAATGATGTGACATTAAAAGAAGTCTGCCAGATGCTCATACACATGCGTCATCCAGAGGTGTACCACCACCTGGGCATTGTGCCCCCTCGAGGCGTTCTCCTTCACGGGCCCCCTGGCTGCGGGAAGACGTTGCTTGCACACGCAATTGCTGGGGAACTTGACCTGCCGCTTCTGAAAGTGGCTGCTCCAGAGATTGTGTCAGGAGTTTCTGGGGAATCTGAACAGAAGCTCAGAGACTTATTTGAACAAGCTGTGTCAAGTGCACCATGCATTGTTTTCATTGATGAAATTGATGCTATTACTCCCAAAAGAGAAGTTGCTTCAAAAGACATGGAACGAAGAATTGTAGCTCAGCTTCTATCCTGTATGGATGATCTGAATAATGTGGCTGCTACTGCTCAAGTCCTAGTCATTGGAGCTACAAACCGACCAGACTCATTAGACCCTGCTTTGAGACGTGCGGGAAGGTTTGACCGAGAAATATGCCTAGGTATCCCAGATGAAGCTTCCAGGGAAAGAATACTTCAAACTTTATGCCGAAAACTGAGACTTCCTGAAACATTCAATTTTTGCCACTTAGCACATCTGACACCAGGCTTTGTTGGTGCCGATCTGATGGCACTTTGCCGAGAGGCAGCCGTATGTGCAGTGAACAGGGCCTTGATGAAGCTGCAGAAGCAACAAAGAGGAGGCCCTGAGGGCAGAGGCGGCCAGGGGGAAAGGCTGGAAACAGAGCCCACTTCGGAAACACAGGATGAATTGCAAAGGCTGCTGAGGTTGCTAAGAGACCAAGACCCCCTCTCAGAGGAGCAGATGCAAGGACTGTGCATTGAATTGAATGACTTCACTGTTGCTCTTGCCTCAGTCCAACCCTCTGCCAAAAGGGAAGGTTTTGTCACTGTTCCCAATGTGACTTGGGCAGACATTGGTGCTCTGGAAGATGTTAGAGAAGAGCTCACCATGGCCATACTGGCACCGGTACGCAACCCAGACCAGTTCAAGGCTCTTGGCCTGGTGACTCCAGCTGGAGTCCTCCTTGCTGGTCCTCCTGGCTGTGGGAAAACTCTGCTGGCAAAGGCTGTGGCAAATGAGTCTGGACTAAATTTTATATCTGTCAAGGGCCCAGAATTACTGAATATGTATGTTGGTGAGAGTGAACGTGCTGTGCGGCAGGTTTTTCAGCGAGCCAAGAACTCAGCACCCTGTGTGATATTCTTTGATGAAGTGGATGCGTTATGTCCTCGAAGGTCAGACAAAGAGACTGGCGCAAGTGTCCGGGTGGTGAATCAGCTACTTACAGAGATGGATGGTCTGGAAACACGACAGCAGGTTTTTATTATGGCAGCCACTAACAGGCCAGATATCATTGACCCTGCAATTCTGCGCCCAGGCCGGCTGGACAAAACACTCTTTGTGGGTTTGCCACCCCCAGCAGACCGTCTTGCCATTTTAAAAACTATCACAAAAAATGGCACCAAACCTCCACTGGATGCAGATGTAAATTTAGAAGCAGTTGCTGGTGACCTTCGCTGTGATTGCTATTCGGGTGCAGACCTCTCTGCTTTGGTGCGAGAAGCTTCTCTGTGTGCCCTGAGACAGGAAATGGCGAGAGAAAAGTCTGGAAATGTAAAAGGTGAGCTCAAGATTAGTCATATGCACTTTGAAGAAGCTTTTAAGAAAGTGAAACCATCTATATCAGTAAAGGATCAAAAAATGTATGAAGCTCTTCAGCGATCCCTCAGCCAGTGA
Tp53bp2 tumor protein p53 binding protein, 2, transcript variant X4
Length: 3333 bp Location: 5790525..5746499 Strand: ->XM_004867434.1 ATGCGGTCCGTGCCCAGCATGATGCCGATGTTCCTGACTGTGTACCTCAGCAACGACGAGCAGCACTTCACGGAGGTGCCCGTCACCCCGGAGACCACGTGCCGTGACCTGGTGGACCTGTGCAAGGAGCCCGGCGAGAGCGAGTGCTACCTGGCCGAGGTGTGGCACGGCTCCGAGCGCCCAGTTGCTGATAATGAACGAATGTTCGATGTTCTTCAGCGACTGGGAAGCCAGCGCAGTGAAGTTCGTTTCTTCCTCCGCCACGAGCGCCCGCCCGGCAGAGATGTAGTGAGTGGCCTGAGGTCTCAGGATCCAAGTCTGAGAAGAAATGGTGTGAAAGTCCCTGGAGAACACCGGAGAAAGGAGAATGGAGTGAGCAGTCCCCGCATGGACCCGACACTGGCTGAGCTCCAGGAAATGGCGTCTCGCCAGCAGCAGCAGATCGAGGCCCAGCAGCAGATGCTGGCCGCCAAGGAACAGCGCTTAAAATTTTTGAAGCAACAAGATCAGCGTCAGCAGCAACAGGCCGCCGAGCAGGAGAGGCTCAAGAGGCTGAGAGAACTGGCTGAGAGCCAGGAAGCCAAGCTGAAGAAAGTGCGGGCACTCAAGGGCCATGTGGAGCAGAAGCGGCTGAGCAACGGGAAGCTTGTGGAGGAAATTGAGCAGATGAATAGTTTGTTCCAGCAGAAGCAGAGGGAGCTAGTCCTGGCCGTGTCGAAAGTAGAGGAACTCACGAGGCAGCTGGAGATGCTGAAGAACGGCAGGATCGATGGCCAGCATGACAGCCAGTCCGCGGTGGCCGAGCTGGACTGGCTGTACAAGGAGCTGCAGCTGAGGAACAAGCTGAACCAGGAGCAGAACACCAGGCTGCAGCAGCAGAGGGAGTGTCTGAACAAGCGCAACTCTGAGGTGGCCGTCATGGACCGGCGTGTCAGTGAGCTCCGTGACCGGCTGTGGAAGAAGAAGGCGGCACTGCAGCAGAAGGAGAACCTGCCGGTTCTGTCCGATGGGAATCTCACCCAGCTGCCCGTGTCCGCTCCGAGCCGAGTGGCTGCCGTGGGTCCGTACATCCAGTCCTCCACCATGCCGCGGCTGCCCCCGAGGCCGGAGCTGCTGGTGAAGCCAGCGCTGCCTGAGGGTCCCCTGGCCCTGCAGGCCTCCGAGGTGAAGATTCAGACGCTGCCCAACACGAGGACCACTGCGGCCCCTCTGCAGGCCAAAGTTGCCGATGGGGAGGTTCCGCTGAGGGAAAAGGAGAAGAAAGTCCGGCCCTTCTCCATGCTTGATGCGGTGGACCAGGGGGCGGCCCCGCCCGGCTTCGGCATGCTGCGGAAGAACCAGAGCAGCGAGGACATCCTGCGCGATGCTCAGGCTGCAAATAAGAACGTGGCTAAAGTGCCGCCTCCTGTTCCTACAAAACCAAAACAGATGAACTTGCCTTATTTTGGACAAGCCAGCCCATCACCATCTGACACCAAGCCGGAGGGAGGCCCACAGCAGTTGCCTGAAGCCTCGACAGCCGTGGGCCCTAAGCCCAAGGCAGCAGGGCCACAGCCGAGGGCGGCGTTGTCCCCCAGCGTGCCTTCAGGTGGCCACGACCATGGCCTGTCTGCAGGGCCTAAGCAGGAGAGCCCACCCGCTGCTGCGGTCCGGCCCTTCACGCCCCAGCCTCCCAAAGATGCCGCCCTCCCCGCCTTCAGGAAGCCCCAGACAGTGGCTGCCAGCTCCATCTACTCCATGTACACGCAGCACCAGGCGCCGGGGAAGAGCTTCCAGCAGGCCGTGCAGAGCGTGCTGACCAAGGCACAGCCCCGCGGCCCGCACTTCGCAAGCGTGTATGGCAAGCCTGTGCTTGTGGCGGCCCAGAACCTGCAGCAGCAGCCGCCCGAGAGCGCGCACTGCAGCAGCCAGGGCCCGCCGGGCAGCCCGGAGCCCGACTCAGAGCCCGCGTCCTCGGCCCCCGAGAGCCAGGAGAACGAGCGCACCCCGCGCCCGCTCAGCCCCACCAAGCTGCTGCCTTTCCTGTCCAACCCCTACCGGAACCAGAGCGACGCCGACCTGGAGGCCCTGCGCAAGAAGCTCTCCAACGCCCCCCGGCCGCTGAAGAAGCGCAGCTCCATCACGGAGCCAGAGGGGCCCAGTGGGCCCAACATCCAGAAGCTGCTGTACCAGAGGACCACGCTGGCCGCCATGGAGACCATCTCAGTGCCCGCCCACCCCGGCAAGGCATCTGCACCTGCTGGCCCGGAGAGCCCAGGAGAGGTCCCCAACCCCTACTTACCCGTGGAGCCCGAGGAGGAGGCCGCCCGCGCCCCCGTGCCACTGTCCCCAGAGGATGCGGGGCCCCCTGGCGACGGGCCCGCTCCTTCCCCAGACCCGGACTCTGTGCCCGAATGGGCAGCGGACGGCAGCCCAGGCGCCCAGGGTGCCCAGGAGGAGCCCCATGCAGAGCGCCCCCCCCCGCCGGAGGTGTACCTGGAGGAGTACCCCCCGTACCCCCCGCCGCCCTACCCGTCCGGGGACCCCGAGGGGCCTGGAGAGGACCCCGCCAGCATGCGCCCCCCTGAGGTCACCGGGCAGGGCGCCCTGCCCCCTGGCAAAAGGACAAACTTGCGTAAGACAGGCTCGGAGCGGATTGCCCATGGAATGAGGGTCAAGTTCAACCCTCTGGCCTTGCTTCTGGATTCCTCGTTGGAGGGAGAATTCGACCTCGTGCAGAGAATCATTTATGAGGTGGAGGACCCCAGCCTGCCAAATGACGAGGGCATCACTGCACTGCACAACGCCGTGTGCGCGGGACACACAGAGATCGTGAAGTTCCTGGTGCAGTTTGGGGTGAATGTGAACGCTGCCGACAGCGACGGGTGGACCCCGCTGCACTGTGCAGCCTCGTGCAACAACGTGCAGGTCTGCAAGTTCCTGGTGGAGTGCGGGGCGGCCGTGTTCGCCATGACCTACAGCGACATGCAGACGGCGGCCGACAAGTGCGAGGAGATGGAGGAGGGCTACGCACAGTGCTCGCAGTTCCTCTACGGGGTTCAGGAGAAGATGGGGATCATGAACAAGGGAGTCATCTACGCGCTCTGGGACTACGAGCCTCAGAACACGGACGAGCTGCCCATGAAGGAAGGGGACTGCATGACCATCGTCCGCCGCGAGGACGAGGATGAGATCGAGTGGTGGTGGGCACGGCTGAGCGACCAGGAGGGTTACGTCCCACGCAACCTGCTGGGCGTGAGTGACCTGCCGTGCGCACTTGCGTGTGTGTGTGTGGGGGGGGCTTGGCGAGGTCCGTGTGTCGTGCACCCAGTGCAGCCCTCTTCCCTGTTATGA
Tp53bp2 tumor protein p53 binding protein, 2, transcript variant X2
Length: 3399 bp Location: 5783371..5746499 Strand: ->XM_004867432.1 ATGTTCCTGACTGTGTACCTCAGCAACGACGAGCAGCACTTCACGGAGGTGCCCGTCACCCCGGAGACCACGTGCCGTGACCTGGTGGACCTGTGCAAGGAGCCCGGCGAGAGCGAGTGCTACCTGGCCGAGGTGTGGCACGGCTCCGAGCGCCCAGTTGCTGATAATGAACGAATGTTCGATGTTCTTCAGCGACTGGGAAGCCAGCGCAGTGAAGTTCGTTTCTTCCTCCGCCACGAGCGCCCGCCCGGCAGAGATGTAGTGAGTGGCCTGAGGTCTCAGGATCCAAGTCTGAGAAGAAATGGTGTGAAAGTCCCTGGAGAACACCGGAGAAAGGAGAATGGAGTGAGCAGTCCCCGCATGGACCCGACACTGGCTGAGCTCCAGGAAATGGCGTCTCGCCAGCAGCAGCAGATCGAGGCCCAGCAGCAGATGCTGGCCGCCAAGGAACAGCGCTTAAAATTTTTGAAGCAACAAGATCAGCGTCAGCAGCAACAGGCCGCCGAGCAGGAGAGGCTCAAGAGGCTGAGAGAACTGGCTGAGAGCCAGGAAGCCAAGCTGAAGAAAGTGCGGGCACTCAAGGGCCATGTGGAGCAGAAGCGGCTGAGCAACGGGAAGCTTGTGGAGGAAATTGAGCAGATGAATAGTTTGTTCCAGCAGAAGCAGAGGGAGCTAGTCCTGGCCGTGTCGAAAGTAGAGGAACTCACGAGGCAGCTGGAGATGCTGAAGAACGGCAGGATCGATGGCCAGCATGACAGCCAGTCCGCGGTGGCCGAGCTGGACTGGCTGTACAAGGAGCTGCAGCTGAGGAACAAGCTGAACCAGGAGCAGAACACCAGGCTGCAGCAGCAGAGGGAGTGTCTGAACAAGCGCAACTCTGAGGTGGCCGTCATGGACCGGCGTGTCAGTGAGCTCCGTGACCGGCTGTGGAAGAAGAAGGCGGCACTGCAGCAGAAGGAGAACCTGCCGGTTCTGTCCGATGGGAATCTCACCCAGCTGCCCGTGTCCGCTCCGAGCCGAGTGGCTGCCGTGGGTCCGTACATCCAGTCCTCCACCATGCCGCGGCTGCCCCCGAGGCCGGAGCTGCTGGTGAAGCCAGCGCTGCCTGAGGGTCCCCTGGCCCTGCAGGCCTCCGAGGTGAAGATTCAGACGCTGCCCAACACGAGGACCACTGCGGCCCCTCTGCAGGCCAAAGGGCCGAGAGTCCCTCCCGCTGGGCCTGACTGGGCCCCTTCGAGTGCGGACCTTTGCTCCCTGCCTCAGAGTGCTAGGCCTGCGCCAGACCAAGTTGCCGATGGGGAGGTTCCGCTGAGGGAAAAGGAGAAGAAAGTCCGGCCCTTCTCCATGCTTGATGCGGTGGACCAGGGGGCGGCCCCGCCCGGCTTCGGCATGCTGCGGAAGAACCAGAGCAGCGAGGACATCCTGCGCGATGCTCAGGCTGCAAATAAGAACGTGGCTAAAGTGCCGCCTCCTGTTCCTACAAAACCAAAACAGATGAACTTGCCTTATTTTGGACAAGCCAGCCCATCACCATCTGACACCAAGCCGGAGGGAGGCCCACAGCAGTTGCCTGAAGCCTCGACAGCCGTGGGCCCTAAGCCCAAGGCAGCAGGGCCACAGCCGAGGGCGGCGTTGTCCCCCAGCGTGCCTTCAGGTGGCCACGACCATGGCCTGTCTGCAGGGCCTAAGCAGGAGAGCCCACCCGCTGCTGCGGTCCGGCCCTTCACGCCCCAGCCTCCCAAAGATGCCGCCCTCCCCGCCTTCAGGAAGCCCCAGACAGTGGCTGCCAGCTCCATCTACTCCATGTACACGCAGCACCAGGCGCCGGGGAAGAGCTTCCAGCAGGCCGTGCAGAGCGTGCTGACCAAGGCACAGCCCCGCGGCCCGCACTTCGCAAGCGTGTATGGCAAGCCTGTGCTTGTGGCGGCCCAGAACCTGCAGCAGCAGCCGCCCGAGAGCGCGCACTGCAGCAGCCAGGGCCCGCCGGGCAGCCCGGAGCCCGACTCAGAGCCCGCGTCCTCGGCCCCCGAGAGCCAGGAGAACGAGCGCACCCCGCGCCCGCTCAGCCCCACCAAGCTGCTGCCTTTCCTGTCCAACCCCTACCGGAACCAGAGCGACGCCGACCTGGAGGCCCTGCGCAAGAAGCTCTCCAACGCCCCCCGGCCGCTGAAGAAGCGCAGCTCCATCACGGAGCCAGAGGGGCCCAGTGGGCCCAACATCCAGAAGCTGCTGTACCAGAGGACCACGCTGGCCGCCATGGAGACCATCTCAGTGCCCGCCCACCCCGGCAAGGCATCTGCACCTGCTGGCCCGGAGAGCCCAGGAGAGGTCCCCAACCCCTACTTACCCGTGGAGCCCGAGGAGGAGGCCGCCCGCGCCCCCGTGCCACTGTCCCCAGAGGATGCGGGGCCCCCTGGCGACGGGCCCGCTCCTTCCCCAGACCCGGACTCTGTGCCCGAATGGGCAGCGGACGGCAGCCCAGGCGCCCAGGGTGCCCAGGAGGAGCCCCATGCAGAGCGCCCCCCCCCGCCGGAGGTGTACCTGGAGGAGTACCCCCCGTACCCCCCGCCGCCCTACCCGTCCGGGGACCCCGAGGGGCCTGGAGAGGACCCCGCCAGCATGCGCCCCCCTGAGGTCACCGGGCAGGGCGCCCTGCCCCCTGGCAAAAGGACAAACTTGCGTAAGACAGGCTCGGAGCGGATTGCCCATGGAATGAGGGTCAAGTTCAACCCTCTGGCCTTGCTTCTGGATTCCTCGTTGGAGGGAGAATTCGACCTCGTGCAGAGAATCATTTATGAGGTGGAGGACCCCAGCCTGCCAAATGACGAGGGCATCACTGCACTGCACAACGCCGTGTGCGCGGGACACACAGAGATCGTGAAGTTCCTGGTGCAGTTTGGGGTGAATGTGAACGCTGCCGACAGCGACGGGTGGACCCCGCTGCACTGTGCAGCCTCGTGCAACAACGTGCAGGTCTGCAAGTTCCTGGTGGAGTGCGGGGCGGCCGTGTTCGCCATGACCTACAGCGACATGCAGACGGCGGCCGACAAGTGCGAGGAGATGGAGGAGGGCTACGCACAGTGCTCGCAGTTCCTCTACGGGGTTCAGGAGAAGATGGGGATCATGAACAAGGGAGTCATCTACGCGCTCTGGGACTACGAGCCTCAGAACACGGACGAGCTGCCCATGAAGGAAGGGGACTGCATGACCATCGTCCGCCGCGAGGACGAGGATGAGATCGAGTGGTGGTGGGCACGGCTGAGCGACCAGGAGGGTTACGTCCCACGCAACCTGCTGGGCGTGAGTGACCTGCCGTGCGCACTTGCGTGTGTGTGTGTGGGGGGGGCTTGGCGAGGTCCGTGTGTCGTGCACCCAGTGCAGCCCTCTTCCCTGTTATGA
Tlr5 toll-like receptor 5
Length: 2574 bp Location: 5503192..5495979 Strand: ->XM_004867427.1 ATGGCAGGTCCCCTTGACCTCCTCGTGGGCATGGTGCTCCTGGCCAGCCCTGCGCTCGGGATCCCGGCCTGCTCCTCCGATGGCCAGGTGGCTCTATTTCGTTTCTGCAACCTCACCCAGGTCCCCCAGGTCCTCAACACCACCAAGAGGCTCCTGCTGAGCTCCAACTACATCGGGACGGTCACAAGCACGTCCTTCCCTTTCCTGGAGCAGCTCCAGCTGCTGGAGCTCGGGGGCCAGCTGACACCCCTGACCATCGGGCCAGAGGCCTTCCGGAACCTGCCCACCCTCAGGATCTTGGACCTGGGTGACAGCAAGATGCATGCCCTGCATCTGGACGCTTTCCAGGGTCTGCCCCAGCTGCTTGAACTTAGACTGTTTTCCTGTGGTCTCTCGGATGCTGTGTTGAGAGATGGTTATTTCAGAAATTTAAATTCCTTAACCCACTTGGACCTGTCTGTAAACACGATTAGCAGCCTTTACCTTCATCCTTCATTTCAAGGACTAAATTCCTTAAAGTCTGTGGATTTTTCTTTCAACCAAATCCCCACCATATGTGAGGGTGAGCTCAGCCCACTCCAAGGGAAGACGCTGTCTCTTCTCCGCCTCAGAATGACGAAGGTGTACATGAGGGGCGTGGACTGGGGGAAGTGTGGGAACCCCCTCCGAAGCCTGCAGCTGGAGACCCTCGACGCTTCTGAGAACGGCTGGACCGTGCCCATCATGGGAAACTTCAGCAACGCCATTGAGGGGAGCAAGGTTTCCTCTTTGATCCTTCAGTACCACATCATGGGGGCTGGGTTTGGCTTCCGTAACATCAAGGATCCCGACCGGAGCACGCTTGCAGGCCTGGCCAGAAGCTCGGTGAGGAGCCTGGATCTCTCGAAGGGGTTCATCTTCTCCCTGAACCCCCGGCTCTTTGAGACGCTCAAGGACTTGAAGGTCCTGAACCTTGCCCACAACAAGATAAACAGGATCTTAAATGGGGCCTTTGAAGGGCTCGATGGCCTCCAGGTCCTCAATCTGTCATTTAACCTCCTGGGGGAGCTGTATAATTCCGACTTCCGGGGGCTGCCCAGTGTAGCATACATTGACCTTCAGAGGAATCACATTGGGATCGTTCAGGCCCAAACCTTCAGATTCCTGGGGAACCTAGAGACCTTGGATCTCCGGGACAATGCTCTTAAGACCATGTCTTTTATTCCGAGCATACTTACTGTCTTTCTAGGTGGCAACAAACTGGGGACTTTGCCACACATCAATCTCAGCGTTGACTTCATGCAGTTATCAGCAAACAGGCTAGAAAATCTGGCCGATCTCTACTTCCTCCTCCAGGTGCCTCATCTCCACACGCTCATCTTAAATCAAAATCGCCTTTCCTCCTGTCCACCAGGCCTTAGCCCTGCAGCGAGCCACAGCTTAGAAAAACTTCTCCTTGGAGAAAATATGCTGCAACTGGCCTGGGAAACTGGGCTCTGCTGGGATGTTTTTAAGGGACTTTCCCGTCTCCAGGTTCTGTTTCTGAATGATAACTACCTTAATTTTCTCCCACCTGGGGTACTTAGTGAGCTGACTTCACTAAGAGGACTCAGCCTCAGCTCCAACAGGCTGACATCTCTCCCTGCCGGCAGTTTTCCAGCCAACTTGGAGTCCTTGGATCTCTCTGGAAACCAGCTCCTCTCTCCAGATCCCAGCTTGTTTGCATCACTGCATTTCCTGGACATAACCCATAACAAGTTCATCTGTGAGTGCGAGCTGACCACATTTATCAGATGGCTCAACCATACCAGTGTCACTCTTGAGGGGTCTCCTGAGGATGTGTCCTGTGCATACCCCGCCTGGCTCTCAGATGTGCCCCTCTATTCTCTCTCCACGGAGGGCTGTGATGAAGAGGAAGCCTTGAAGTCTGTGCAGCTTTCTCTCTTCGTCACGTCTGCTGTCACCGTGACTCTGTTCCTCACAACTATCCTCGTGGTCACAAAGCTCCGGGGGTTTTGTTTCCTGTGCTACAAGACAGTGCAGAGCCTGGTGTTGGGCGACCGACCCCTGAGAAGAGACCCCAACACGTTCAAATACGATGCCTATTTCTGCTTCAGTAGCAAAGACTTCGAATGGGTTCAGAACGCTTTGCTTAAACAGCTGGATGCTCAGTACAGCGACCAAAACAGACTTAACCTGTGCTTCGAAGAGCGAGACTTCATCCCCGGGGAGGACCACGTCGCCAACCTCCAGGCTGCCATCTGGAGCAGCAGGAAGGTCGTCTGCCTGGTGAGCAGGCACTTCCTCCTTGACGGCTGGTGCCTGGAAGCCTTAGCCTACGCTCAGGGCAGGTGTGTGTCTGACCTCCAGAGCGTGCTCGTGGTGGTAGTGGTGGGGTCGCTGTCCCAGTACGAGCTGATGAGACATCAGGCCATCCGAGGATTTGTGCAGAAGCAGCAGTACTTGAGGTGGCCTCAGGATCTCCAGGATGTGGGCTGGTTTCTCAGTAAACTCACTCAGCACATACTAAAGAAAGAGAAGGGAAGGAAGGGAGACAGCGCCATGCAGCTGCAGATGGTAGCCTCCACCTCCTAG
Disp1 dispatched homolog 1 (Drosophila), transcript variant X1
Length: 4614 bp Location: 5411625..5468754 Strand: +>XM_004867424.1 ATGAAAATCCCCCGTGGGTCAAGAAACTGGAGCATGGCTCTGAGCAACGGGAGCCCCGATTTTGTGTTTCTGAGCAATGGCGGCATCGCAACCGGCGCTTCCAGTCGGAGTGCCCTGGCGCCCGGGGACGCAGACCTCGCCGCCCAGCAGCTCCTACCCAAAGGCGCGGCCCAAGCAAAAGTGAGTCCCAATGGCTGCGTGCACCGCAATGGCACGGTGAAGTCATCCTTCCTGCCTTCAGACAGCCGGAGAGTGCCTCCAGGTCTCCCCGCGTGTGGGCGTGGTCACTCGTGCTCGTTCCACCACCCGCTGGGCAGCCCCGAGGCGGGTCCCGCAGCGCCCTCGGCCTCGACCTCCTGTTGCACGCAGCCGCCCTCAGGGTACTCTGCGTCTCCGTGTGCAAACCATTCTCCCGCGTACCAGGCCGCATGCTGCCTGCAGCCCTCGACGCCCTTCTGCCTGCACCACCCATGGCTTGACCATTTCCAGCACCAGCCGGCGCAGCAGCGCATAGCCAGCCTCAGACCACCTAGACCTTTCAAGTTGCCGAAAAGCTATGCGGCCCTGCTCGCTGACTGGCCGGTGGTGGTCCTGGGACTATGCACCCTGCTCATCGCGGTCTGTGCACTCGTGGGTGTGTTGGTGCTGGAGCTGCCAGACTTCTCAGATCCGCTGCTGGGTTTTGAGCCAAGAGGGACGACGATAGGCCAGAGACTGGTGACGTGGAACAACATGGTCAAAAACACCGGGTACAAAGCCACGCTGGCAAATTACCCTTTTAAGTATGCAGATGAGCAGGCCAAGAGCCATCGGGACGATCGGTGGTCAGATGATCATTATGAAAGAGAAAAAAGAGAGGTGGACTGGAACTTCCACAAAGACAGCTTTTTCTGCGACGTCCCGAGTGAACGATATTCCAGAATAGTGTTTACCTCTGCGGGAGGGGAGACACTGTGGAATTTACCTGCAATTAAATCCATGTGCAGTGTAGATAACACCAGGATCAGGGCTCACCCCCAGTTCAGCGACCTCTGCCAGAGGACCACAGCCGCCTCCTGCTGCCCCAGCTGGACCCTGGGCAACTACATCGCCATTCTGAACAACAGGTCCTCCTGTCAGAGCATCGTCGAGCGAGATGTGTCTCACACCCTGAAGCTGTTGCGCACCTGTGCCAAACACTACCAGAACGGCACCCTGGGGCCGGACTGCTGGGATGCGACAGCCCGGAGGAAGGACCAGCTCAAGTGCAGCAGCGTGCCGCGCAAGTGCACCAAGTACAATGCCGTGTACCAGATCCTCCACTACCTGGTGGACAAGGACTTTCTGGCCCCGAGGACGGCTGAGCATGCCACGCCGGGGCTAAAGTACAGCATGCTCTTCTCGCCCACGGAGAAGGGGAAGAGCATGATGAGCATTTACCTGGACAACTTCGAGGGCTGGAACTCCTCCGATGGCGTGACAGCTGTCACCGGGATTGAGTTTGGCATCAAGCACAGCCTGTTTCAGGACTACCTTCTGATGGATACTGTGTATCCGGCCATAGCCATGGTCATCGTCCTGCTGGTCATGTGTGTCTACACCAAGTCCATGTTTATCACGCTGATGACAATGTTTGCCATCATCAGTTCCCTGATTGTCTCCTACTTCCTCTACCGTGTTGTGTTTAACTTCGAGTTTTTCCCTTTCATGAACCTCACCGCTCTCATCATTCTGGTTGGCATTGGGGCTGATGACGCGTTTGTGCTGTGTGACGTGTGGACCTACACCAAGTGTGACAAGCCACACGCCAAGACCTCAGAGACAGTGAGCACCACCCTGCAGCACGCCGCCCTCTCCATGTTTGTCACCAGCTTTACCACAGCCGCCGCCTTCTACGCCAACTACGTCAGCAACATCACGGCCATCAGGTGCTTCGGGGTGTACGCGGGCACTGCCATCCTGGTGAACTACATCCTCATGGTCACGTGGCTCCCAGCCGTAGTTGTGCTGCACGAACGCTACCTGCTCAACATCTTCAGCTGCTTCCGGAAGCCCCAGCAGCCACTGTATGAGGACAAGAGCTGCTGGACTGTGGCCCGCCAGAAGTGCCACCGCCTACTCTTTGCTGTTTCCGAGGTCTCTCGGATTTTCTTCGAGAAAGTGCTGCCATGCATCGTCATTAAGTTCCGCTACCTGTGGCTCTTGTGGTTCCTCGTGCTGACAGTGGGCGGAGCCTACATCGTGTGCGTGAACCCCAAGATGAAGCTGCCCTCACTGGAGCTGTCCGAGTTCCAGGTGTTCCGTGCATCCCACCCATTTGAGCGCTACGACGCTGAGTACAAGAAGCTGTTCATGTTTGAGCGCGTGCACCATGGCGAGGAGCTGCACATGCCCATCACTGTGGTCTGGGGCGTGTCCCCCGAGGACAACGGCAACCCGCTCAACCCCAAGAGCAAGGGCAAGCTGATGCTGGACAGCAGCTTCAACATCGCCAGCCCCGCGTCCCAGGCCTGGATTCTGCACTTCTGCCAGAAGCTGAGGAACCAGACGTTCTTCTACCAGACCGACGAGCAGGACTTCACCAGCTGCTTCATCGAGACCTTCAAGCAGTGGATGGAGAACCAGGACTGCGACGAGCCTGCCCTGTACCCGTGCTGCAGCCACTGGAGCTTCCCCTACAAGCAGGAGGTCTTCGAGCTGTGCATCAAGAGGGCCATCATGGAGCTGGAGAGGAGCACAGGCTACCACCTGGACAGCAGGACGCCGGGGCCGCGCTTCGACGTCAACGACACCATCCGGGCCGTGGTGCTGGAGTTCCAGAGCGCCCACCTCTTCACGCTGGCCTACGAGAAGATGCACCAGTTCTATAGTGAGGTGGACACATGGATCTCCCGGGAGCTGCGCTCTGCGCCCGAGGGCCTCAGCAACGGCTGGTTTGTGAGCAACCTCGAGTTCTACGACCTGCAGGACAGCCTCTCGGATGGCACCCTCATCGCCATGGGGCTGTCAGTGGCAGTGGCCTTCAGCGTGATGCTGCTGACCACGTGGAATGTCGTCATCAGCCTGTACGCCATCCTCTCTATTGCCGGCACCATCTTCGTCACCGTGGGGTCCCTGGTCCTGCTGGGCTGGGAGCTGAACGTTCTGGAATCCGTCACCATCTCAGTGGCCGTGGGGCTGTCCGTGGACTTTGCCGTCCACTACGGGGTTGCCTACCGCCTGGCCCCGGACCCCGACCGCGAGGGCAAGGTGATCTTCTCTCTGAGCCGCATGGGCTCGGCCATCGCCGTGGCTGCCCTGACCACCTTTGTGGCTGGGGCCATGATGATGCCGTCCACCGTGCTGGCCTACACGCAGCTGGGCACCTTCATGATGCTCGTCATGTGCGTCAGTTGGGCCTTCGCCACCTTCTTCTTCCAGTGCATGTGCCGGTGCCTCGGGCCGCAGGGCTCCTGTGGGCAGATCCCGCTGCCAAGGAAGCTCCAGTGCGGCGCCTTTGCCCACGCCTTTTCCTCAGGTCCTGGTGACAAAGGGCAGAGCAAAGCCTGTCCCTCGGATGCACATCACGTAGATCCCCAGGGCCAGAAGTCGGAACCGGAGCATGAGTTTTATGAGCTGGAACCGCTGGCATCCCGAGGCTGTACAGCCTCAGAGAGGACCACGCATGAGGAAAGCTGCCTCTGCGTCGACCTCCTTGGCAGCCCAGCCGGGGGCACGGGGGTGCCTGGGCACGCAGCACACACTGGGGAGCGCAGCCGGAGCTCCAGGGGTGACTCCAGCGCTGCCCTGCTCCCGCTCTGTCCTGAGCCACACCCTGCACGCCCCTTCTCCCTGAATCAGAGATGCCGCTGCCTGCTCACCTACAGACTCCTGATGTGCAGCCCACACTCCTGCCGGCAGGAAGGTGACTCTGTGTGTGGCCACTGCGCCCCTGCCACAGGTGGCTTCGTCCAGATCCAGAACGGGGTGGTGCCTCTGCAGGCAGCACATCCAGCCCCTGAGGGCTTCGTGCACCACCTCCCACACCCACACTTGCAGCCTTGTCCCTGCCTGCAGGGCTGGGGGAAGCCACCTGGAATCCAGAGCCCCCTGCCTCAGAACTGTCACCTCCAACAGACGCCGCCTGTGCAGGCCCCAGAGCCCCGGGGCAAGACTGGCGAGCATGGTGCACCGGGCTCCAACGCACGGCTTCCTGGGGCGGCAGAGTCGTCGCCGCTGGCCTGCAGGGTTGCTGCCTCTTCACGGCCCCCACACTGCGATCCTGAGCATGGTCGGAGGGGACTCCACAGAGACAGGGACACCGGACATGGGGAGGGGGCCGCCAGAAGCAAAGGCTCTGGTCTGCAGCATCGCAAGGACAGGCCTGAGAGGAGAGTGGAGCCGGGCTTGTCACAGGCTGGTGCAGTTTCGAACTCAGAACATTTCAGTCACAGCGAACCAAAGCTTCTGTTTAACCATTTTCTGGGGGAGGCTGGTCATGGGCCCGGCTGGGGCAGCCTGCAGAGCTGCAACAGCACTGTGAGCGGGAGGTGCAGCTCTGCGGGCTGCCTGCTCCCAGACCTCGATGCCAGCGTGCCTGCTGCTGTGGTGCACTCAGAACTGGCTGAGGAGAGCTTGTTAATAAAGGCACCCTAA
Mia3 melanoma inhibitory activity family, member 3, transcript variant X1
Length: 5508 bp Location: 5162202..5205375 Strand: +>XM_004867418.1 ATGGCTGCGGGGCGAGCGCTGCAGCTGTCCCTGCTGCTGTCGCTGCTGCTGTCCGGGCCGCCCGGTCGGGTGAGGGGACAGCGGTCTCAGGACCGCGGCCGCCGCTTCTCGGACTTCAAGAGCTGCGGTGATCCCGAGTGCAGCATGTTAATGTGCTGGGGTAAAGCTGTTGGAGATTTCACAGGCCCGGATTGTCGCTTTGTGAATTTTAAAAAAGGTGACTCTATACATGTCTACTATAAACTGGTAGGGGGATCGCCTGAACTTTGGGCTGGAAACGTTGGATTTTTTTTTGGATATTTCCCAAAGGATTTAGTCAAGATAGAACAAGTATATGCCAAAGAGGAACTACAAGTCCCAGCAGATGAGACAGACTTTGTCTGTTTTGATGGGAGAAATGATATGTTTGATAACTATAACGTAGAAGAACTCTTAGGGGTTTTGGAACCCTATAACTCTGGAACTGAAGATGCTGAGAAAGCGCCTCCACATGCAGAGCAGCCTCCGGAGGGCTCCGCGGGAAGCGAGCCCAAGGCCCACAGCAGCAGTGCCGCCGAGGGAGGCGGCCCGGAGCACCAGCCCCACGCTGACCCAGGTGCCCGGGCGGAGGCGCCATCCTCAGAGGCGCTGGAAGAAATGCTGCAGGGGAAGCTGAGGGCGCCGCAGAGCGAGGACAGCAGGGCCAGCACTTCTCAGGCCGCCTCCGCTGAGCAGAAGGTGGACACTTACAAGCTCCCGAAGGAGATGGCTCTAGGCTTGAAGACCAAGTTCGGCTCCACTGCCGATGCTATGGTGTCGGATGACGAGGCGACTGCGCTGGTGACCGCCCCGGAAGGTGCTCTGGACAAGGCGCCGGACGCCGAGGCCTGCTCGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGGGAATGGAGGCGGCCTGGACGAGCTGCCGCTGCTGACCTTCAGCAGCGGGGAAGAGCCGAGCCGGGCAGCGGAGCCCGGGCTGGAGGAAGAGGACAGCACCGTGGCAGCTCGGCACCCCAGCATGGGAACCGGCCAGAACGGCATCCTGGCCACCTGGGGGAGCACTCTGTTCTCCATTGTCGCCTCCGGCCAGAGGGGCACGCAAGACTTGGAGGGCTCTCACTCAGAAGGAGCACAGGAAGGTGACCCCGAGAGCAGCGAACAGGGGAAGCCACAAGCTGTGGCAGATTATTTTGACTCTGAAAACTTAGATGATTTTTTTGTAGAAGTCTTTAAAACAAATGATGAAAATGACTCAGGAATGGACACAGAACCTGACAATAAGGAAAATGGCAGTGATGCTGAGGAACCAGAGTCCCCACTCGAGGCTGCCCGGCACGGAGGGACAGTTCCACACGGCTCTGCTGCGAGCCTGGGGCTGAGGCCCCTGCCGGCTGCCGGAAAGGGCAAGGACGCCCCTCAGCCAGCTTCTGAGAACAGAGACAGTGACCCGCAGGAAGCAGCTGTGGGCGATGCAGAAGACACACTCAGGGAGGGAAGACCTGGAGCCCAGACGTCGGCTGCCGGCCCAGAGAGCGGCTCTGCTCTGAACGGTGTGGGCAGTCGGGCGACTGAAGGGACTGAGGGGATGAGAGAGCAGGAATCCCCCGGCGCTGTGCCACCGCCCGGAGAGGATCTGCACACCTCGACCCCAGATGGTGTGCAGGTGGCTGGGGGTGCGGCCCCGGGGCCCAGCTTGCACCCTGGCCCAGCGCGGCACCAACTCGAAGAGCAGAGAGAGGAAACAGGCCTGACAGCCCCAGGCCACCCTCTGTTCCCTCCTCCAGATGGAGTGAGATTGGCAGGAAAACTGGAAGAGGAGGTCCCCCCTCTGGGAGATCGTTCCCGGCTGCAACAGAGAGATGCTGCCCTCAGGGAGCGAGCGACTGAAATGGAGTCAGCTCAGCACGAGGCAGAAGAGAGGGACCCAGCAGAGGAGAGGGAGCTGCCCGATGGTGCGGCTGCCCCAGGCTCCCATGCCCAAGAGACAGAGGGGGACGAGGAGAGGACGGAGGAGGAAGAGGAGCCAGAGGGCGACGAGGAGCTCCCAGAAGAGCTGCTGGAAGATGAAAATGCAGTCAGTGCTAAACAGTCTCAAGAAATTCACCCGGAAGTCGGGGATGGGAAGCCGCCTATTAACCCACGAGGTTCTGTAGGGGCGCAGTTAGGGACCATTCACCCCGATCCAGCAGCCGAAGAAAACCAGCAGGAACCTAACGTGATTCTTGTGATTGAAGACGAAAATGCTACTGCAGCAAGACAGGGAGATGGGCCAAGTAGGGGCCTGGGCAGCGCTGTGGTGGGGAGAGAGGACGGAGGTCCCCCGGCACCAGAGATCAGCGAGCCTGAGGGCAGGGAGAAGGCCCCCTCACCAGGCCCACGTGAGGCCCTGCAGAAGGAAGACTCGGTGGGGGTGTGGCCGGGCGGGGACAGCACAGGGCCTGTGGAGAGGCCTTCGGGGGAGCCCTCTGAGGAGGCCCAGAAGGCTGGGGACCCGAGGAGCCTGGGGCCCTTCCCTGCATACCCCATAGATGACCTGTCCCGGCAGAGTCCACTCGCTGCGCTAGGGGAAGACTGGCCCATCATCCTCAGCGTCTTCAAGGACCTGGAAGTCTTGGAGCGCTTCCTCAAGTACATGGATGTCCTCAAGCTGGAAGCTATGCTGCAGGACATGTCCCTGAAGCTGAAGGCGGCGCAGCAGGAGAGCCTGCCTTACAACGCAGACAAGGTGCTGGACAAGGTCTTCCGGGCCTCCGAGGCGCAGATCCTGAGCGCAGCAGAGAAGATGCTGGATGCCCGCACGACCAGGAACAGAGAGCTGGGGGCGAAGGAAAGCAATGTGCTGGAAGAGTATGCCGTGCTAGATGACGTGCAGGACCTCATCTACTTCGTCAGGTACAAGCACTTGGCCGAGGAAGAGCCCGTCCCGCTGAGCACGGCCCCGACTCTGGAGGACTGCTGGAGGGGACCTGCCCAAGAGACGCAGCCGCCCCCTAGCGATCTGTTCCCTCGAGAGAACACGGAAGATGCTGGCACGAAGCTCCCGGAAGAGCCCAGCCCCTGGGGCCAGCCGGCGACCAGGGTAGCAGGCGGCTCCGCCGAGGAACAGACACCGAATCCCAAGGAGGACGAAGCCCCAGTTTTAGGGGTGATTACGACAGAAGGCCCCGAAGCTGACCCAGGAGGTACTACGGAGAGCCAGCAAGAGATGAACAGGCAGGAGCCGGCCCACACCAGCCCTTTGGAAAGCGTAGTCCCGAAGCATAGTTCATTCATGCCTTACCTCAGCAAGATGCTAGTTGCTACTCTGCCTGAGGACGCTCAGCCTGGACCTGATTTTTATGGACTACCCTGGAAGCCTGTGCTTCTAACTGCCGTGTTGGGAATCATTTCATTTGCCATTTTCTTCTGGAGAACTGTTCTTGCTGTAAGGGAGAGAATCTATCAAGTCACTGAACAGCAGATTGCTGAAAAGGTGAAGAATACCACAAAGGCAAATACAGAGCTTGTACAGAAATTGTCAGATTATGAACAGAAGATCAAGGAATCAAAGAAGCTTGTTCAGGATACCAAGAAAGAAAATATGATTCTCTCCGAGGAAGCAATTAAATATAAGGATAAAATCAAAGTACTTGAAGGAAATAGTGAAATTCTGGGTGACACAGCTAAAAATCTTCGTGTTATGTTAGAATCTGAGCAAGAAAAGAATGTGAAAAATCAGGATTTGATACTGGAAAATAGGAAATCTATAGAGAAGTTAAAGGACGTTATTGCAGTGAATGCCTCAGAATTATCAGAGGTCCAGATTGCCCTGAATGAAGCCAAGGTCAGTGAAGAAAAGGTGAAGTCTGAGTGCCAGCAGGTCCAAGAGGAAAATGCGAGGCTGAAGAAGAAGAAAGCGCAGCTGGAACAGGAAGTCAAAGACTGGAAGAAGTTGAATGCTGAGCTCAGTGAGCAGATCACGTCCTTCGAGAAGTCTCAGAGGGAACTGGAAGCTGCTCTGGCTCATAAAGATGATGGTATCGGGGCCCTGACCAATTGCATCATGCAGTTGGATCGATTAGAGTGTAGACCTGAGTCTGAGGGTCCAGGTCCAGGAGGAACTGAGGCAGATGAATTAGCCAATGGAGAAGTGGGAGGTGACCAGAATGAGATGAGAACTAAAATTAAGCAGATGCTGGATGTCTCCCGGACCCAGACCGCAATCTCGGTGCTCACGGAGGATCTCAAACTTTTACAAGCCAAGCTGAGAGCCTCGATGTCCACCAAGTGTGACCTGGAAGGGCAGATAGAGAAGCTGGGCCAGAGCTGCGGGGTGCTGCAGTCCACCAAGGCCGGGCTGGAGGAGGAGTACAGGACGCTGCGGCAAAAGGTGGAGATCCTGAACGAGCTGTACCAGCAGAAGGAGATGGCACTGCAGAAGAAGCTGAGTCAGGAAGAGTATGAGCTGCAGGAGCGAGACCAGTGGCTGTCGGCTGCAGACGAGAAGGTGGTGCTGGCCACAGAGGAAGTCAAAGTGTGCAAGCGGAGAATTCAAGAAATGGAGGAAGAATTACAGAAAACAGAGCGCTCCTTTAAAAACCAGCTTGCTACTCACGAGAAGAAGGCCCATGAGAACTGGCTCAAAGCACGCAGTGCAGAAAGGCAGCTCACTGAGGAGAGAAGGGAAGCCGCTAACCTGAGGCACAAATTGCTGGAACTGACCCAGAAGATGGCGATGCAGCAGGACGAGCCTGTGATTGTCAAGCCGATGCCTGGACGACCTGGGACCCAGAACCCTCCCCAGAGAGGTACCCTGAGCCAGAACGGCTCCTTCGGCCCGTTCCCCATGAGCCTGAGCGGAGGTGAATGCTCCCCACCCCTGAGCACGGAGCCCCCCAGCCGGCCCATCTCTGGAGCCTTCTCGCGAAGAGACCTGCCGAGGAATGAGTTCGCTGCTGGCCCCCGCCCCGGCCCCAGTCCCGGTCCCATGGTGAGCAGCGGCTCCCGAGGCTCCTCCCCAGCGAAGGGCCTGGATGAGGGCAAGCAGACTGCTCCACAGGAGCCCAGCGTGACATCTGCAGCCGAGCGTCCAGCAGCAGTTAACATGGCCATGAAGGGGCCCCCTGCTTTCCCAGGGCCACCATTTATGGGGGCCCCTCTGCCACCACCTGTTGGATATGGACCACCACCACCGCTCTGCGGGCCTTTCGGACCTCAGCCAATGCCTGGGCCACCTCCGCCTTTCGTTCCGTGTATGTACCCACCACTGGGCCTGAGAGAGTTCGCCCCAGGCACCCTGCCAGGACATGCACCATTCAGACCTCCGGGCCCGCTTAACCCTAGACAGTATTTTCTTCCTGGTCCGAGACTGCCACCACCGCCTTCCGGCCCCCAGGATTACCCACCACCACCTGCCGAAGGAGACTCACTGCCCGTGGGCCCCAGAGAGAAGCACGCGCCTGCCTCTCCATACAGCAGCCGGGACTCCTCGCAGACTGTGAGGCAGAGCCCGTGA
Mia3 melanoma inhibitory activity family, member 3, transcript variant X2
>XM_004867419.1 ATGGCTGCGGGGCGAGCGCTGCAGCTGTCCCTGCTGCTGTCGCTGCTGCTGTCCGGGCCGCCCGGTCGGGTGAGGGGACAGCGGTCTCAGGACCGCGGCCGCCGCTTCTCGGACTTCAAGAGCTGCGGTGATCCCGAGTGCAGCATGTTAATGTGCTGGGGTAAAGCTGTTGGAGATTTCACAGGCCCGGATTGTCGCTTTGTGAATTTTAAAAAAGGTGACTCTATACATGTCTACTATAAACTGGTAGGGGGATCGCCTGAACTTTGGGCTGGAAACGTTGGATTTTTTTTTGGATATTTCCCAAAGGATTTAGTCAAGATAGAACAAGTATATGCCAAAGAGGAACTACAAGTCCCAGCAGATGAGACAGACTTTGTCTGTTTTGATGGGAGAAATGATATGTTTGATAACTATAACGTAGAAGAACTCTTAGGGGTTTTGGAACCCTATAACTCTGGAACTGAAGATGCTGAGAAAGCGCCTCCACATGCAGAGCAGCCTCCGGAGGGCTCCGCGGGAAGCGAGCCCAAGGCCCACAGCAGCAGTGCCGCCGAGGGAGGCGGCCCGGAGCACCAGCCCCACGCTGACCCAGGTGCCCGGGCGGAGGCGCCATCCTCAGAGGCGCTGGAAGAAATGCTGCAGGGGAAGCTGAGGGCGCCGCAGAGCGAGGACAGCAGGGCCAGCACTTCTCAGGCCGCCTCCGCTGAGCAGAAGGTGGACACTTACAAGCTCCCGAAGGAGATGGCTCTAGGCTTGAAGACCAAGTTCGGCTCCACTGCCGATGCTATGGTGTCGGATGACGAGGCGACTGCGCTGGTGACCGCCCCGGAAGGTGCTCTGGACAAGGCGCCGGACGCCGAGGCCTGCTCGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGGGAATGGAGGCGGCCTGGACGAGCTGCCGCTGCTGACCTTCAGCAGCGGGGAAGAGCCGAGCCGGGCAGCGGAGCCCGGGCTGGAGGAAGAGGACAGCACCGTGGCAGCTCGGCACCCCAGCATGGGAACCGGCCAGAACGGCATCCTGGCCACCTGGGGGAGCACTCTGTTCTCCATTGTCGCCTCCGGCCAGAGGGGCACGCAAGACTTGGAGGGCTCTCACTCAGAAGGAGCACAGGAAGGTGACCCCGAGAGCAGCGAACAGGGGAAGCCACAAGCTGTGGCAGATTATTTTGACTCTGAAAACTTAGATGATTTTTTTGTAGAAGTCTTTAAAACAAATGATGAAAATGACTCAGGAATGGACACAGAACCTGACAATAAGGAAAATGGCAGTGATGCTGAGGAACCAGAGTCCCCACTCGAGGCTGCCCGGCACGGAGGGACAGTTCCACACGGCTCTGCTGCGAGCCTGGGGCTGAGGCCCCTGCCGGCTGCCGGAAAGGGCAAGGACGCCCCTCAGCCAGCTTCTGAGAACAGAGACAGTGACCCGCAGGAAGCAGCTGTGGGCGATGCAGAAGACACACTCAGGGAGGGAAGACCTGGAGCCCAGACGTCGGCTGCCGGCCCAGAGAGCGGCTCTGCTCTGAACGGTGTGGGCAGTCGGGCGACTGAAGGGACTGAGGGGATGAGAGAGCAGGAATCCCCCGGCGCTGTGCCACCGCCCGGAGAGGATCTGCACACCTCGACCCCAGATGGTGTGCAGGTGGCTGGGGGTGCGGCCCCGGGGCCCAGCTTGCACCCTGGCCCAGCGCGGCACCAACTCGAAGAGCAGAGAGAGGAAACAGGCCTGACAGCCCCAGGCCACCCTCTGTTCCCTCCTCCAGATGGAGTGAGATTGGCAGGAAAACTGGAAGAGGAGGTCCCCCCTCTGGGAGATCGTTCCCGGCTGCAACAGAGAGATGCTGCCCTCAGGGAGCGAGCGACTGAAATGGAGTCAGCTCAGCACGAGGCAGAAGAGAGGGACCCAGCAGAGGAGAGGGAGCTGCCCGATGGTGCGGCTGCCCCAGGCTCCCATGCCCAAGAGACAGAGGGGGACGAGGAGAGGACGGAGGAGGAAGAGGAGCCAGAGGGCGACGAGGAGCTCCCAGAAGAGCTGCTGGAAGATGAAAATGCAGTCAGTGCTAAACAGTCTCAAGAAATTCACCCGGAAGTCGGGGATGGGAAGCCGCCTATTAACCCACGAGGTTCTGTAGGGGCGCAGTTAGGGACCATTCACCCCGATCCAGCAGCCGAAGAAAACCAGCAGGAACCTAACGTGATTCTTGTGATTGAAGACGAAAATGCTACTGCAGCAAGACAGGGAGATGGGCCAAGTAGGGGCCTGGGCAGCGCTGTGGTGGGGAGAGAGGACGGAGGTCCCCCGGCACCAGAGATCAGCGAGCCTGAGGGCAGGGAGAAGGCCCCCTCACCAGGCCCACGTGAGGCCCTGCAGAAGGAAGACTCGGTGGGGGTGTGGCCGGGCGGGGACAGCACAGGGCCTGTGGAGAGGCCTTCGGGGGAGCCCTCTGAGGAGGCCCAGAAGGCTGGGGACCCGAGGAGCCTGGGGCCCTTCCCTGCATACCCCATAGATGACCTGTCCCGGCAGAGTCCACTCGCTGCGCTAGGGGAAGACTGGCCCATCATCCTCAGCGTCTTCAAGGACCTGGAAGTCTTGGAGCGCTTCCTCAAGTACATGGATGTCCTCAAGCTGGAAGCTATGCTGCAGGACATGTCCCTGAAGCTGAAGGCGGCGCAGCAGGAGAGCCTGCCTTACAACGCAGACAAGGTGCTGGACAAGGTCTTCCGGGCCTCCGAGGCGCAGATCCTGAGCGCAGCAGAGAAGATGCTGGATGCCCGCACGACCAGGAACAGAGAGCTGGGGGCGAAGGAAAGCAATGTGCTGGAAGAGTATGCCGTGCTAGATGACGTGCAGGACCTCATCTACTTCGTCAGGTACAAGCACTTGGCCGAGGAAGAGCCCGTCCCGCTGAGCACGGCCCCGACTCTGGAGGACTGCTGGAGGGGACCTGCCCAAGAGACGCAGCCGCCCCCTAGCGATCTGTTCCCTCGAGAGAACACGGAAGATGCTGGCACGAAGCTCCCGGAAGAGCCCAGCCCCTGGGGCCAGCCGGCGACCAGGGTAGCAGGCGGCTCCGCCGAGGAACAGACACCGAATCCCAAGGAGGACGAAGCCCCAGTTTTAGGGGTGATTACGACAGAAGGCCCCGAAGCTGACCCAGGAGGTACTACGGAGAGCCAGCAAGAGATGAACAGGCAGGAGCCGGCCCACACCAGCCCTTTGGAAAGCGTAGTCCCGAAGCATAGTTCATTCATGCCTTACCTCAGCAAGATGCTAGTTGCTACTCTGCCTGAGGACGCTCAGCCTGGACCTGATTTTTATGGACTACCCTGGAAGCCTGTGCTTCTAACTGCCGTGTTGGGAATCATTTCATTTGCCATTTTCTTCTGGAGAACTGTTCTTGCTGTAAGGGAGAGAATCTATCAAGTCACTGAACAGCAGATTGCTGAAAAGGTGAAGAATACCACAAAGGCAAATACAGAGCTTGTACAGAAATTGTCAGATTATGAACAGAAGATCAAGGAATCAAAGAAGCTTGTTCAGGATACCAAGAAAGAAAATATGATTCTCTCCGAGGAAGCAATTAAATATAAGGATAAAATCAAAGTACTTGAAGGAAATAGTGAAATTCTGGGTGACACAGCTAAAAATCTTCGTGTTATGTTAGAATCTGAGCAAGAAAAGAATGTGAAAAATCAGGATTTGATACTGGAAAATAGGAAATCTATAGAGAAGTTAAAGGACGTTATTGCAGTGAATGCCTCAGAATTATCAGAGGTCCAGATTGCCCTGAATGAAGCCAAGGTCAGTGAAGAAAAGGTGAAGTCTGAGTGCCAGCAGGTCCAAGAGGAAAATGCGAGGCTGAAGAAGAAGAAAGCGCAGCTGGAACAGGAAGTCAAAGACTGGAAGAAGTTGAATGCTGAGCTCAGTGAGCAGATCACGTCCTTCGAGAAGTCTCAGAGGGAACTGGAAGCTGCTCTGGCTCATAAAGATGATGGTATCGGGGCCCTGACCAATTGCATCATGCAGTTGGATCGATTAGAGTGTAGACCTGAGTCTGAGGGTCCAGGTCCAGGAGGAACTGAGGCAGATGAATTAGCCAATGGAGAAGTGGGAGGTGACCAGAATGAGATGAGAACTAAAATTAAGCAGATGCTGGATGTCTCCCGGACCCAGACCGCAATCTCGGTGCTCACGGAGGATCTCAAACTTTTACAAGCCAAGCTGAGAGCCTCGATGTCCACCAAGTGTGACCTGGAAGGGCAGATAGAGAAGCTGGGCCAGAGCTGCGGGGTGCTGCAGTCCACCAAGGCCGGGCTGGAGGAGGAGTACAGGACGCTGCGGCAAAAGGTGGAGATCCTGAACGAGCTGTACCAGCAGAAGGAGATGGCACTGCAGAAGAAGCTGAGTCAGGAAGAGTATGAGCTGCAGGAGCGAGACCAGTGGCTGTCGGCTGCAGACGAGAAGGTGGTGCTGGCCACAGAGGAAGTCAAAGTGTGCAAGCGGAGAATTCAAGAAATGGAGGAAGAATTACAGAAAACAGAGCGCTCCTTTAAAAACCAGCTTGCTACTCACGAGAAGAAGGCCCATGAGAACTGGCTCAAAGCACGCAGTGCAGAAAGGCAGCTCACTGAGGAGAGAAGGGAAGCCGCTAACCTGAGGCACAAATTGCTGGAACTGACCCAGAAGATGGCGATGCAGCAGGACGAGCCTGTGATTGTCAAGCCGATGCCTGGACGACCTGGGACCCAGAACCCTCCCCAGAGAGGTACCCTGAGCCAGAACGGCTCCTTCGGCCCGTTCCCCATGAGCCTGAGCGGAGGTGAATGCTCCCCACCCCTGAGCACGGAGCCCCCCAGCCGGCCCATCTCTGGAGCCTTCTCGCGAAGAGACCTGCCGAGGAATGAGTTCGCTGCTGGCCCCCGCCCCGGCCCCAGTCCCGGTCCCATGGTGAGCAGCGGCTCCCGAGGCTCCTCCCCAGCGAAGGGCCTGGATGAGGGCAAGACTGCTCCACAGGAGCCCAGCGTGACATCTGCAGCCGAGCGTCCAGCAGCAGTTAACATGGCCATGAAGGGGCCCCCTGCTTTCCCAGGGCCACCATTTATGGGGGCCCCTCTGCCACCACCTGTTGGATATGGACCACCACCACCGCTCTGCGGGCCTTTCGGACCTCAGCCAATGCCTGGGCCACCTCCGCCTTTCGTTCCGTGTATGTACCCACCACTGGGCCTGAGAGAGTTCGCCCCAGGCACCCTGCCAGGACATGCACCATTCAGACCTCCGGGCCCGCTTAACCCTAGACAGTATTTTCTTCCTGGTCCGAGACTGCCACCACCGCCTTCCGGCCCCCAGGATTACCCACCACCACCTGCCGAAGGAGACTCACTGCCCGTGGGCCCCAGAGAGAAGCACGCGCCTGCCTCTCCATACAGCAGCCGGGACTCCTCGCAGACTGTGAGGCAGAGCCCGTGA
Mia3 melanoma inhibitory activity family, member 3, transcript variant X3
Length: 5454 bp Location: 5162202..5205375 Strand: +>XM_004867420.1 ATGGCTGCGGGGCGAGCGCTGCAGCTGTCCCTGCTGCTGTCGCTGCTGCTGTCCGGGCCGCCCGGTCGGGTGAGGGGACAGCGGTCTCAGGACCGCGGCCGCCGCTTCTCGGACTTCAAGAGCTGCGGTGATCCCGAGTGCAGCATGTTAATGTGCTGGGGTAAAGCTGTTGGAGATTTCACAGGCCCGGATTGTCGCTTTGTGAATTTTAAAAAAGGTGACTCTATACATGTCTACTATAAACTGGTAGGGGGATCGCCTGAACTTTGGGCTGGAAACGTTGGATTTTTTTTTGGATATTTCCCAAAGGATTTAGTCAAGATAGAACAAGTATATGCCAAAGAGGAACTACAAGTCCCAGCAGATGAGACAGACTTTGTCTGTTTTGATGGGAGAAATGATATGTTTGATAACTATAACGTAGAAGAACTCTTAGGGGTTTTGGAACCCTATAACTCTGGAACTGAAGATGCTGAGAAAGCGCCTCCACATGCAGAGCAGCCTCCGGAGGGCTCCGCGGGAAGCGAGCCCAAGGCCCACAGCAGCAGTGCCGCCGAGGGAGGCGGCCCGGAGCACCAGCCCCACGCTGACCCAGGTGCCCGGGCGGAGGCGCCATCCTCAGAGGCGCTGGAAGAAATGCTGCAGGGGAAGCTGAGGGCGCCGCAGAGCGAGGACAGCAGGGCCAGCACTTCTCAGGCCGCCTCCGCTGAGCAGAAGGTGGACACTTACAAGCTCCCGAAGGAGATGGCTCTAGGCTTGAAGACCAAGTTCGGCTCCACTGCCGATGCTATGGTGTCGGATGACGAGGCGACTGCGCTGGTGACCGCCCCGGAAGGTGCTCTGGACAAGGCGCCGGACGCCGAGGCCTGCTCGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGGGAATGGAGGCGGCCTGGACGAGCTGCCGCTGCTGACCTTCAGCAGCGGGGAAGAGCCGAGCCGGGCAGCGGAGCCCGGGCTGGAGGAAGAGGACAGCACCGTGGCAGCTCGGCACCCCAGCATGGGAACCGGCCAGAACGGCATCCTGGCCACCTGGGGGAGCACTCTGTTCTCCATTGTCGCCTCCGGCCAGAGGGGCACGCAAGACTTGGAGGGCTCTCACTCAGAAGGAGCACAGGAAGGTGACCCCGAGAGCAGCGAACAGGGGAAGCCACAAGCTGTGGCAGATTATTTTGACTCTGAAAACTTAGATGATTTTTTTGTAGAAGTCTTTAAAACAAATGATGAAAATGACTCAGGAATGGACACAGAACCTGACAATAAGGAAAATGGCAGTGATGCTGAGGAACCAGAGTCCCCACTCGAGGCTGCCCGGCACGGAGGGACAGTTCCACACGGCTCTGCTGCGAGCCTGGGGCTGAGGCCCCTGCCGGCTGCCGGAAAGGGCAAGGACGCCCCTCAGCCAGCTTCTGAGAACAGAGACAGTGACCCGCAGGAAGCAGCTGTGGGCGATGCAGAAGACACACTCAGGGAGGGAAGACCTGGAGCCCAGACGTCGGCTGCCGGCCCAGAGAGCGGCTCTGCTCTGAACGGTGTGGGCAGTCGGGCGACTGAAGGGACTGAGGGGATGAGAGAGCAGGAATCCCCCGGCGCTGTGCCACCGCCCGGAGAGGATCTGCACACCTCGACCCCAGATGGTGTGCAGGTGGCTGGGGGTGCGGCCCCGGGGCCCAGCTTGCACCCTGGCCCAGCGCGGCACCAACTCGAAGAGCAGAGAGAGGAAACAGGCCTGACAGCCCCAGGCCACCCTCTGTTCCCTCCTCCAGATGGAGTGAGATTGGCAGGAAAACTGGAAGAGGAGGTCCCCCCTCTGGGAGATCGTTCCCGGCTGCAACAGAGAGATGCTGCCCTCAGGGAGCGAGCGACTGAAATGGAGTCAGCTCAGCACGAGGCAGAAGAGAGGGACCCAGCAGAGGAGAGGGAGCTGCCCGATGGTGCGGCTGCCCCAGGCTCCCATGCCCAAGAGACAGAGGGGGACGAGGAGAGGACGGAGGAGGAAGAGGAGCCAGAGGGCGACGAGGAGCTCCCAGAAGAGCTGCTGGAAGATGAAAATGCAGTCAGTGCTAAACAGTCTCAAGAAATTCACCCGGAAGTCGGGGATGGGAAGCCGCCTATTAACCCACGAGGTTCTGTAGGGGCGCAGTTAGGGACCATTCACCCCGATCCAGCAGCCGAAGAAAACCAGCAGGAACCTAACGTGATTCTTGTGATTGAAGACGAAAATGCTACTGCAGCAAGACAGGGAGATGGGCCAAGTAGGGGCCTGGGCAGCGCTGTGGTGGGGAGAGAGGACGGAGGTCCCCCGGCACCAGAGATCAGCGAGCCTGAGGGCAGGGAGAAGGCCCCCTCACCAGGCCCACGTGAGGCCCTGCAGAAGGAAGACTCGGTGGGGGTGTGGCCGGGCGGGGACAGCACAGGGCCTGTGGAGAGGCCTTCGGGGGAGCCCTCTGAGGAGGCCCAGAAGGCTGGGGACCCGAGGAGCCTGGGGCCCTTCCCTGCATACCCCATAGATGACCTGTCCCGGCAGAGTCCACTCGCTGCGCTAGGGGAAGACTGGCCCATCATCCTCAGCGTCTTCAAGGACCTGGAAGTCTTGGAGCGCTTCCTCAAGTACATGGATGTCCTCAAGCTGGAAGCTATGCTGCAGGACATGTCCCTGAAGCTGAAGGCGGCGCAGCAGGAGAGCCTGCCTTACAACGCAGACAAGGTGCTGGACAAGGTCTTCCGGGCCTCCGAGGCGCAGATCCTGAGCGCAGCAGAGAAGATGCTGGATGCCCGCACGACCAGGAACAGAGAGCTGGGGGCGAAGGAAAGCAATGTGCTGGAAGAGTATGCCGTGCTAGATGACGTGCAGGACCTCATCTACTTCGTCAGGTACAAGCACTTGGCCGAGGAAGAGCCCGTCCCGCTGAGCACGGCCCCGACTCTGGAGGACTGCTGGAGGGGACCTGCCCAAGAGACGCAGCCGCCCCCTAGCGATCTGTTCCCTCGAGAGAACACGGAAGATGCTGGCACGAAGCTCCCGGAAGAGCCCAGCCCCTGGGGCCAGCCGGCGACCAGGGTAGCAGGCGGCTCCGCCGAGGAACAGACACCGAATCCCAAGGAGGACGAAGCCCCAGTTTTAGGGGTGATTACGACAGAAGGCCCCGAAGCTGACCCAGGAGGTACTACGGAGAGCCAGCAAGAGATGAACAGGCAGGAGCCGGCCCACACCAGCCCTTTGGAAAGCGTAGTCCCGAAGCATAGTTCATTCATGCCTTACCTCAGCAAGATGCTAGTTGCTACTCTGCCTGAGGACGCTCAGCCTGGACCTGATTTTTATGGACTACCCTGGAAGCCTGTGCTTCTAACTGCCGTGTTGGGAATCATTTCATTTGCCATTTTCTTCTGGAGAACTGTTCTTGCTGTAAGGGAGAGAATCTATCAAGTCACTGAACAGCAGATTGCTGAAAAGGTGAAGAATACCACAAAGGCAAATACAGAGCTTGTACAGAAATTGTCAGATTATGAACAGAAGATCAAGGAATCAAAGAAGCTTGTTCAGGATACCAAGAAAGAAAATATGATTCTCTCCGAGGAAGCAATTAAATATAAGGATAAAATCAAAGTACTTGAAGGAAATAGTGAAATTCTGGGTGACACAGCTAAAAATCTTCGTGTTATGTTAGAATCTGAGCAAGAAAAGAATGTGAAAAATCAGGATTTGATACTGGAAAATAGGAAATCTATAGAGAAGTTAAAGGACGTTATTGCAGTGAATGCCTCAGAATTATCAGAGGTCCAGATTGCCCTGAATGAAGCCAAGGTCAGTGAAGAAAAGGTGAAGTCTGAGTGCCAGCAGGTCCAAGAGGAAAATGCGAGGCTGAAGAAGAAGAAAGCGCAGCTGGAACAGGAAGTCAAAGACTGGAAGAAGTTGAATGCTGAGCTCAGTGAGCAGATCACGTCCTTCGAGAAGTCTCAGAGGGAACTGGAAGCTGCTCTGGCTCATAAAGATGATGGTATCGGGGCCCTGACCAATTGCATCATGCAGTTGGATCGATTAGAGTGTAGACCTGAGTCTGAGGGTCCAGGTCCAGGAGGAACTGAGGCAGATGAATTAGCCAATGGAGAAGTGGGAGGTGACCAGAATGAGATGAGAACTAAAATTAAGCAGATGCTGGATGTCTCCCGGACCCAGACCGCAATCTCGGTGCTCACGGAGGATCTCAAACTTTTACAAGCCAAGCTGAGAGCCTCGATGTCCACCAAGTGTGACCTGGAAGGGCAGATAGAGAAGCTGGGCCAGAGCTGCGGGGTGCTGCAGTCCACCAAGGCCGGGCTGGAGGAGGAGTACAGGACGCTGCGGCAAAAGGTGGAGATCCTGAACGAGCTGTACCAGCAGAAGGAGATGGCACTGCAGAAGAAGCTGAGTCAGGAAGAGTATGAGCTGCAGGAGCGAGACCAGTGGCTGTCGGCTGCAGACGAGAAGGTGGTGCTGGCCACAGAGGAAGTCAAAGTGTGCAAGCGGAGAATTCAAGAAATGGAGGAAGAATTACAGAAAACAGAGCGCTCCTTTAAAAACCAGCTTGCTACTCACGAGAAGAAGGCCCATGAGAACTGGCTCAAAGCACGCAGTGCAGAAAGGCAGCTCACTGAGGAGAGAAGGGAAGCCGCTAACCTGAGGCACAAATTGCTGGAACTGACCCAGAAGATGGCGATGCAGCAGGACGAGCCTGTGATTGTCAAGCCGATGCCTGGACGACCTGGGACCCAGAACCCTCCCCAGAGAGGTACCCTGAGCCAGAACGGCTCCTTCGGCCCGTTCCCCATGAGCCTGAGCGGAGGTGAATGCTCCCCACCCCTGAGCACGGAGCCCCCCAGCCGGCCCATCTCTGGAGCCTTCTCGCGAAGAGACCTGCCGAGGAATGAGTTCGCTGCTGGCCCCCGCCCCGGCCCCAGTCCCGGTCCCATGGTGAGCAGCGGCTCCCGAGGCTCCTCCCCAGCGAAGGGCCTGGATGAGGGCAAGGTTAACATGGCCATGAAGGGGCCCCCTGCTTTCCCAGGGCCACCATTTATGGGGGCCCCTCTGCCACCACCTGTTGGATATGGACCACCACCACCGCTCTGCGGGCCTTTCGGACCTCAGCCAATGCCTGGGCCACCTCCGCCTTTCGTTCCGTGTATGTACCCACCACTGGGCCTGAGAGAGTTCGCCCCAGGCACCCTGCCAGGACATGCACCATTCAGACCTCCGGGCCCGCTTAACCCTAGACAGTATTTTCTTCCTGGTCCGAGACTGCCACCACCGCCTTCCGGCCCCCAGGATTACCCACCACCACCTGCCGAAGGAGACTCACTGCCCGTGGGCCCCAGAGAGAAGCACGCGCCTGCCTCTCCATACAGCAGCCGGGACTCCTCGCAGACTGTGAGGCAGAGCCCGTGA
LOC101712595 uncharacterized LOC101712595
Length: 513 bp Location: 4120646..4127628 Strand: +>XM_004867405.1 ATGCCCAAGGGTCACCCCCACGGCAGGGCCGAGTGCTCCCTGCGCCTACCCCATCAAGTAGCAGGTCGCCTTTTTACTTTGCTCTCTGATCGTCAGTACCACGGCCGCTGCCCTCCTGGGAACCGAGTTCTAGAGCTCTCCCTTGGGCCCGTGGAGCACAGCTTCTTCCCTATCCTTTCCTCGGCCTGTGATGTGAACAAGCTCCAGCCTGGTGTCCTGAGAGACTGGCGAGGACAGCGCCCTGGGGACTGCGGCTCTGATGTCCTGGCCTCCCTGGCTCCACCCCCTGCGGAATCTCGTCTCTGGCCCCAGCTTTGGTTCCTGGCCTGGAAACCTGCCTGCTGTCCTCAGAGATTTCAGCCTGTCTTGCGTTCCTTTGCACTCAGTCATTCAACAAGTGGACCTGAGCAGCTCCCGGTGCCCAGCCCAGGGCCTGTGGATCTCCGTGTTGGTTTTGCCAGAATGCAGGAAAGACTTGGCTTTGCTGGGCCTCCAGGGGTTGCTGGCCAGTAG
Bpnt1 3'(2'), 5'-bisphosphate nucleotidase 1, transcript variant X3
>XM_004867398.1 ATGGCGTCCGGCCCGGCCGTGCTCATGCGCCTGGTGGCCTCGGCCTGCTCCATCGCGCAGAAGGCAGGCACGATCGTCAGGCGCGTGATCGCCGAGGGAGACCTAGGCATCGTGCAGAAGACCTGTGCTACGGACCTGCAGACCAAGGCCGACCGGCTGGTGCAGATGAGCATCTGCTCTTCCCTGGTGCGGAAATTCCCCAAGCTGACCATCATAGGAGAGGAGGACCTGCCCCCGGAGGATGTAGACCAGGAGCTCATCGAAGACGGCCAGTGGGAGGAGGTCCTGCAGAAGGCATGCCCTACGCAGTACCTCGCCGTTAAAGAGGAGGACCTTGTGGTCTGGGTTGACCCTCTGGACGGCACCAAGGAGTACACTGAAGGTCTCCTCGACAACGTGACTGTTCTCATTGGAATCGCCTATGAAGGGAAGGCCATAGCAGGCATTATTAACCAGCCCTATTACAACTACCAGGCAGGACCCAACGCGGAGCTGGGGCGGACCATCTGGGGTGTCCTGGGCTTGGGCGCCTTCGGGTTCCAGCTGCAGGAGGCACCCGCCGGGAAGCACATTGTCACCACCACCCGCTCACACGGCAGCAAGCTGGTGTCTGACTGCGTGAGCGCCATGGAGCCGGATGCCGTGCTGCGCGTGGGCGGTGCGGGGAACAAGATCATTCAGCTGATCGAAGGCAAGGCCTCTGCCTATGTGTTTGCAAGCCCAGGATGTAAGAAGTGGGACACTTGTGCGCCGGAAGTCATCTTACACGCGGTGGGAGGGAAGCTGACTGACATCCACGGCAACGCGCTGCGGTACAGCAAGGATGTGAAGCACATGAATTCCGCCGGGGTCCTGGCCGTGCTGAGGAACTATGACTACTACGCGAGCCGTGTCCCGGAGTCCGTCAAGAAGGCGCTGGTTCCTTAG
Tgfb2 transforming growth factor, beta 2, transcript variant X2
Length: 1239 bp Location: 2363161..2436688 Strand: +>XM_004867392.1 ATGCACTCCCGCGTGCTGAGCGCGCTGCTGACCCTGCATCTGGTGCCTGCGGCGCTCGCCCTGTCTACCTGCAGCTCGCTCGACATGGACCAGTTCATGCGCAAGAGGATCGAGGCGATCCGCGGGCAGATCCTCAGCAAGCTGAAGCTCACCAGCCCCCCGGACGACTTCCCCGAGCCCGACGAGGTGCCCCCGGAGGTCATCTCCATCTACAACAGCACGCGGGACCTGCTGCAGGAGAAGGCGAGCCGCCGGGCCGCCGCCTGCGAGCGCGAGCGCAGCGACGAGGAGTACTACGCCAAGGAGGTCTACAAGATCGACATGCGCTTCTTCTCCGAAAATGCCATCCCGCCCCCTTTCTACAGACCCTACTTCAGAATCGTCCGATTTGATGTCTCGGCAATGGAGAAAAACGCTTCCAATTTGGTGAAAGCAGAGTTCAGAGTCTTTCGTTTGCAGAACCCAAAAGCCAGAGTGCCCGAGCAACGGATCGAGCTGTACCAGATTCTCAAGTCCAAAGATTTAACCTCTCCAAACCAGCGCTACATCGACAGCAAAGTTGTGAAAACAAGAGCGGAAGGCGAGTGGCTGTCCTTCGATGTGACGGATGCTGTCCATGAGTGGCTTCACCATAAAGACAGGAACCTTGGATTTAAAATAAGTTTACACTGTCCCTGCTGCACCTTTGTGCCATCTAATAATTACATCATACCCAATAAAAGTGAAGAGCTAGAGGCAAGATTTGCAGGTATTGATGGCACCTCCACATATACCAGTGGTGATCAGAAAACTATAAAGTCCACTAGGAAAACAAACAGTGGGAAGACCCCACATCTCCTGCTAATGTTATTGCCCTCCTACAGACTTGAGTCACCACCGTCTAACCGGCGGAAGAAGCGTGCTTTGGATGCGGCTTATTGCTTTAGAAATGTGCAGGACAATTGCTGCCTGCGTCCACTTTACATTGATTTCAAGAGGGATCTTGGGTGGAAATGGATTCATGAACCCAAAGGCTACAATGCCAACTTCTGTGCTGGGGCCTGCCCGTATCTGTGGAGCTCCGACACTCAGCACAGCAGGGTCCTCAGCTTGTACAACACCATAAACCCAGAGGCCTCTGCATCTCCGTGCTGTGTGTCGCAGGACCTGGAGCCGCTCACCATCCTCTACTACATCGGCAAGACCCCCAAGATCGAGCAGCTCTCCAACATGATCGTCAAGTCCTGCAAATGCAGCTAA
LOC101710919 PREDICTED: Heterocephalus glaber uncharacterized LOC101710919 (LOC101710919), misc_RNA.
Length: 659 bp>XR_206184.1 CAACAGACACGCAGGTAGAGGCGTCCAGCATCTGTCCTGTTTTATTTAAGCCCTGGACTTCTGCAGGCTCAGAGGAGCTTCGGGAACGTCAGGCCCGCCCAGCCAGAGCTCCCCTCCTCTATCCTGGCCTCCTCTCCCGCCCTCGGCAGTGAGGGACCCAGGGAGAACCTTCGAGGCAGTGGCCGAGCCCCTTGTTACCTCTTCTCACTTCCTGTGGCCCCTCTGCCGAGGACCAGCTTCTGCCCTCGGAGCTGCTGGCCTGGATCTTAACTTATACAGTGGTATCCAGAACTTGGTTCCTCGAATCATTAAAGCAGAATCAGGAGCCCAGACTGAGTTCCAACAGGCAGACAGCAGAGCAGTAATTAGCAGTTCACTACCGGATGCATCCTGTGGGCTCTGCAAGGGGAAGGAAGCCTGCGGATGACGCCAGGTGCACTGGGACGGGCGGTCCAGTCCCGTGGAGCTCCCTGGTGTGGCCACAGCCCTCCCTGGCCATGCATCAAATACCCAGAAGAGAGGACGTTCAGCTGGGTGTGATATAAATTTCTGACCTGTTCCCTTCAACCAGGTCTGCTCATTTCACTGCTTGTTACCTTCATCGTGCTGTCAACCCCTGCTGTTCCTTTTTCTCTTCCTTCTCATATTTGAGGCTCACA
Gpatch2 G patch domain containing 2
>XM_004867387.1 ATGTTCGGGGCCGCCGGGCGCCAACCGATCGGAGCTCCAGCCGCCGGGAACAGCTGGCAGTTCAGTAGAACCATGGAGGAGCTGGTTCACGACCTGGTCTCGGCCCTGGAGGAGAGCTCAGAGCAAGCCCGAGGTGGCTTTGCTGAGACTGGCGACCACTCTCGAAGTCTGTCCTGCCCTCTGAAACGCCAAGCCAGGAAAAGAAGGGGGCGGAAGCGGAGATCGTACAATGCCCACCACCCATGGGAGACCGGGCACTGCCTAAGCGAAGGCTCTGATTCTAGTCTAGAAGAACCTAGCAAGGACTATCGAGAGAATCACAATACTAATAAAAAAGACCACAGTGACTCTGATGACCAAATGTTAGTGGCCAAGCGCAGGGCATCCTCAAGCCTAAACAATAATGTCCGAGGGAAGAGAGCTCTGTGGCAGGAGTCTGACTTTGCTGTTGACAACCTGGGGACCAGGACTCTTCGCAGGAGGAGGAAGGTAAAGCGCATGGCGGTGGATGTCCCACAGGACATTGCTAACAAACGGACCATGACCCAGCCGCCCGAGGGCTGTAGAGATCAGGACATGGACAATGACAGAGCCTACCCGTATCAAGAATTCACCAAGAACAAAGTGAGAAAAAGGAAGTTGAAAATAATCAGACAAGGACCAAAGATGCAAGATGAAGGGGTAGTTTTAGAAAGTGAGGAAGTAAATCAGAACAATAAAGACAAAATGGATTATGAAGAGCAAAAGGTCTCAGACGAGCTCATGAGCGAAAGTGACTCCAGCAGTCTCAGCAGCACTGATGCTGGTCTGTTTACCAATGATGAAGGAAGACAAGGCGATGATGAGCAGAGCGACTGGTTCTGTGAGAAGGAATCGGGCGGAGCATGTGGCATCACTGGAGTCGTGCCTTGGTGGGAGAAGGAAGATCTCACAGAGCTGGACAAAAATTTACCAGATCCTGTCTTTGAAAGTATCTTAACTGGTTCTTTCCCCCTTATGTCGCATCCGGGGAGAAGAGGTTTCCAAGCTAGACTCAGTCGCCTTCAAGGAATGCCTTCAAAGAATATTAAAAAATCCAGAGGGACCCCATCTTCAATGGTGCCCACTGCGGGCCCGGTCAGCAACAAGAGGATGGTCCACTTCTCCCCGGACTCACATCACCACGACCACTGGCTTAGCACTGGGGCTAGGACAGAGCATGGCCAGCATCAGCTTCTGAGAGATAACCGAGCTGAACGAGGACACAGGAAAAGCTGTTCAGGGAAAACAGCCAGCAGGCAAACAAGCATACATTTAGGGTCCTTATGCACAGGAGACGTCAAAAGGAGGAGGAAAGCTGCACCTTTGCCTGGACCTACTGCCACAGGATTTGTTGGTGAAAATGCCCAGCCCATCCTAGAAGACAACATTGGAAACCGAATGCTGCAGAATATGGGCTGGACCCCAGGGTCGGGCCTCGGCCGAGATGGCAAGGGGATCGCAGAGCCAATCCAAGCCATGCAGAGGCCCAGAGGTTTAGGACTTGGATTTCCTCTTCCAAAAAGCACTTCTGCAACTCCTACCCCTGCTTCAGGAAAATCCCCCTAA
Taf1a TATA box binding protein (TBP)-associated factor, RNA polymerase I, A, 48kDa, transcript variant X1
>XM_004867415.1 ATGCGGCCGACTGCGTGCGGCGAACCTGCGTCGAAAGGGGCGCGGGAAGACTGCGGCGGGGCTCACCCGCACTTCCTTCTGGATGTTCTGAGGACGCAAGATATGAGTGATTTCAGTGAAGAATTGACAAGGCCTGAGTCAGAGGATGACCAAGAGGAGGCATCTACGGTCTCTGGTACAAGAGTGTACTTTCCGTGGCTTCAGAAGCATCTAGATACTGTAGCGACTGGAGGGAAAAAGAAGAAAGACTTTGCTCAGACCACAGGTGCCTGTTTAAGTTTCATCCGGGAGGCCCTGCTGAAGCACCAGTGGCAGCAGGCCGCCGAGTACATGCACAGCTACCTGCAGATCCTGGAGGATTTTGACAGCAACCAGAGGCAAACAGCGCCAGAGATCATATGGAAGCTTGGAAGCGAAATTCTATTTTATCACCCCAAAAGCAGCGTGGAGACTTTCAACACCTTTGCAGACCAGATGAAGAACATTGGCGTCTTGAACTATTTGAAGATCTCCTTACAGCACGCGCTGTACCTCATTCACTGCGGGAAGCTGGAGGAGGCGAGCAGAAATCTCAGTCAGGCAGAGACGTGGAGATACGGGGAGAAGTCATCCTCCCAGGAGATGCTGATCAACCTGGCGCAGGCCTATAAGGGGCTCTTGGAATATTTCAGTTGGTCTAAAAAGAAGATGGAATTGTCAAAGCTTGATAAGGATGATTATGCTTATAGCACAGAAGCCCGAAATATATTCAGCCACAGCTGGAAAACATCTGTAAATTTTAGTGCACTGATTAAAACTCCTGGAGTTTGGGACCCTTTTGTGAAGAGTTACGTAGAGATGCTGGAATTCTATGGTGACCGAGACGGAGCCCGAAAGGTGCTCACCAGCTACGCATATGATGAAAAGTTCCCTTCAAACCCGAATGCCCACATCTACTTGTACAACTTTCTAAAGAGAGAGAAGGCACCAAGAGCGAAACTGCTAAGTGTGCTTAAGATTTTGTATCAGATTGTACCATCTCATAAACTGATGTTAGAATTCCATATGCTACTTAGAAAATCAGAAAAAGAGGAACACCATAAACTGGGATTGGAAGTGTTATTTGGGCTCCTGGATTTTGCTGGATGCACTAAGAACATAACTGCTTGGAAATATTTGGCAAGCTATCTGAGACAGATTTTAATGGAGAATCGTGTTGCATGGGTCCAGGAAGAGTGGAAGTCCAGGAGGAACTGGTGGCCAGCCTTCCATTTCAGCTACTTTTGGGCAAAAAGTGATTGGAAGGAAGATAAAGATTTGGCTTATGAGAAAGCACTGGTAGCTGGAATGTTATTAGGAAAAGGTTATAGGTATTTTCGATATATTTTAAAACAAGACCATCATGACCTAAGGAAGAAAATTAAGCAGATGAAGAAATCAGTGAAGAAATACAGCATTGTAAAACCAGCAGTATGA
Cnih3 cornichon homolog 3 (Drosophila), transcript variant X1
>XM_004867457.1 ATGCGAGCCCAGTGGATCTCATTTCACCCAGTCTCCAGCAGCCAAGCTGCCTTGGTAACGAGGCGCAGGAGACGACACAGCTGTGTTCCTGTGGCTTTGGAAGCCGACACAGCCCTGCAGGAAAAGGTGGCCAGGACCCAGGTATGCAGTGAGTGCTCCGTCAGCAGCGGGGACAGTGGCAAGGACGGCCAGGGAGTGGGCTGTGCTCCGGGTCCTGCTCCCCCAACTCTGTTCTCTTTCCTCCCCGTGCACCCAAAGAGGGAGCGGCTGAGGAACATCGAGCGGATCTGCTTCCTTCTTCGAAAGCTGGTGCTGCCCGAGTACTCCATCCACAGCCTCTTCTGTGTCATGTTCCTGTGTGCTCAGGAGTGGCTCACCCTCGGCCTGAACGTGCCCCTGCTCTTCTACCACTTCTGGAGGTACTTCCACTGCCCGGCCGACGGCCCAGAGCTGGCCTATGACCCACTGGTGGTCATGAACGCGGACACCCTGAGTTACTGCCAGAAGGAGGCCTGGTGCAAACTGGCCTTCTACCTGCTCTCCTTCTTCTACTACCTGTACTGCATGATCTCCGCGTTGGTGAGCTCCTAA
Ush2a Usher syndrome 2A (autosomal recessive, mild)
>XM_004867461.1 ATGGACTGTCTGGCTCTTTCCCTGGGCTTCGGCTTCTTGTTTCGGGTCATTGAAACATTGATCTTTGCCTATGTGGCATCGGTATCATTGGCTGTCTCCGGGGGCCTCTTCCCAAGGCTGGAGAATGTGGGTGCCTTCAAGGGTGTCTCCATTGTGCCAGCCCAAGCCGTGTGTGGCCTCCCAGGCCCGAGTGTGTTTTGTGACAGCTCTACAGCTGCTGAAAGTATCCAGTTCTGTACCCAGCGGCTCTGTGTTCAGGATTGCCCCTACCGCTCATCTTCTGCTCCGTACACAGCCCTTTTCTCGGCTGGTCACAGCAGCTGCACCGCAGTGGACAAGAGCGATCTGCGTCCTCACTCCCCTAGCAATTCTACAAGTTTTATTTTTGGAAAGCACAAGAACTGCTTCCCTTCTCCTTCTCCGAGGCTGGCTGAAGCATTCACTTTAGCTGTGTGGCTGAAACTTGAGCAAGAAGGTGAAATGTGTGTTATAGAAAAGACGGTGGATGGGCAAAGTGTGTTCAAACTTACAGTATCTGAGAAAGAGACCATGTTTTATTATCGTACAGTGAATGGTTTGCAGCCTCCAATAAAAGTAATGACACTGGGGAGAATTCTTGTGAAGAAATGGATTCATCTTAGTGTGCAGGTTCATCGAACAAAAATCAACTTCTTTCTCAATGGCGTGGAGGAGGGTAACATGGCTTTCGATACAAGAACTCTAAGTGGATCCATTGCACATTTTGCTTCTGGAACTATACAAATAGGACAGAGTTTAAATGGTTTAGAACAGTTTGTTGGAAGAATGCAAGATTTTCGATTATACCAAGTGGCACTTACAAACAGAGAGGTTCTGGAAGTCTTCTCCGGAGGTCTGCCTCGGCTGCACGTCCAGTCACACTGCCGGTGCCCTGGCAGTCACCCCCGCGTCCACCCTCTGCTACAGCAGTACTGCGTCCCCAACGGAGCAGGGGACACGGTCAGAGACAGAGTGTTAAGGCTGGGTCCCAACGCCCACCCTCTTTCTTTTGTCAATGATAACGATGTCGGTACTTCGTGGGTCTCACATGTGTTTGCCAACAATGCCCAGCTTGATGGAGGAGTGACAATTTCAGTGGATTTGGAGAACGGACAGTACCAGGTGTTTTATATAGTCATTCAGTTCTTTAGTCCACAACCAACAGCAATAAAGATTCAAAGGAAGAAGGAGGACAGCTTGGATTGGGAGGACTGGCAATATTTTGCTAGAAATTGTAGTGCTTTTGGAATGGAAAACAATGGAGATTTGGAAAATCCTGATTCTGTCAACTGTCTTCAGCTTGACAAGTTTACCCCGTATTCCCGTGGTAATGTCACATTCAGCATCCTGACACCTGAACCAAAGCATCGTCCTGGATACAATGACTTCTATAATACCCCATCCCTTCAAGAATTCATAAAAGCCACACAAATACGGCTTCATTTCCGAGGGCAGTACCATACAGCTGATGCCGCTGTCAACCCTAGACACAGATATTACGCGGTGGCTGAAATCACCATTGCTGGCAGGTGTCAATGCCACGGTCATGCCAGCAGGTGTGACACAGCGACCCGGCCATACAGGTGTCTCTGCTCCCCGGACAGCTTCACCGAGGGACTTCACTGCGACCGGTGCTTGCCTCTGTACAACGACAAGCCTTTCCGTGGAGGGGATCAAGCACATACTTTCACCTGCAAACCTTGTCAGTGCCACAACCACTCCACCAGCTGCCACTACGACGCCTCAGTGGACCCATTTCCCCTGGAGCTTGGCAGGGGGGGAGGAGGAGTGTGTGACGCCTGCCAGCACCACACTGCAGGAAGGAACTGTGAGCTGTGCAAGGATTACTTCTTCCGAGAAGTTGGCGCCGAGCCCTCAGCCGCGGATGTTTGCAAACCCTGCGACTGTGAGCCCGCGGGCACCAAGAGCGGGAGTCTCTCCTGTGACCAGACTGGAGGCCAGTGTAATTGTAAGAGACACGTGTCTGGCAGACAGTGCAATCAGTGCCAAGCTGGATTCTACAGCCTGCGAGAGTCGGATGCTGATGGCTGCAGCCCCTGTGGCTGCAGTACCTCGGGGACTGTGGATGGAGACATTACCTGTCACCCCGACTCAGGCCAGTGCAAGTGCAAAGCAAACGTTACTGGGCTTAAATGTGATCAGTGCAGTTTTGGATTCAAATTTCTCCGAAGTTTCAATGATGATGGATGTGGGCCCTGCCAGTGCAACCTGCACGGCTCAGTGAACAAAGCCTGTGACCCTTTCTCCGGCCAGTGTGACTGTAAGGATGAAGCCAGAGGCCTGCAGTGTGACACATGCAGAGAAAACTTCTATGGGTTGGATGCTACCGGCTGCAAAGCCTGTGAGTGTGACGCCGCTGGCTCGGTCCCTGGGACCGTCTGCGACGCTGAGACAGGGCAGTGCGTCTGCAAGCCCAGCATTGGAGGCAGGCAGTGCGAGGACTGTTTGGAGGGCTCCTTCTACCTAGCGCAGAATGATTCGTTCCTCTGTCTGCCCTGTGACTGTGACACGTCTGGGACAGTAAATGGCTCTCTGGTGTGTGACAAAGCGACAGGCCAGTGTCCTTGCAAACCAGGGGTGACGGGTCTGCCCTGCAATCAGTGTGAGCCTCACAGGTACAATTTGACCACAGGCAGCTTTCAGGGCTGCCGGACGTGTGATTGTGACTCCCTGGGGACGTTCCCTGGGACCACGTGTGACCCAGTCAGTGGCCAGTGCTGGTGTTTGCCTAACCGTCGAGGAAGAACGTGTAATCATTGTCAGCCAGGTTTTTACATTGCTCCAGGCAATGCCACTGGCTGCCTGCCGTGTTCATGCCACACAACGGGAGCGGCGGGCCGCATCTGTGACAGCCTAACTGGACAGTGCCCTTGCCAAGATGTGTCCATCACCGGGCACAGCTGTGACCAATGCAGTGACCACTACTTTGGATTTGACCCTCAGACTGGAAGATGTCAGCCTTGTAATTGTCGCCTCTCAGGAGCCTTGAATGAAACCTGTCACTTGGTCACAGGCCAGTGTTTCTGTAAACCATTTGTCATGGGTTCGAAGTGTGAGGCTTGTGTTCCTGGCGCCAGCCACTTGGACGTCCACAACCCATGGGGCTGCAGCAAGATTCCATCCCAGCAACCTCCACCCAGAGGAGAAGTCCACAGTTCTTCTGCCATCAGCCTGACCTGGAGTCCACCTGATTCTCCAAATGGCCCCTGGCTTACCTACCGTTTACTCAGGGGTGGTTCTGAAATCTACACATCTGAAGATCAATACCCATACAATATCCAGTACTTCTTAGACACTGCCCTGTCACCTTATACTTCATATTCCTATCACATCGAGGCCACCAACGTGCATGGCTCAACACGGAGTGCAGCTGTCATTTACACAACAAAGCCAGGGCTTCCACAGGGGCACCTGAACCTCAGTTATGTTGTCCCTGTGGGCTCTAACTCGGTGACACTTACCTGGGGTGCACTTTCAAATCATTCTGGTCCTATAGAGAGGTACACTGTGTCCTGTGTTCCTTCAGACAACCTCACGTCATGTGCTCCCTATGAAGGTCTCAAAACCTCAGCCACCATCTGGAATCTGACTCCGTTCACCAAGTACCAGTTTTCGGTCCAGGCCTGCACTAGCAGGGGCTGTGTCCAGGGCTCCCCCATCATGGTGACTACGGCCCAGGCGCCACCGCAAAAGCTGAGCCCGCCCAAGATCTGGAAAGTCGGTGCCACCGAGCTCCGTGCAGAATGGGCTCCACCAGCGGAAGCCAACGGAATTGTTATAAAATATGAGTTGTACATGAAAAGACCGCGATCCACGGAAGAACTGCGAGTGTTTCAGAGCAGTGGCTGGCTCAGTCCTCAGTCTCCTGCAGAACCAGCCCATGAAGACACACAAAGACCTCCTCAGACAGCTGCTGCCATCATTGGTCTGGAGCCCTACACCGAGTATGCGTTCAGGGTCGCAGCCCAGAACATGGTCGGGAGAGTGTTTTCCACCTGGATCTCAGAGAGGACAGGAGAAGCAGCACCTGTCTTCATGCCTCCTCCTTCAGTCTTTCCCCTCTCCTCGAACTCTCTCAATGTCTCCTGGGAGAAGCCTCCAGAAAATGTGACAAGAGGAGGAATTGTGGGGTATCTCATCAGTATGGTCTCTGAGCAATCGCCTCAGCAATCTGGCCCGGTGGTGTTTCAACAGCTGTTGCACACGGCTCAATCCCAGGAGCTCTCTTACACCGTCAGAGGACTGAAGCCTTACAGGATATACATATTCACCATTTCCCTCTGCAATTCGGTTGGTTGTGTAACTAGTGCTTTGGGAGCAGGGCAGACTTTAGCAGCAGCACCTGCCCAGCTGAGGCCTCCTCTGGTGAAAGGAATCAACAGCACCACAATCCATCTTACATGGTTTCCACCCGAAGAAGTAAACGGGCCCTGGCCTGTGTACCAGCTAGAAAGGAGAGCGTCGTCTCTATCAGCTCCAGTGGCCACCATGATGAAAGGAACTCGTTTCACAGGAAGTGGGTATTATAAATTTCCCAGCACCACTCACCGCCTCGGTACTGACTTTACTGGCATTAAAGCCAGCTTTCGAACGAGGGTGTCTGAAGGCTTGATCTTCTTTGCAGCGTCTCCCGGCAATCAGGAGGAGTATTTTGCACTTCAGTTGAAGAAAGGCCGTCCTTATTTTCTTTTTGATTCTCAGGGGTCCCCAGTGGAAGTCACCACAACTAATGATCATGGGAAGCAATACAGCGATGACCAGTGGCATGAGATGATTGCTGTTAGACACCAGGCTTTTGGCCAGATCACCCTGGATGGTCGGTACACAGGCTCTGCGGCCACCCTGAACGGCAGTGCTGTCATCGGAGACAATGCAGGGCTGTATGTGGGAGGCCTGCCCCTGGGTTACACCGTCCTCAGGAGGGACCCCGAGATCACCCAGAAAGGTTTCGTGGGCTGTCTCAAAGATGTTCATTTTATGAAGAATTACAATCCCTCTGCTGTTTGGGAACCTCTGGATTGGCAGAGCTCTGAAGAGCAAATCAATGTCTACAATAGCTGGGAGGGATGCCCTTCTTCATTGAGTGAGGGTGCCCAGTTTCTAGGAACAGGGTTCCTGGAACTCCATTCAGATGTGTTTCATGGTGGAATGGATTTTGAGATTTCTCTTAAGTTCAGAACTGACCAAGTAAATGGATTGCTGCTTTTCATTTACAACAAAGATGGACCCGATTTTCTTGCTGTGGAGCTGAGGAGTGGAGTATTGAGCTTCCGGTTAAATGCCAGTCTTACCTTTACGCAAGTGGATCTCTGGCTGGGTCTGTCCTACTGTAATGGAAAATGGAACAAAGTCGTTATGAAAAAGGAAGGCACGCTCCTAACAGCAGGCCTGAATGCACTGATGGAGCGCTACTCAGTCCCTGAAGCGCGGCCCCTGGTGGTGAATTCGCCCGTCCACATTGGGGGGATCCCACAGGAACTGTGGGATGCTTATGGACACTTGAGTCTGGAACAAGGTTTCAGCGGCTGCGTGAAGGATGTTACATTTTCGAGGGGCGCTGTCGTTAACTTGGCATCTGTGTCCAGCTCCGCTGTCAGAGTCAATCTGGATGGATGCCTATCACCTGCCAGCGCTGCTAACTGCAGGGGAAATGACTCCATCCCGGTGTTCCGAGGACGCCAGCGGAGCGCTCGAGACAGTGGGCTCCAGCCCTTCACAGAATACCTGTATCGAGTGAGAGCCTCCCACGAAGGAGGTGCGGTATACAGTGAGTGGAGTCGGGGACATACGACAGCAGCAGCTCCGCCAAGTGTGCCAGCTCCATCCAGAGTCCGCAGCATCGATGGCTACAGTGTCGAGGTGACCTGGGATGAACCTGTGGGGGTTAGAGGTGTCATCGAGAAGTACGTGCTGAGAGCCTACAGTGGGAATGGCCCCCCTGTACCCCGAACGCCCTCTGCCAGCGCTGAGTTTGTGGATACCACTACCTTCACAGGTATGTTGACAGGCCTGCTGCCATTCAGAAACTACACGGTAACCCTAACTGCATGCACCCTGGCCGGCTGTACGGAGAGCTCACAGGCAGTGAACATCTCTACTCCACAAGAAGCCCCACAAGAAGTTCAGTCACCAGTAGCCAAATCCTTTCCCAATTCCTTGCTACTCTCCTGGAGTCCACCCAGCCAGGCAAATGGTGTTGTAACTCAGTATTCTCTATACATGGATGGGAGGCTCATCTATTCTGGCCATGGGGAGAACTACACAGTCACAGACTTAGGAGCGTTTACTTCTCATCGGTTCCTCCTCAGCGCATGCACCCTGGGGGGATGTGCAAACAGCTCCTGGGTCACACTGCACACGGCACAGCTGCCCCCTGAACACGTGGCACCCCCCGTTCTGACCGTCCTGGATTCTAGGACTGTACACGTACAGTGGAAACAACCGAGGAAACTCAATGGAATTCTGGAACACTATATACTATATGTTTCAAATCACACACATGATTTTACAGTTTGGACTGTCGTCTATAACAGCAGTGAACCCCTCCAGGATCTCATGCTACAGGACCTTACCCCTGGTAATAAATACCGCATCAAGTTGGGAGCGTGCACCGGGGGCGGCTGCATGGTGAGCGAGGCCAGCCAGGCCCTGACCCACGAGGACATCCCGGAAGGAGTGGCCGCCCCCGAAGCTCCCTCCTACTCCCCGGGCTCCTTTAACATCTCCTGGATGCAGCCGGAGTATCCGAATGGCGTTATCACAAGTTACGGAGTATATCTGGATGGCGTATTAATTCAGAGCTCCTCAGAGCTCGGCTGCTACGCCCACGGGCTTGCTCTCGGGAGCCTACACTCCTTCAGAGTCCAGGCGTGCACGGCCAGAGGCTGCGCCGTGGGCCCCCTGGTGGAAAATCGAACTCTGGAAGCTCCTCCTGAAGGAACAGTAAATGCGTTTGTCAGAACAGAGGGGTCCCGGGAAGTCCGTGTGACATGGGGCGCACCGCTGTACCCCAATGGACACTTAACGTACTCCGTCCTTGTTACTGGGATCTTCTATGCAGACCAAGCAGGAAATAATTACACTCTTCTGAGTGGCACAAAAGTTATCCACAGCAGCGAAGAGGCCAACCTTTGGGTGCTCATCGTTGGGTTGGTCCCTTTCAGCAACTACACTGTGACAGTGAACGCTTTCAACACCCGAGGCAGCTTGACAAGCAAGCCTGTATCCATCGCGATGCCTCCAGGGGCTCCAGATGGTGTGCTGCCTCCCAGGCTTTCATCTGCCACCCCAACCAGTCTTCAGGTTGTCTGGTCTACACCAGCTCGGAACAACGCTCCTGGCTCTCCCAGATACCAGCTCCAGATGAGGCCTGCCCACACCAGCCACGGCTTCCGAGAATTATTTTCCAACCCTTCTGCATTGTTGAGCTATGAAGTGACCGATCTCCAGCCATGCAGTGAGTACGAGTTCCGGCTGGTTGCCTCCAATGCATTTGGCAGTGCACACAGCTCTTGGATCCCACTCTTGACTGCAGAGGATGGACCTGGAGCCATGGAGCCTCCAATCCTTCGGGACGTGAGGTCGACAACAATATCAGTCACTTGGCACCCTCCCTTAAAGCCCAACAGGGTCATCACTCATTATAACATTTACCAAAATGGCGACCTGTACTTGAGAACGTCGGGAAATGTCACTAATTGCACAGCAACGCATTTACAGCCGCATACTGCCTACAAGTTTCAGGTAGAAGCCTGTACCTCCCAAGGATGCTCCCTCTCCCCAGAGTCCCAGGCCACATGGACACTCCCAGGGCCACCCGGAGGTATCCTGAGTCCAGAGCTGTTCTCTGATACTCCAACATCGGTCATTATATCTTGGCAACCCCCCACCCACCCCAATGACTTGGTGGAGAACGTCACAATTGAGAGAAGGGAGAAAGGGAAGGAAGAAACCAGCACCTTGGTGACCCTCCCAGGAAACCACTTCACAAGGTTTATTGACAAGACTCCTGCTCTCAGCCCATGGACACAATATGAATACCGGGTCCTGGTGGGCACACTTAACGGAGGCACCAACAGCAGTGCTTGGGGAGAAGTCACCACAAGGCCCTCGCGCCCCCTTGAGGTGCAGCCACCAGAGGTGAAGGTGCTGGGACCTGACTCAGCTAAGGTCACCTGGAAAGCCCCGTTCATGCCGAATGGCAACATCCTGAGCTATGAGATCCACATGCCCGACCCCCACGTTACAATCACCAATGTGACCCCTTCTGTGTTAAGCCAAATAATCACTCAGCTGTCTCCTTTCACCAATTATTCTGTCACCGTAATTGCCTGCTCGGGGGGTAACGGGCACCTAGGTGGGTGCACAGAGAGCTCGCCTACCTTGGTGACCACCCGCCCTGCTGCACCTCAGGGTGTCAGCCCACTGTCAGTGACTCCTCTCAGTGAGTCCTATGTCGGAGTCTCTTGGCAGCCACCATCCAACCCAAATGGACCTGATTTGAGATATGAGCTTCTGAGATGCAAAATCCAGCAACCTCTTGCATCAAATCCCCCAGAAGATTTAAATCTGTGGCACAATATTTATTCAGGAACTCAGTGGTTTTATGAAGATAAGGGTCTTAGCAGGTTTACAACCTACAAGTATAAGCTCTTCGTGCACAACAGTATAGGTTTCACGCCAAGCCTAGAAGCAACCGTGATCACATTAGCCGGTTTTCCGGAGAAGGGAGCCAACATCTCCGTGAGCGTCCTCAACCACACGGCCATCGATGTGAAATGGGCTAAACCAACTTTTCAAGACCTACAAGGAGATGTTGAATATTATACTCTTTTCTGGAGTTCTGCTACCTCGAACGAATCTCTGAGAATCCTCCCAGGTGCAAGCTCTTACATCATTGGCCACTTGAATCCGAACACAGAGTATTGGATTTTTATTTCTGTCTTCAATGGAGTCCACAGTATCAATAGTACAGTCTTGCAAGCAACCACCTGTGATGGGGAGCCTCAGGGTATGCAGCCGCCAGAGGTTGTCATCATCAGCCGCACAGCTGCACGCGTCATCTGGTCAACCCCCTCAGACCCAAATGGTGCCGTCACCGAGTACTCAGTCTATGTAAACAATAAGCTCTACAAGACCGGAATGGATGTGCCCGGGTCGCTTATTCTGAGAAACCTGTCTCCCTTCACTGTCTATGACATTCAGGTTGAAGTCTGCACACAATATGCATGTACAAAAAGCAATGGAACCCAAATCACTACTGTGGAAGACACCCCCAGCAACATAGCGATACCCTCGATTCACGACATCACGTCAAGATCCCTTCGAATTGATTGGGTGTCTCCAGGGAAGCCAAAAGGCATCATTCTTGGATATAATCTTTTACGGAAAACATGGCATCCATGCTCTAAAACCCAGAAGTTAATGGAGGAACACAGCAATGACTTCTGCAAGGTGGTGAAGTGCCCAAAACCTAAAAATATCTGTGGACATATTTGCTTTTCTCCCGAAGCTAAGGTTTGTTGCAATGGAGTTCTCTACGAGCCCCAGCCTGGATACCACTGCTGTGAAGAAAAGTATATCCCATTCCTTCCAAATTCCACTGCAGTTTGTTGTGGTGGCAGAATACAAGAGGCCCAGCCCAACCATGAGTGCTGCTATGGGTATTATGCTAAAATACTACCAGGTGAAATCTGCTGTCTGGATGAACAGCACGGCCGGGTTTCCGTGGACCTGGGCGACGCCTGCTGTGGCCGGATGCCCTACTCGTCCGCGGGGCACCAGATGTGCTGCGGGGGGACCCTGCACGACGGCCGGGGGCGGCAGTGCTGCGGGGGGCAGGTGGTGAGCAGCGACCTGCAGTGCTGCGGGGGAGCGGCGCGAGGCCTGGCATACGCGCACCTGCCAGGAATGTTCTGTTGTGGGCAGGATTATGTGAATATGTCAGATACCATATGCTGCTCAGCCTCCAGTGGAGAGTCTAAGGCACATGTTAAAAAGAAGGTCCCATTGCCAGTAAAATGCTGTGAGACTGAACTTATTCCAGAGAGCCAAAAATGCTGTAATGGAGTTGGATATAATCCTTTGAAATATGTTTGCTCTGACAAGATTTCAACTGGAATGATGATGAAGGAAACCGCAGTTTGTGGGACTCTGTGCCCAGCGTCTAAGGAAGCCACTGCTTACTGTGGACACTGTGACTTCAACTTCACCAGCCACGTTTGTGTTGTGACAAGCAGGTCCCTCAATTCCACAGGGAAGGCATCGACTGAAGAAATATGCCCGTCTCCCGAAGAGATTGTTCATACAGGAGACATGAACACATTCTCCTTCACAGATGTGAACCTCGAGCCCTACATCATGTATGAATATAGGATTTCTGCACGGAACAGCTATGGGCCAGGGCTCAGCCATCCTGTTAGAGCCAGCACGAAGGAAGATGTTCCTGAGAGTGTGCGTCCCCCCCGGTGGACCACAGTGGGCGACCCTGAAGATACAGTTGTCTTACACTGGAGGAAACCTATACAGCCCAATGGTCCTATTACGTACTATATTATTCTCCGGAATGGAATTGAACGATTTCGGGGAACTTCCTTGAGCTTCTGGGATACAGAGGGAATCCACCCATCCCAGGAGTATTCCTACCAGCTCCAAGCTTGCACTGTGGCGGGCTGTACTGCCAGCCGTGAGGTAGTCGTAGCTACTACCCAAGGAGTCCCGGAGAGCGTGGAGCCACCCAGTGTCACAGCCCTCAGTGCAGAAGCTCTGCATCTCAGCTGGAGCGTCCCAGGGAAACCAAACGGCGTCATTAAAGAGTACCGGCTCTGGCAGGAGGGCAGAGGTGTCATCTACATGGACACCACTCACAGGAGGCAGCATACGGTCACAGGTCTGCAGCCACACACCAGCTACAGCTTCACACTTGCGGCCTGTACATCTGCTGGGTGCACTTCCAGTCGGCCTTTTCTAGGTCACACACTGCAGGCAGCCCCGCAAGGGGTCTGGGTGACAGCTCGACACACTATCATCAGTTCAACATCGCTGGAATTGTACTGGAGTCCACCAGAGAAACCCAATGGTCTTATTTCTCAGTATCAGTTGAGTCGGAACGGAACTGTGCTTTTCCTGGGTGGCAGTGAGGAACAGAATTTCACTGACAAACACCTGGAGCCCAATACCAGATACATTTATAAGTTAGAAGCTAAAACTGGAGGTGGCAGCAGGACTAGTGATGGTTACATTGTCCAAACACCTCTGTGGACACCAGAAGAAATCCATCCTCCGTATAATGTCACAGTAGTTGGACCTTATTCCATATTTGTTGCTTGGACACCACCAGGGATCCTCATCCCCCAAATCCCTGTGGAGTACAACGTCCTACTCAATGATGGGAGTGTCACACCTCTGACCTTCTCTGTCGCTCACCAACAATCCACCCTTCTGGAAAATCTGGCTCCTTTCTCACAGTATAAGATAAGGATACAAGCATGTCAAAACGGAAGTTGTGGAGTTAGCAGTAAGGTGTCTGTCAAGACCTCTGAAGCAGCCCCGGAGGATCTTAGTCCCCCTCTTCTCAAGGTGCTGGGGTCAAGGTGCATAAAGGTCCAATGGATGCCACCTCAAAAGCCAAATGGAATCATCACTAACTACTTCATTCACAGACGTCCCGCTGGCATGGAAAATGTGTCCCTCGAGTTTGTCTGGTCAGAAGGGACCCTCGAATTCACAGATGAAGCTGGGACACTGAGGCCTTTCACGCACTATGAGTATCGGGCCAGAGCCCAGAACTCCAGAGGCTGTGTGGACAGTGCCTGGTCTTCTGCACGGACCCTGGAGGCCCCTCCGCAGGCCCTGGCAGCTCCCTGGGCTCGAGCCACCGGAGCCCATTCTATTCTGCTGACCTGGATGGAGCCAGAGTCACCCAATGGCCTCATCTCCCAGTACAGCGTGGTCTACAGAGAGAGCACCGAGGACCTGGCACCAGGCAGCGCCCCTGTGCGCGCATTCACAGTGACGGGAACAAGCCACCAAGCCCACCTGTTCGGCTTGGAGCCATTCACAACGTACCACATTGGCGTGGTGGCTGCAAACCTCGCAGGAGAAGTTTCAAGCCCCTGGACTCTGGTTCAAACCTTGGAATCTTCCCCAATGCGGCTGAGCAACTTCACTGTGGACCAGAAAGAGAACTCCCGGGCGCTGCTGCTGCGGTGGGCAGAGCCCATGAGGATCAATGGGGTAATCAAGCTGGAGAGGCTTCCCTTTCCGAAGTCAGTCAGGGGCAGGGTGCGTCTTGGGTGTAAGTCCCGAGCCCCAAGCGCCTCCCTCGCTTCTCCCCCGCAGGCCTCCCGCATCTTCAGCCCAGGGCTCCCGCGATGCCGAGTCCTGCTTCGCTGCCCCCTGCTGGGCGCCGCCTACGCGCTGAGCCCGCGGGCCAGCAGGGCGCCGGGCTGCTACAGAGCGTGCGCCCGGGACGCGGCGGGGCGGGCCTGGCGCGCCGAGCGCACGCTGCCGGCGCCCCCGGAAGGGCTGCCCGCGCCCGGGCTGGCCTGGAGGTCCGCCAAGCCCCCCGCCCTGCTGGTCTCCTGCGCGCTCGGAGGCTGCGCCGCCAGCGGGGCCGCGCGGGTCAACACGCCCGAGGCCGCTCGGTCGGGACTCCGCCCTTCGGCTCTGCGGGCCGTCAGTGCCAGCCACATCCACGCGTCCTGGTCCCCACCGTCCAGCCCAAACGGGGAGGCCACTCAGCATCGACTGAGGTTCGCCGGCCCGGAGGAGCCCGCGGGGTGGGGCCTGTCCCTCCTGGTGTCGCACCTGCTGCCCTGCACGCGCCACCGCTTCTCCCCCGTGGCCTGCACGGGCGGGGGGTGCGTGGCTAGTGCGCCCAGGGCCGCCCGGACCATGGAGGCCCCGCCGGAGGCCATGGCTCCCCCCGCGCTGCAGGTGACAGGCGCCCAGTCCATAGAGGTCACCTGGGAACCCCCCCGAAGCCCAAACGGCCGGATCCCGAGCTACGAGCTCAGGAGGGACGGAGCCCTGGAGTACACCGGCCTGGAAAGGCGCTATCACGATCCCACTGGGCTCGCCCCGGGGGCGGAGTACGGCCACACGGTAACGGCCACCAACTCCCAAGGGGCCGTTTCCAGTCCGCTAGTCAAAGAGCGAACCAGCCCCTCTGCGCCCGCCGGCCTGCAGCCCGCCACACTGCACACCAGGGGCCCTCGGGAGATCTCCGTGAGCTGGGACCCTCCGGTGAGGACCAATGGCGACATCGTCAACTACACTGTCTTCACCCGCGAGCTGTTGGAGGGAGAAACGAGAACCATATCCATGAACAAGACCCAGGGCTCTTTTGGTGCCAGGTCGCTTGTAGTGGAGCAGCTGGAGCCGTTTCACAGGTATGAAGTTCGGATCCAAGCCTGCACGGCCCTGGGGTGCACATCAAGCGACTGGGTCACCCTCCAGACCCCGGAGACGGCTCCTCTTATGCAGCCTCCTCCTCATCTGGAGGTGGGGATGGCACCAGGGGGCTTCCAGCCCACCGTTTCTCTTCTATGGACAGGTCCTCTCCAGCCAAACGGAAACATTTTGTACTATGAATTGTACAGAAGACAAACAGCAGCTCAGCCTGGAAGAGCCAATCCAGTGCTAACCTACAATGGGAGCTCGAACTCCTTTATGGATTCTGAACTGCTGCCCTTCACCGAGTACGAGTACCAGGTCTGGGCAGTGAATTCGGCAGGAAAAGCCCCCAGCAGCTGGACGTGGTGCAGAACCGGGCCTGCGCCCCCCGAAGGCCTCAGCGCCCCCACCGTCCACACGGTATCCTCCACCCAAGCCGTGCTCAACATCAGCGTCCCTGCGAAGCCCAACGGGGACATCAGTCTCTACCGGCTGTTCTCCAACACCAGCGGCGCCCTGGCTGTGCTGTCGGAAGGCACGGCCACCCAGCAGACCCTTCACAACCTGCATCCCTCCACGGCCTATGCCGTCGGGGTGGAGGCCTGCACCTGCTCCCACTGTTGCAGCCTTGGGCCTACGGCGAAGCTGAGGACGCGCCCCGCTCCGCCCTCCAGCCTGTCCGCTCCCCGCCTCCAGGAGCTGGGCTCCAGGACGGCCTCCGTCCAGTGGCGGCGCCCCCTGTTTCCCAACGGTGTCCTTCGAAGCTATGAGCTCCAGCTGTCCGTGGCCTGCTCTCCAGATTCAGCCCTCCCCTGTGCTCCCAGCCAAGCAGAGACAAAGTACAGAGGACCAGGGCTTAGAGCCAGCCTCATGGGCCTCCAGCCTTACACTGCCTACCTGCTCAGAGTGGTGGTGCACAACGAGGCGGGCAGCAAGGCTTCTGAGTGGATCCACTTCCTCACTCACACAGAACTGCCTCAGTTCCAGGTGCCGTTTTCTGTGGACAGCAACGTGTCTATGGTGTGCCTGGACTGGAGAGGCACCTTCCTCCTGAATGGCCCGCTCAAGGAATACGTGGTGACCGATGGGGGGCAGCACATCTACAGCGGTCTTGACACCACCCTCCACATACCCAGGAGAGCACACAAAACCTTCTTTTTCCAGGTCACCTGCACTACAGATGTAGGAAGTGTTAAGACACCATTGATCCAATATGACACCTCTAGTGGATTTGGTCTGGTGCTGACAACTCCTGGAGGAAAGAGGGGCTCCGGGAGCAAAAGCGGAGAATTCTACAGCGAGCTGTGGTTCATCGTGTTACTGGCGGTGCTGGGCTTGATCTTATTGGCCATTTTTCTGTCCCTGATACTACAGAGAAAAATCCACAGGGAGCCATACATCCGAGAGAGGCCCCCCTTGGTGCCCTTTCAGAAGAGGATGTCGCCTTTGAATGCCTACCCTTCGGGGGAAACCCCAGTGGGATTAGCTGATACCAGAATCCCTCGGTCAGGGACACCCACGAGTCTCCGGAGCGGCCGGAGCGTGTCTGTCCTGAGGATCCCCAGTCAAAGCCAGATCAGCAGAGCCTGTTCCCAGGGCTCCCTGCACCACAGCGCCAGCCAGCTCGTGGACATTCAAGACAAGAAAGTCCTCCTTGATGACTCGCTGTGGGAAACCATCGTGGGCCACGGCAGTGGACTGTATGTGGACGAAGAGGACCTGATGAATGTGATCAAGGGTTTCAGCTCAGTGAGCAAGGAACACACCACGTTCACTGACACCCACCTGTAA
Enah enabled homolog (Drosophila)
>XM_004867469.1 ATGAGTGAACAGAGTATCTGTCAGGCGAGAGCTGCTGTGATGGTTTACGACGATGCCAACAAGAAGTGGGTGCCAGCTGGTGGCTCCACAGGGTTCAGCAGAGTCCACATCTATCACCACACAGGCAACAACACGTTCAGAGTGGTGGGCAGGAAGATCCAGGACCACCAGGTCGTGATAAATTGTGCCATTCCTAAAGGGTTGAAGTATAATCAAGCTACACAGACTTTCCACCAGTGGCGAGATGCTAGACAGGTGTACGGCCTCAACTTTGGCAGCAAGGAGGATGCCAATGTCTTCGCAAGTGCCATGATGCATGCCTTAGAAGTGCTGAATTCACAGGAAGCAGTGTTCTATTTAGGGCCAACATTGCCTAGACAGAATTCACAACTACCTGCTCAAGTTCAAAATGGCCCATCCCAAGAAGACTTGGAAATTCAGAGAAGGCAACTGCAAGAACAACAACGACAAAAGGAGCTGGAGAGGGAACGGTTGGAGAGAGAGAGAATGGAAAGGGAGCGCCTGGAGCGCGAGCAGCTGGAGCAGGAGCGCCTGGAGCGGGAGCGCCTGGAGCGCCTGGAGCGGGAGCGGCTGGAGCAGGAGCAGCTGGAGCGCGAGCAGTTCGAATGGGAGCGCGAGCGCAGAGTCTCGGGTGCTGCTCCGTCTCCAGACAGCCCCCTGTGTAGCGCTCCACCTCCTGACTACCCCAGTTGCCAGCCTTCTCCAGCTCCTCCTCCACCACACGCCAAAGTCACCTCAGCTCCGGTGTCAGACGCCGCTCCTGACCACGCTGTCGTGGCAGCATTGCCACCTGCTTCCACACCCCCTGCACCACCACTGCGACACTCAGCCACACGTTTTGCGACTTCTCTAGGCTCAGCCTTCCACCCTGTTCTCCCTCATTATGCTACAGTTCCTCGTCCTCTGAACAAAAACTCTCGGCCTTCCTCTCCTGTGAACACACCTTCTTCTCAGCCTCCAGCGGCAAAGCCCTGTGCCTGGTCCCCTTCTAGTTTCTCTCCCCTCCCCCCATCTCCTCCAATCATGATTAGCAGCCCCCCTGGCAAAGCTGCCGGTCCTCGGCCTGTCCTTCCCGTCTGTGTTTCTTCTCCTGCGCCCCAGATGCCCCCGTCACCAACTGGGCTGCTGGACTCTGTGCCATGCCCGGCGTCTCCACCACCTACCTCAGGGCCACCCCCACCACTGTCCCATGGCGGAGCTTCAGCTGCCCCTCCCAGCACCCCCCTTGCCTCAGCCCCCTCATCCAAGCCCAGTGTTCTCCCTTCTCCCTCTGCAGCTGCCCCTGCCTCTACGGAGACTCCTCTAAACTCTGTGCTGGGAGACTCCTCTGCTTCTGAGCCAGGCTTGCAGGCAGCCTCTCAGCCGGCCGAGACTCCACCCCTGCAGGGTAAGGCTTTCCTCATTGCTGCTGGCAGCCAGGGCTGCCATATGGAAGGAAGGGAGGAGAGTTTAATAGTGGGACATCAAGATTCCAGAGTGCCACGTGGGGTCTTTTTCTGCAGTTCTGATTTGGGACCCCCAGCAGCAGGCTTTCAGGTGGTACACACTGAGCCCTGGAGCATGCTGGCTGTGCAGGAGGGTGCAGAAGACTCCGAGTGTGCCACAGCCCAGGTATCAGAGGGCAGCAGCCTGCACAGGTGCCTGCACCTGCTGGGTTTGGGAAGAAGGGTACGGCCCCAGAGCAGTGGTGCTCCTGCCCCGCCCCTCCCTGTGGCTGGATTTTTGTCGGGACCTGTGCTGGAAGACCATCGCCCTTTAACTGGACTTGCAGCTGCAATTGCTGGAGCAAAACTGAGGAAAGTGTCACGGATGGAGGATGCCTCTTTCCCTAGTGGAGGGAGTACCAATGCTGTGAACTCAGCCTCCTCCAAAGCCGACTCCAGTCGAGGGAACGGGCCCCTTCCTCTAGGGGGCAGCGGCTTAATGGAAGAAATGAGTGCCCTGCTGGCCAGGAGGAGAAGAATTGCTGAAAAGGGATCAACAATAGAAGCAGAACAAAAAGAGGACAAAAGTGAAGATGCTGAGCCTGTAACTTCAAAGGCCTCTTCAACAAGTACACCTGAACCAACCAGAAAGCCTTGGGAAAGAGCAAATGCAGTGAATGGCAGCAAGTCCCCTGTCATCTCCAGACCAAAATCCACTCCTTCATCACAGCCCAGTGCCAATGGCGTCCAGACGGAAGGGCTTGACTACGACAGGCTGAAGCAGGACATTTTAGATGAAATGAGAAAAGAATTGACAAAACTAAAGGAAGAGCTCATTGATGCAATTAGGCAGGAACTGAGCAAGTCAAATACTGCATAG
Capn2 calpain 2, (m/II) large subunit, transcript variant X2
>XM_004867430.1 ATGGCGGGGATGGCGGAGCGGCTGGCGCGGGAGCGCGCGGCGGCGGCCGGGCTGGGCTCCCACGAGCGCGCCGTGCAGCACCTGGGCCAGGACTTCGCGGCGCTGCGGGACGCGTGTCTGGCGGACGGCTCGCTCTTCCAGGACCCGGCCTTCCCCGCCGTGCCCGCCGCGCTGGGCTTCGCCGAGCTGGGCCCGCGCTCCAGCAAGACGCGCGGCGTGGAGTGGAAGCGGCCGCCGGAGATCTGCGCGGACCCCCAGTTTATTGTCGGAGGAGCCACGCGCACAGACATCTGCCAGGGAGCCCTGGGTGACTGCTGGCTGCTGGCCGCCATCGCCTCTCTCACCTTGAATGAAGAGATCCTGGCGCGCGTTGTGCCCCTGGACCAGAGCTTTCAGGAGAACTACGCTGGCATCTTCCGCTTCCAGTTCTGGCAGTATGGCGAGTGGGTGGAGGTGGTGGTGGACGACAGGCTGCCCACCAAGGACGGGGAGCTGCTGTTCCTGCACTCGGCCGAGGGCACCGAGTTCTGGAGCGCGCTGCTGGAGAAGGCCTACGCCAAGATCAATGGCTGCTATGAAGCGCTGTCGGGGGGCGCCACCACTGAGGGCTTCGAGGACTTCACTGGAGGCATCGCGGAGTGGTACGAGCTGCAGAAGCCGCCTCCCAACCTGTTCAGGATCATCCAGAAGGCGCTGGAGAAGGGCTCGCTGCTTGGCTGCTCCATCGACATCACCAGCGCCGCGGACTCGGAGGCTGTCACGTACCAGAAGCTGGTGAAGGGGCATGCGTACTCAGTCACCGGGGCCGAGGAGGTGGACAGTTCCGGGAGCCTGCAGAAACTGATCCGCGTGCGGAACCCCTGGGGACAGGTGGAGTGGACCGGGAAGTGGGGCGACAACTGCCCAAACTGGAACACAGTGGACCCAGAGGTCAGGGAAAGGCTGACCGTGCGGCTCGAGGACGGGGAGTTCTGGATGTCCTTCGGCGACTTCCTGCGGCACTATTCCCGCTTGGAGATCTGCAACCTGACGCCCGACACCCTGACCAGCGACACCTACAAGAAGTGGAAGCTGACCAAGATGGATGGGAGCTGGCGGCGGGGCTCCACCGCGGGCGGCTGCAGGAACTACCCCAACACCTTCTGGATGAACCCCCAGTACCTGATCAAGCTGGAGGAGGAGGACGAGGACCAGGAGGATGGCGAGGGCGGCTGCACCGTCCTGGTGGGGCTCATCCAGAAGCACCGGCGGCGGCAGAGGAAGATGGGCCAGGACATGCACACCATCGGCTTCGGCATCTACGAGGTCCCAGAGGAGCTGGCCGGGCAGACCAACATCCACCTGGGCAAGAACTTCTTCCTGACGACCCGCGCCCGTGAGCGCTCGGACACCTTCATCAACCTGCGCGAGGTGCTCAACCGCTTCCGGCTGCCCCCGGGGGAGTACATCCTTGTGCCGTCCACCTTCGAGCCCCACAAGGACGGCGACTTCTGTGTCCGTGTCTTCTCCGAGAAGAAGGCCGACTACCAGGCTGTGGACGACAAAATCGAGGCCAACCTGGAAGAGATAGACGCTGGCGAGGACAACATCGATGACGGCTTCCGCAGGCTGTTTGCCCAGCTGGCGGGGGAGGACGCAGAGATCTCAGCCTTCGAGTTGCAGACCATCCTGAGGAGAGTGCTGGCGAAGCGACAAGACATCAAGTCAGACGGCTTCAGCATCGAGACCTGCAAGATCATGGTGGACATGCTGGACTCGGACGGGAGCGGCAGGCTGGGGCTGAAGGAGTTCTACATCCTGTGGACGAAGATCCAGAAGTACCAGAAAATTTACCGGGAGATCGACATAGACAGGTCTGGCACCATGAACTCCTACGAGATGCGGAGGGCGCTGGAGGAAGCAGGGTTCAGGCTTCCTTGCGAACTGCACCAAGTCATCGTTGCCCGGTTTGCAGACGACGAGCTCATCATCGACTTTGACAACTTCGTCCGGTGCCTGGTTCGGCTGGAGACGCTGTTCAAGATATTCAAGCAGCTGGACCCCGAGGACACCGGGACCATCCAGCTGGACCTCATCTCTTGGCTGTGTTTCTCGGTGCTGTGA
Cnih4 cornichon homolog 4 (Drosophila), transcript variant X2
>XM_004867443.1 ATGGAGGCGGTGGTGTTCATCTTCTCTCTGCTGGACTGCTGCGCGCTAATCTTCCTCTCCGTGTACTTCATAATTACATTGTCTGATTTAGAATGTGATTACATTAATGCTAGATCATGTTGTTCCAAATTAAACAAGTGGGTAATTCCAGAAATGATTGGCCATTCCATTGTCACTGTATTGATGCTTGTTTCATTGCACTGGTTCATCTTCCTTCTCAACTTGCCTGTTGTCACGTGGAATATATATCGGTTCATTATGGTGCCAAGTGGTAACATGGGAGTGTTTGACCCAACAGAAATACACAATCGAGGGCAGCTGAAGTCACACATGAAAGAAGCCATGATCAAACTCGGTTTCCACTTGCTCTGTTTCTTCATGTATCTTTATAGTATGATTTTAGCTTTGATAAATGACTGA
Capn8 calpain 8
>XM_004867428.1 ATGGCGGCCCAGGCAGCGGGCGTGCGCAGGCAGCGGGCAGCTGCTGAGGGGCTCGGCTCCCACCAGAACGTGGTGAAGTACATGGGCCAGGACTTTGAGGCTCTGAGGCGGCAGTGCTTGGACTCCGGGGTGCTGTTTAAGGATCCGGAGTTCCCAGCATGTCCATCGGCGCTGGGCTACAAGGATCTGGGCCCTGGCTCCCCCCAGACTCAAGGCGTCGTGTGGAGGCGGCCCACGGAGCTGTGTCCCAGTCCGCAGTTCATTGTTGGTGGAGCCACACGCACAGATGTCTGCCAGGGCGACCTTGGTGACTGCTGGCTCCTGGCGGCCATCGCCTCCCTGACCCTGAACGAGAAGCTGCTGTCCCGCGTGGTGCCCGGGGACCAGAGCTTCCAGGAGAACTACGCAGGCATCTTCCGTTTCCAGTTCTGGCAGTATGGCGAGTGGGTGGAGGTGGTGGTGGACGACAGGCTGCCCACCAAGGACGGGGAGCTGCTGTTCCTGCACTCGGCCGAGGGCACCGAGTTCTGGAGTGCGCTGCTGGAGAAGGCCTACGCCAAGCTCAACGGGTCCTATGAGGCTCTGGCTGGCGGCTCCACGGTGGAGGGGTTCGAGGACTTCACGGGTGGCATCTTGGAGTTTTACGACCTGCGGAAGCCCCCGGCCAATCTGTACCGCCTCATCCAGAAGGCCCTGCGTGCGGGGTCTCTGCTGGGCTGCTCCATTGACGTCTCCAGCGCAGCCGAAGCTGAAGCCGTCACCCGCCAGAAGCTGGTCAAGAGCCACGCGTACTCTGTCACTGGGGTTGAAGAGGTGGATGTTGGGGGCCGCCCGGAGCAGCTGATCCGACTGCGGAACCCGTGGGGCGAGGTGGAGTGGACGGGAGCCTGGAGTGACGATGCTCCAGAGTGGAGCCGCATTGACCCCAGGCGGAGGCAGGAGCTGGACAACAAGGCGGAGGACGGCGAGTTCTGGATGTCCTTTCCGGACTTCCTGGTGCAGTTCTCGCGCCTGGAGATCTGCAACCTGTCCCCGGACTCCCTGAGCAGTGAGGAAGCTCACAAGTGGAGCCTGGTGCTGTTCCAGGGGCGCTGGGCACGGGGCGCCACCGCCGGGGGCTGCCAGAACTACCCGGCCACCTACTGGACGAATCCTCAGTTCAAGATCCACCTGGACGAGGCGGATGAGGACCAGGAGGAGGGCGTGGGGGAGCCTTGCTGCACGGTGCTCCTGGGACTGATGCAGAAGGACCGGCGGAGGCGGCGCCGGCTGGGTCAGGGCCTGTTGAGCATCGGCTTTGCAGTCTACCAGGTCCCCGAGGAGCTGGCGGGCCACACAGATGCACACCTGGGCCGAGACTTCTTCCGTGGCCACCAGCCGGCCGCGTGCTCAGACACCCACATCAGCCTGCGAGAAGTGTGGGGCCGTGTGCGGCTGCCACCTGGCGAGTACCTGCTGGTGCCGTCCACCTTTGAGCCCTTCAAGGACAGTGACTTCTGCCTGCGCGTGTTCTCCGAGAAGAAGGCCCGAGGCCTGGAAATCGAGGATGTCGTGGCAGGAAACCCGTGCGAGCTGCGTCCTGCTGAGGTGGAGCACGGGCACCAGGAGCTCTGCAGTCTGTGTGAGGAGCTCTCGGGGAAGGGTTCCGAGATCGGTGCCGACAAGCTCAAGCAGGTTCTGGATGGGGTGTTTTCCAGACGAACAGACATAAAGTTCGATGGTTTCAGCATCCACACTTGCCGGGAAGTGATCAGCTTGCTGGACAGCTCTGGCACCGGTACCCTGGGACCCACTGAGCTCAGAGCGCTCTGCCTGAAGGTCCGGAAGTACCTGGAGATCTACCAGGAGATGGATCCCAGCCACCTGGGGACCGTGGATGCCCACGAGATGAGGACAGCCCTCAGGAGGGCGGGGTTCAGCGTCAGCACCCAGGTGCAGCACACCATCGCCACTCGCTACGCCGGCCGCACGCTCTGCCTCGACTTCGACGGCTTCGTGGCCTGCATGGTCCGGCTGGAGAGCCTCTTCCAACTGTTCCGGGTCTTGGACCGGAACCGGACGGGTGTCATCCAGCTCTCCCTGGCTGAGTGGCTGGGCTGTGTGCTGGTCTGA
Brox BRO1 domain and CAAX motif containing, transcript variant X3
>XM_004867423.1 ATGACCCATTGGTTTCATAGGAACCCACTAAAAGCTACAGCTCCTGTCTCTTTTAACTACTATGGTGTGGCCACTGGCCCTCCTGCTTCAAAAATTTGCAATGACCTGAGATCATCCAGGGCACGCCTCCTTGAACTGTTCACTGATCTGAGCTGTGACCCAGAAATGATGAAGAATGCAGTAGATTCATACTTTTCACTTCTGCAAGGTTTCATAAATTCACCAGATGAGTCTACACAGGAAAGCAAGTTACGATATATTCAGAATTTCAAGTGGACTGATACATTACATGGACAGGTTCCAAGTGCCCAGCAGGATGCTGTTTTTGAATTAATTTCCATGGGATTTAATGTAGCTTTGTGGTATACCAAATATGCTTCAAGACTGGCTGGAAAAGAAAACATAACAGAAGATGAAGCAAAGGAGGTCCACCGAAGCCTAAAAATTGCGGCTGGAATTTTTAAACATTTGAAGGAAAGTCACATCCCAAAGCTTATCACGCCTGCAGAGAAGGGACGGGATCTGGAGCCCCGGCTCATAGAAGCATATATTAGCCAGTGTCAGGCAGAAGCTCAAGAAGTGACAATTGCCAGAGCAATTGAACTAAAACATGCTCCGGGGCTGATTGCCGCGCTGGCCTATGAAACGGCCAATTTCTACCAAAAAGCCGATCATACTTTATCCAGTTTGGAGCCTGCATATTCTGCTAAATGGAGAAGATATCTTCACTTGAAAATGTGTTTCTACACAGCTTACGCGTACTGTTACCACGGTCAGACCCTGCTGGCTGCCGATAAATGTGGTGAAGCAATCAGGTCCCTCCAGGAAGCAGAAAAACTGTATGCCAAGGCAGAAGCACTCTGCAAAGAGTATGGAGAGACCAAGGGGCCTGGGCCTACGGCCACACCTTCGGGACACCTGTTCTTCAAGAAGCTGGGAAACCTGGTGAAAAGCACACTGGACAAGTGTCAGAGGGAGAACGGGTTTATTTACTTTCAAAAAATTCCAACAGAAGCCCCGCAGCTGGAACTCAAAGCCAATTACGGGCTGGTAGAGCCTGTGCCTTTCGAATTTGCTCCTGCAAGCGCTCAGTGGACACCAGAAACGCTGGCATCATTTGACCTCACCAAGAGACCCAAGGACGAGAGGGCCAAACCCAAGCCAGAAGAAGAAGTGAAACCTGTGAAAGAACCAGACATCAAGCCCCAAACGGACACTGGGTGCTGCCTCTCCTGA
Mark1 MAP/microtubule affinity-regulating kinase 1, transcript variant X2
>XM_004867402.1 ATGTCGGCGCGGACGCCATTGCCCACGGTGAACGAGCGCGACGCCGAGAACAATACGTCTGTGGATGAATACACTGAGCCACACATCCCGCCTACCAAATCAAGTAGCAGACAGAACATCCCCCGGTGTAGAAGCTCCATCACGTCGGCAACGGACGAGCAGCCTCACATTGGAAGTTACCGTTTACAGAAAACAATAGGGAAGGGGAACTTTGCCAAGGTGAAGTTGGCCAGACACGTGCTCACTGGTCGGGAGGTTGCTGTGAAAATAATAGACAAAACTCAGCTAAATCCTACCAGTCTACAAAAGTTGTTTCGAGAAGTACGAATAATGAAGATATTGAATCATCCTAATATAGTGAAATTGTTTGAAGTCATTGAGACAGAGAAGACCCTCTATTTAATCATGGAATATGCAAGTGGCGGTGAAGTGTTTGATTACTTAGTTGCCCACGGAAGGATGAAAGAGAAAGAGGCCCGTGCAAAATTTAGGCAGATTGTATCTGCTGTGCAGTATTGCCATCAAAAATGCATTGTTCACCGTGATCTTAAGGCTGAAAACCTTCTCCTTGATGCTGATATGAATATTAAAATTGCTGACTTTGGTTTTAGTAACGAGTTCACAGTGGGGAACAAATTGGACACATTTTGTGGAAGCCCTCCGTACGCCGCGCCCGAGCTCTTCCAAGGGAAGAAGTACGCGGGGCCCGAGGTGGACGTGTGGAGTCTCGGCGTCATTCTCTACACGCTGGTCAGCGGCTCCTTGCCCTTTGACGGCCAGAATCTGAAGGAACTGCGGGAGCGAGTCTTGCGGGGGAAGTACCGCATCCCCTTCTACATGTCCACGGACTGCGAGAACTTGCTCAAGAAGCTGCTGGTGCTGAACCCGGTCAAGAGAGGCAGCCTGGAACAAATAATGAAAGACCGATGGATGAATGTAGGTCACGAAGAAGAAGAACTAAAGCCATATACTGAGCCTGAACCGGACTTCAATGATACAAAAAGAATAGATGTTATGGTCACCATGGGCTTTGCCCGAGATGAAATAAATGATGCCTTAATAAATCAGAAGTATGATGAAGTTATGGCTACTTACATCCTTCTGGGTAGAAAGCCTCCTGAATTTGAAGGCGGTGAGGTGCTGTCCAGTGGGAACCTGAGTCAGAGGTCCCGGCCCAGCAGTGACCTGAACAACAGCACCCTGCAGTCCCCCGCGCACCTGAAGGTCCAGCGGAGCATCTCCGCCAATCAGAAGCAGCGGCGCTTCAGTGATCATGCCGGCCCATCCATCCCCCCCGCCGTGTCCTACACCAAGAGGCCCCAGGCCAACAGCGTGGAAAGCGAGCAGAAGGAAGAGTGGGACAGAGACATGGCCCGGAAGCTGGGCAGCGTCACGGTTGGCTCAAAGGGCGAGGAGACGGCCAGCCCCGTCGCGGGCCCCGAGAGGAGGAAGTCCTCCACCATCGCCGGCAACAATGTGTATCCTGGAGGCAGCATGGCAAGGAGGAACACGTACGTCTGCGAGAGAACAACAGACCGCTACGCGGCGCTGCAGAACGGAAAAGACAGCAGCCTCACAGAGATGTCTGTGAGTAGCATTTCCTCTGCGGGCTCCGCTGGGGCCTCTGCTGTCCCCTCCGCCCGGCCGCGGCACCAGAAGTCCATGTCAGCGTCTGGACACCCTATCAAGGTCACGCTGCCAACCATCAAAGACGGCTCCGAAGCGTACCGTCCCGGGGCCGCCCCGAGAGCTCCCGCCGCCTCCCCGTCTGCGCACAGCATCAGCGCCAGCACCCCAGACCGCACGCGCTTCCCCCGAGGCAGCTCCAGCCGCAGCACCTTCCACGGGGAGCAGCTCCGAGAGCGCCGCAGCGCCGCCCACAACGGGCCGCCCGCGTCGCCGGCCCACGAGCCCGGGGCGTTCGCGCACGCGCGGCGGGGCACGTCCACCGGGCTCATCAGCAAGCTCACGTCCAAGTTCGTGCGCAGGGATCCGAGTGAAGGCGAAGCCAGTGGAAGAACAGACCCGTCCAGAAGTGTGTCTGGGGAACCAAGAGAAAGAGACAAGGAAGATAGCAAAGACTCCAAGCCCCGGTCCCTGCGGTTCACATGGAGCATGAAGACCACGAGCTCCATGGACCCCAACGACATGATGCGCGAGATCCGCAAAGTGCTGGATGCAAATAACTGCGATTACGAACAGAAGGAGAGGTTCCTGCTCTTCTGTGTCCACGGGGATGCGCGGCAGGACAGCCTTGTGCAGTGGGAGATGGAGGTGTGCAAACTGCCACGCCTGTCGCTCAATGGCGTCCGCTTCAAGCGAATATCGGGGACGTCCATTGCCTTTAAGAACATCGCATCCAAAATAGCAAACGAGCTTAAACTGTAA
Kctd3 potassium channel tetramerisation domain containing 3
>XM_004867385.1 ATGGCGGGAGGGCACTGCGGCGGCTTCGCGCCCGCGGCGGCGGCCGGCAGCGGCGAGATCGTGCAGCTGAACGTGGGCGGCACCCGATTTAGTACCTCGAGACAAACTCTTATGTGGATTCCAGATTCTTTTTTTTCCAGTTTGCTGAGTGGAAGAATCTCAACACTTCGGGACGAAACTGGTGCTATATTTATTGATAGAGATCCGGCAGCATTTGCACCCATTTTAAATTTTCTTCGGACAAAAGAACTAGATTTAAGGGGAGTGAGCATTAATGTTCTCAGGCATGAGGCCGAGTTCTATGGAATCACACCATTAGTAAGAAGGCTTCTCCTGTGTGAGGAACTGGAGCGCTCATCCTGTGGCAGTGTGCTTTTCCACGGCTATTTGCCCCCACCAGGTATCCCTAGCCGTAAAATAAACAACCCCGGGCGATCTCCTGACTCCAGGAACGGACTTAGCTCTGCGGAAGGCGAAGCCCAGGGAGATGCTGCACAGCCTGTTCTCTCTGTGGCCGGAGAGGAGACTGTGAGGCTGGGATTTCCTGTGGATCCACGAAAGGTGCTAATAGTCGCTGGCCATCACAACTGGATTGTAGCTGCATATGCCCACTTTGCTGTGTGCTACAGAATCAAAGAATCTTCAGGATGGCAGCAAGTGTTTACAAGCCCATATCTAGATTGGACTATTGAACGGGTGGCTCTGAATGCAAAAGTGGTCGGGGGTCCTCATGGAGACAAAGACAAAATGGTGGCTGTGGCCTCAGAGAGCAGCATCATCCTGTGGAGTGTTCAGGACGGGGGCAGTGGGAGTGAAATTGGAGTGTTCAGCCTCGGTGTTCCTGTGGATGCACTCTTCTTTATTGGAAACCAGCTGGTGGCCACGAGTCACACAGGGAAGGTGGGAGTGTGGAACGCTGTTACTCAGCACTGGCAGGTCCAGGATGTTGTCCCCATAACTAGCTACGACACGGCTGGCTCCTTCCTGCTGCTGGGCTGCAGCAATGGCTCCATATATTACATCGATATGCAGAAGTTTCCTCTGCGAATGAAGGATAACGATCTTCTTGTCACAGAGCTCTACCATGACCCCTCAAATGACGCTGTCACGGCCCTGAGCGTGTACCTCACACCCAAGACAAGTGTCAGTGGGAACTGGATCGAGATCGCCTATGGTACGAGCTCTGGAGCAGTGCGCGTGATCGTGCAGCACCCAGAGACCGTTGGGTCAGGACCTCAGCTCTTCCAGACCTTCACGGTTCACCGAAGCCCTGTGACAAAAATCATGCTGTCGGAGAAGCACCTGGTGTCAGTCTGTGCAGATAATAATCACGTCCGCACGTGGACAGTCACGCGGTTCCGGGGCATGATCTCCACTCAGCCCGGCTCTACTCCATTAGCGTCCTTCAAGATTCTGTCTTTGGAAGAGACGGAGAGCCACGGGAGCTACTCCTCTGGAAACGACATAGGGCCCTTTGGAGAGCGAGATGACCAGCAGGTGTTTATTCAGAAAGTTGTTCCCATCACCAACAAATTATTCGTGCGACTCTCGTCCACTGGGAAGAGGATCTGTGAGATCCAGGCTGTGGACTGCACCACCATATCCTCCTTCACCGTGCGCGAGTGCGAGGGCTCCAGCCGGATGGGCTCTCGGCCGCGGCGCTACCTGTTCACGGGCCACACCAACGGCAGCATCCAGATGTGGGACCTGACCACGGCCATGGACATGGTCAGCAAGAGCGAGGACAGGGGTGCGGGCGGACCGAGCGAGGAGGAGCTGCTCAGGCTGCTGGATCAGTGCGACCTGAGCACGTCACGCGGCGCCACGCCGAACCTCAGCCCCGCCACCTCGGTGCTTCAGCACAGCCGCCTGCGGGCGTCCAGTTCCAGCCTTCAGCTTCAGTACCACGAGACCATCCACGAAGCAGCAACTTACGGGTCCATGCGGCCTTACAGAGAGAGTCCTTTGTTAGCAAGGGCACGGAGGACTGAGAGCTTTCACAGTTACAGGGACTTTCAGACTATGAACTTCAGCAGAAGCATAGAAAGAGCCGTCCCGGAGAATGGCAGCCCGGGCCCCACTCAGGGGGAAGCGAAGGGAGCGGCGGGAGAATGTGGCGCGTCAGAGAGGAAGTGTCCTGGGGCGGAGACCGAAGGCCCCGGAGAGCTGGCGGGCTGTCTGGAAGTGCACCCAGCAGCCGAGGGGTTTTCCGAAGCCAAGAAACGGCCCTCAGAAGATGGAGACGAAAGTAAGGCAGACTCGAAGAAGAAAGGCGGGCTTGAGGGGGGAGGCGTCCTTGGCAGGAGGAAAGCCCCGCCTCTGGCCTCCGCGCCCAGCGCCTCTGACTGCAGCGCCGACCCCCCCGGGGCTGCCTCCCTGTCCCCCACGAAGGCCACGCCGTCTCCGTCTCCTCGGCGTAAAAAGAGCGATTCTTCGGGGCAGGAGCACAGCTTGTGA
Esrrg estrogen-related receptor gamma
>XM_004867386.1 ATGGATCCGGTAGAACTTTGCCTGCCCGAGTCTTTCCCCCTGCACTACGAGGAAGAGCTTCTCTGCAGAATGTCCAGCAAAGAGCGGCACATTGACTCCAGCTGCTCGTCCTTCATCAAGACGGAGCCGTCCAGCCCGGCCTCCCTGACGGACAGCGTCAACCACCACAGCCCGGGCGGCTCCTCGGACGCCAGCGGGAGCTACAGCTCCACCATGAACGGCCACCAGAACGGCCTGGACTCGCCGCCCCTGTACCCCTCCGCGCCACTGCTGGCGGGCAGCGGGTCGGTGCGAAAGCTGTACGACGACTGCTCCAGCACCATCGTAGAGGACCCGCAGACCAAGTGCGAGTACATGCTTAACTCCATGCCCAAGCGCCTGTGCCTGGTGTGCGGCGACATCGCCAGCGGCTACCACTACGGCGTGGCGTCCTGCGAGGCCTGCAAGGCCTTCTTCAAGCGCACGATCCAAGGTAACATAGAATACAGCTGCCCTGCCACAAATGAGTGCGAGATCACCAAGCGCAGACGCAAGTCCTGCCAGGCGTGCCGCTTCATGAAGTGTCTGAAAGTGGGTATGCTGAAGGAAGGGGTACGCCTTGACAGAGTACGCGGAGGTCGGCAGAAGTACAAGCGCAGAATAGATGCAGAGAACAGCCCGTACCTGAACCCCCAGCTGGTTCAGCCAGCCAAAAAGCCATATAACAAGATCGTCTCGCACTTGTTGGTGGCTGAGCCAGAGAAGATCTATGCCATGCCTGACCCCACCGTGCCCGACAGTGACGTCAAAGCCCTCACCACCCTGTGTGACCTGGCGGACCGGGAGCTGGTGGTGATCATCGGGTGGGCGAAGCACATTCCAGGCTTCTCCACACTGTCCCTGGCCGACCAGATGAGCCTCCTGCAGAGTGCTTGGATGGAAATCTTGATCCTCGGTGTCGTATACCGGTCGCTTTCGTTTGAGGATGAACTTGTCTATGCAGACGATTATATAATGGACGAAGACCAGTCCAAATTAGCAGGGCTTCTTGACCTAAATAATGCTATCCTGCAGCTGGTAAAGAAATACAAGAGCATGAAGCTGGAGAAAGAAGAATTTGTCACCCTCAAAGCGATCGCTCTCGCTAATTCAGACTCCATGCACATAGAGGACGTGGAAGCCGTGCAGAAGCTGCAGGACGTGCTCCACGAGGCCCTGCAGGATTACGAGGCGGGCCAGCACATGGAGGACCCGCGCCGGGCCGGCAAGATGCTCATGACGCTGCCGCTGCTCCGGCAGACCTCCACCAAGGCGGTGCAGCACTTCTACAACATCAAACTCGAAGGCAAGGTGCCCATGCACAAACTGTTTTTGGAAATGCTGGAGGCCAAGGTCTGA
Spata17 spermatogenesis associated 17, transcript variant X1
Length: 1089 bp Location: 1796270..1978888 Strand: +>XM_004867388.1 ATGGCCACGTTAGCCCGGCTGCAGGCTCGCTCGCGGTTTTTAGAAAATCAGTATTACTTTAGGAACAGTGTTGTGGATGCATTTAGAAAAAAAGAGAATTGTGCAGCAGTTAAAATCCAGAGCTGGTTTCGGGGGTGTCAAGTCCGGGCATATATCAGGCATTTACACAGAATAGCAATAATTATTCAGAAATGGTGGAGAGGTTACTTAAGCAGAAAACACTATCAACTGAAGGTGGAGGTAGCATATTATACTATGAAGATGGAGCTCTACAATGCAATGGCTGTCAGGATTCAGAGACGATGGCGAGCCTATAAAGTCCGGAAATACTGTTTTAATTATTTTTATTATAAACAGTACTTGAGAGCTGTTTCTGAAGCCAATGAGACAGTTAGGGAGATACTGCAGGAGTACGCGGAGATTCAAGAAAGCGAGGAGAAGAAGGCTGAGCTGGAAAGGGAAGAGAAGCAAAGAGCAGAGGAAGCCCGGAAGATGCATTACCTCCTCAGCACAAAGCAGATTCCAGGCATATACAATTCACCATTCAGAAAAGAGCCAGATCCTTGGGAGCTGCGGCTGCAGAGGGCAAAGCCTTTGGTTCCCCAGAGACGGAGAGTCCAGCAGAAGCAGTGTGCAGGGCTGGCCGACTGGCTGGCCTGCACCAGCGCCCGCTCCTTCCCTCGGTCCGGTAGTCTTCCTCCTATCAATAGGAAGCCCTGCCAGGGGCCCTTCCGAAATATCAACGAAGTGTTAGAGCAGCGCTACAAGCCTTTGGAGCCCACACTGCGAGTGGCACAACCGATAGATGAGTTAACGCCGGCCAGACAGGAGTTCCAAGGGCAAGAGTGGGTGCGAAACATCAGTGACAAAATGTTTCTGCCATTTTCTTCCCACCATAAAAAAGAAAAGTACATGCCATCCCTGTTTTCCTCAAGCAAGTACGACCCCATTTCCTGCAGAAAACAAGGCTTCCGGAGTGAAAACCCGGGGAAATGGATCTGTGACAAGGATTTCCAAACTGTATTTCCATCAGTTGATCTCTTCTCAAAGTATGGAAAGTCATATTCAAGAGCTGGGCAGATTGTATAA
Spata17 spermatogenesis associated 17, transcript variant X2
>XM_004867389.1 ATGGCCACGTTAGCCCGGCTGCAGGCTCGCTCGCGGTTTTTAGAAAATCAGTATTACTTTAGGAACAGTGTTGTGGATGCATTTAGAAAAAAAGAGAATTGTGCAGCAGTTAAAATCCAGAGCTGGTTTCGGGGGTGTCAAGTCCGGGCATATATCAGGCATTTACACAGAATAGCAATAATTATTCAGAAATGGTGGAGAGGTTACTTAAGCAGAAAACACTATCAACTGAAGGTGGAGGTAGCATATTATACTATGAAGATGGAGCTCTACAATGCAATGGCTGTCAGGATTCAGAGACGATGGCGAGCCTATAAAGTCCGGAAATACTGTTTTAATTATTTTTATTATAAACAGTACTTGAGAGCTGTTTCTGAAGCCAATGAGACAGTTAGGGAGATACTGCAGGAGTACGCGGAGATTCAAGAAAGCGAGGAGAAGAAGGCTGAGCTGGAAAGGGAAGAGAAGCAAAGAGCAGAGGAAGCCCGGAAGATGCATTACCTCCTCAGCACAAAGCAGATTCCAGGCATATACAATTCACCATTCAGAAAAGAGCCAGATCCTTGGGAGCTGCGGCTGCAGAGGGCAAAGCCTTTGGTTCCCCAGAGACGGAGAGTCCAGCAGAAGCAGTGTGCAGGGCTGGCCGACTGGCTGGCCTGCACCAGCGCCCGCTCCTTCCCTCGGTCCGGTAGTCTTCCTCCTATCAATAGGAAGCCCTGCCAGGGGCCCTTCCGAAATATCAACGAAGTGTTAGAGCAGCGCTACAAGCCTTTGGAGCCCACACTGCGAGTGGCACAACCGATAGATGAGTTAACGCCGGCCAGACAGGAGTTCCAAGGGCAAGAGTGGGTGCGAAACATCAGTGACAAAATGTTTCTGCCATTTTCTTCCCACCATAAAAAAGAAAAGTACATGCCATCCCTGTTTTCCTCAAGCAAGTACGACCCCATTTCCTGCAGAAAACAAGGCTTCCGGAGTGAAAACCCGGGGAAATGGATCTGTGACAAGGATTTCCAAACTGTATTTCCATCAGTTGATCTCTTCTCAAAGTATGGAAAGTCATATTCAAGAGCTGGGCAGATTGTATAA
Rrp15 ribosomal RNA processing 15 homolog (S. cerevisiae)
>XM_004867390.1 ATGGCTGCGGCCATGCAAGACTCACGTGTACGTGCGGGGAAAAACCTGAAGAAGTCCCTGAAAAAGAGGAAGATAGAAATGGTATCCAGGGCTGTGGCCTCGGAGCTGGACGATGAAGTCAGAGAGGCTTCGGACAGCGGAGGTTCTGCGGGAAGCTGCGGGCTGTCTGATGATGAAGCAGTGGAAGCGGACAACGAGGAGGATGCTGAGCCCTGTCACAGAGAAAATGAAAATGCTGCAGACCCCAGCCTCGGGACCAATACGGGCTGGGCAGATGCCATGGCTAAAATCCTTAACAAAAAAACTCCTAAAAGTAAACCCACCATTCTCATCAAAAACAAAGAGCTAGAAAAGGAAAAAGAGAAGTTGAAGCAAGAAAGACTAGAGAAAAAAAAACAGCTTGATAAGAAGCGAGAATGGGAAATGATGTGTAGAGCAAAGCCAGATGTTGTCCAAGACAAAGACACAGAGAGGACTCTTCAGAGAATTGCAACAAGGGGTGTGGTGCAGTTATTCAATGCTGTTCAGAAACACCAAAAGAACGTTGATGAAAAGCTTAAAGAGGCAGGAGGCTCTACTGGAAAGCGTGCTAAGTTGGTGTCGACTGTTTCCAAGAGAGACTTCATCAGTGTTCTCAGAGGAGTGGATGGAGCTACCCATGAGAAAGGTTCAACTGGAAAGAACCCAAAGGCCAAACAGATTGAAGTGAAATCAGAAGCGGGCCCAGGGTGGAGCGTTCTGCGCGATGATTTCATGATGGGGGCATCCATGAAGGACTGGGACAAGGAGAGCGACGGTCCCGATGACAGCTGCGCAGGGCCTGCCAGTGTCTCTGACACTTGA
Lyplal1 lysophospholipase-like 1
>XM_004867393.1 ATGGCGGCTGTGTGCGGCTCGGGTCGCCTGCAGCGCTACGTGGTGGCGCCGTCCCGGAGACACAGCGCCTCGCTGATCTTCCTGCACGGCTCAGGTGATTCTGGGCAAGGACTGAGGAGCTGGATCAAGCAGGTTTTAAATCAAGACTTGACATTCCAGCACATAAAAATCATCTATCCAACCGCTCCTCCCAGGCCCTACACTCCCATGAGGGGTGGGCTCTCCAATGTGTGGTTTGACAGGCTGAAGATCTCTGCCGACTGCCCCGAGCACCTGGAATCCATCGATGCCATGTGCCAGGCGCTGACCGAGCTCATCGATGAGGAGGTCTGCAGTGGCATCAGCAAGAGCAGGATCCTGCTAGGAGGATTTTCTATGGGAGGATGTATGGCCATGCATTTAGCATATAGAAACCATCAAGATGTGGCAGGGGTATTTGCTCTTTCTAGTTTTCTGAATAAAGCATCTGCTGTTTACCAGGCACTTCAGAAGATGGATGGTGTGCTCCCAGAATTATTTCAGTGTCACGGCATGGCAGATGAGTTAGTTCTTCATTCCTGGGGCGAAGAGACAAACTCAATGTTAAAATGTCTAGGAGTGAACACAAAGTTTTACAGTTTTCCAAATGTGTACCATGAGCTCAGCAAAACTGAGCTGGAAACACTGAAGTATTGGATTCTTAAAAAGCTACCAGAAGAAATGGAAAAACAAAATGAATGA
LOC101708411 PREDICTED: Heterocephalus glaber uncharacterized LOC101708411 (LOC101708411), misc_RNA.
Length: 1772 bp>XR_206183.1 CTTGGACTTTGAGCCTCTAGAACTCTGAGTACATTTTCATTGTTTACGCTGCCTAGTTTGAGGTATTTTGTTAAGGCAGCCTGTGCTGACTCAGTCATATGTTAAACAGAGTGTGTTTAAAAGTAGTCTCCCATATCCAGGAAGATTGTGTTTCTAAATGGGTCACGGAAAGCTTTCCTCCTAGCCTCCTGACAGCTTTCTGTCCAGTGTTTGCTCCTTTCAAGAATTCTTCTCCCAGCACTGCAAGTGGAGATGGTGTTTGCTGTCGGCTGGAGACGAGACAGGTGGTCCACTCCTGAGCCGCACCCCAGCCCAGAGGTAAGTCTTGAAAGGCAAATCCGGATGAACTATTCTTCCACTTCTTTTTGCCTTGGTCCCACAAACAACCCCGTTGCTCTAAGGCATAGACTGCTGCACCACTCAACTCACCAGCAGGTCTTGCCCCTGTGGGCCTTGGCGTAGTCTCAGGGCTCCTCCTGTGATTCCCAGTTCTCTGTTGGTCCCTTCTCTTCCTGCACAGGCTAATTAAGCACATTCCACTCAGCTCCCAGGGCTCCGGCTCAGTCAGGTCATCACGTCTTCTTTGGGAAGCCTCATCTGGTTTTCTCGAACCTGTGCAAGAGACAAGTTGTACTTCAGCTCACCGATTTGGAGGTTTCAATCCATTGCTGGCCGCATTGCTTTGGAGTTTGCGGTGAGGCAGAACATTATGGCCCGGGTGTGACAGAGCAAAATCACTCCCTTCCTAGCTAGGAAATAAAAGGGAGAGGAGAGGAGGGAGCTGGGACCCCAGTATCACTCAAGGCCATTCCTGCTTCTTGCTTCCCACCAGTAGGGGGCCCACCCTTTAACACTGGAGACTGGAAGGTACTAAGCTGGAAACTGCAGGGTGGCCTGTCTGGCACTGTGTTAAACACTCAGCAGGCAAGGACTGCCTCTTCTGTGTATACATCTAGAACTTACCCTAGTAACTTGCAGGCCACGCGATGAGTTTTTCATGCAGGAAATAATGGAATGAGCTGTCATTTACTTTCCAGGTCTTTCTTACTGCCCTAACTGCCATGAATCCTAGTCACAAGCCGCAGATTCACGTCTGTACTTTCCGTGTCCCTGGATCTCAACCCTTCATGTTCCCTCTTTCTTGAGTTCAGACATAGGCACAAGATCTGCCCCCGTGGCTGATGCGTCTTTTCAAGATAATTCTAGTAGAGAAGAGAGAAATCTTTAAACAAAAGTGAATATTTTTGTGATCCTAGAATAGAATCTACAAATATTCTAACTCAGAGTATTTCAACAAAGGCTAAGTGACTCCAATTCCAAACCACTGGTTTTGTCCTCAGCAGAAATACATGTAAGACAAGAAAAGACAGAAACCTGTCACGTTGCAGTCATCTCTCAGAGTCTTTGTCCAGAGTCATCACCTCTCACGTGCGTCTTTCCCCGGACACTGTGAGGTCAGCCCTCCCAGCACTGTAGCAGACAGGACCCCGTGCCCAGGGACAATATCCTCACTAGCACTGACCCTTCCCAGAGGGGCCAACATCCACACCACCATGGGATTTCAGTAGCAGCACCTTGAAAAGAACATATCAACAAACAAAATATGCAACACTTGAGCATATGTAGAGAGAAGTTGTTTGGCTTGCTGAGTATTTCAGATGAAGCCCGGAGACTACAGAATGCTTTATGGCACATAGATCAAGAACCAATCCTAGATATTGTATATTTCAGCACTTGGAATTTACTGATGAAGAAATAAAGGATTAACAGAA
Slc30a10 solute carrier family 30, member 10
>XM_004867394.1 ATGGGCCGCTACACGGGCGCGACGTGCCGGCTGTGGGCCATGCTGGTGCTCACGGGCGGCTTCTTCGTGGCCGAGCTGGTGTCGGGCTACCTGGGCAACTCGATCGCTCTGCTGTCCGACTCCTTCAACATGCTGTCCGACCTCATCTCGCTGTGCGTGGGCCTGGTCTCTGGCCACCTGGCGCGGCGCACGCGCCGGGGCCTGCGCGCTACCTACGGGTTGGTGCGCGCCGAGGTGGTGGGCGCGCTCTGCAACGCCGTGTTCCTCACCGCGCTCTGCTTCACCGTCTTCGTGGAGGCCGTGCTGCGCCTGGCGCGGCCCGAGCGCATCGACGACCCGGGCCTGGTGCTGGTGGTGGGCGCCCTAGGGCTGGCGGTCAACGTGCTGGGGCTGCTCATCTTCCAGGACTGCGCCGCCTGGCTGGCCTGCTGCTCCCGGGCCCGGCGCGCTCGCCGGCGGCCCAGAGACCAGGACGGCGGCCCCCGGGGCGCCCAGGACCCGGCGTTCGCCGCCGCCCCGCCCGGCCCCAGCCGCGCGGGGGCGCAGGACAAGGGCGCCACGGTGATCGCCAGCGTAGCAGGTGATTCCCTGAACACCCAGAACGAGCCGGAAGAGACTGTGAAAAAGAAGAAGTCGGAAGCCCTGAATATCCGAGGGGTGCTCCTCCACGTGATGGGCGACGCCCTGGGCTCCGTGGTGGTGGTCGTCTCGGCCGTCATATTCTACGTGCTTCCTCTGGAGAGCACGCAGCCGTGTAACTGGCAGTGCTACATCGACCCCAGCCTGACTGTCATCATGGTCATCATCATCCTGTCGTCTGCCTTCCCGCTCATCAAGGAGACGGCCAGCATCCTCCTGCAGATGGTACCCCCAGGCGTCAACATGGAAGAGCTCATGAGCAGACTCTCCGCCGTGCCCGGCGTCAGCGGCGTGCACGAGGTCCACGTGTGGGAGCTGGTGAGCGGGAAGGCCATCGCCACGCTGCACGCCCAGCTCTGGGAGGCCCAGGCGCGCCCGGACGCCAGCGCGGAACTGCGGCGCATCTTCCACGGCGTGGGCGTCCACAGCGTCACCATCCAATTCGAGCGCGAGGACTCGCCGGCGGGCCCCGACTTCCTGCAGGCGTGCAGCAGCCCCTGCGTGTCCCGGGCCTGCGCTGAGAAGCTGTGCTGCCCGCCCGGGGCGCTGCCCCTGGCCCACGTCAACGGCTGTGCCGAGCGCAACGGGGGCCTGGCCCCCGAGGACCAGCGCTGGGCGCACAGCACGCATTTCTAG
Bpnt1 3'(2'), 5'-bisphosphate nucleotidase 1, transcript variant X1
Length: 1146 bp Location: 3722794..3705925 Strand: ->XM_004867396.1 ATGGCGTCCGGCCCGGCCGTGCTCATGCGCCTGGTGGCCTCGGCCTGCTCCATCGCGCAGAAGGCAGGCACGATCGTCAGGCGCGTGATCGCCGAGGGAGACCTAGGCATCGTGCAGAAGACCTGTGCTACGGACCTGCAGACCAAGGCCGACCGGCTGGTGCAGATGAGCATCTGCTCTTCCCTGGTGCGGAAATTCCCCAAGCTGACCATCATAGGAGAGGAGGACCTGCCCCCGGAGGATGTAGACCAGGAGCTCATCGAAGACGGCCAGTGGGAGGAGGTCCTGCAGAAGGCATGCCCTACGCAGTACCTCGCCGTTAAAGAGGAGGACCTTGTGGTCTGGGTTGACCCTCTGGACGGCACCAAGGAGTACACTGAAGGTCTCCTCGACAACGTGACTGTTCTCATTGGAATCGCCTATGAAGGGAAGGCCATAGCAGGCATTATTAACCAGCCCTATTACAACTACCAGGCAGGACCCAACGCGGAGCTGGGGCGGACCATCTGGGGTGTCCTGGGCTTGGGCGCCTTCGGGTTCCAGCTGCAGGAGGCACCCGCCGGGAAGCACATTGTCACCACCACCCGCTCACACGGCAGCAAGCTGGTGTCTGACTGCGTGAGCGCCATGGAGCCGGATGCCGTGCTGCGCGTGGGCGGTGCGGGGAACAAGATCATTCAGCTGATCGAAGGCAAGGCCTCTGCCTATGTGTTTGCAAGCCCAGGATGTAAGAAGTGGGACACTTGTGCGCCGGAAGTCATCTTACACGCGGTGGGAGGTGAGTGTGTTCTGTCCTGGAGAATGGCAGCTGCCTGTCTTGCTCAGACCTCACATCTGGTGCTAGTCCTGTACCCAGCTGTAGGGAGACTGGAGCTGTCCGGGCTGGAGCCCATACATATTTCATGGATGAGTAACTTGATTTTCAGAAAATTTGTTTTTCTTTTGTCCCTTTTTGGGACTTTGATCTGCATCATTCTTTTAATTCAGCTCTTACTTAGGGTTTATTTTTTAATTAATTTTTTTACTAGTACACATTTGTCATACGTATGGATCACATTAATCATAAGGAATTTGCACCTACATAATATCTCTTGGTTCCCCTTTCTTACTTGCTGTTTTAATGCTCTTGAAGATGTTTTTCCTTGA
Iars2 isoleucyl-tRNA synthetase 2, mitochondrial
>XM_004867399.1 ATGCGCTGGGGGTTGCGCTCTCGCGGGCCGGGGGCGGCAGCTGTGGCCGTGGCCCGCAGCCGCTGGGGGCCCCCCTGGTCCCCGCGTCTCCCTCCGGTGCGGGCAGCCTCGGGGGCTGGAGACCTGGCGGCCAGCCCGGACCGCGGCCGGTACCGAGACACCGTGCTGCTGCCGCGCACCGCCTTCCCCATGCGGCTGCCGGGCCGCCGCCAGCCGGACACGGAGCTGGAGATCCAGCAGAAATGTGGGTTTTCAGAACTTTATTCATGGCAAAGAGAAAGAAAAGTAAAGACAGAATTTTGTCTTCATGATGGACCTCCTTATGCCAATGGTGACCCTCACGTGGGACATGCTTTAAATAAGATTTTGAAAGACATTGCCAATAGGTACCATATGATGCGAGGGTCCAAAATCCACTTTGTGCCTGGCTGGGATTGCCATGGGCTGCCCATTGAGATAAAAGTTTTATCCGAACTTGGTGGAAAAGCTCAGAATCTTTCAGTTATGGAAATTAGAGAGAAAGCTAGGTCATTTGCTCAAGCGGCAATTGAGAAACAGAAGTCAGCATTTATTCGCTGGGGAATAATGGCAGATTGGAATAATTGCTACTACACATTTGATGGGAAGTATGAGGCCAAACAGTTGAGACTCTTTTACCAGATGTATGATAAGGGTTTGGTTTATCGGTCCTACAAGCCTGTGTTTTGGTCTCCCTCGTCAAGGACAGCCTTGGCAGAAGCGGAGCTTGAGTATAACCCTGAGCACGCCAGCCGCTCCGTGTACGTGACGTTCCCTCTCCGGACGCCTCCCCTGAAGCTGGCCTCGCTTCTCGATGGCGCCGCACCCGTGAGCGTGCTGGTGTGGACCACGCAGCCGTGGACAGTGCCAGCCAACCAGGCCGTGTGCTATTCGCCGCAGTCCAGGTATGCTGTTGTGAAATGTTCCACCTCAGGAGACCGCTACATAGTGGCTGCAGATAAAGTCACCTCTCTTGCTTCTACTTTGGACACAACATTTGAGGTTATATCAACATTTTCAGGTATAGATTTGGAAGGTGGTGCTTGTGGTCATCCTTTGATTCCAGATAAAGTGTCGCCTCTCTTACCTGCAACTCACGTGACCGTGGCGCAGGGCACGGGGCTGGTGCACACGGCCCCAGCTCATGGCATGGAGGACTATGGAGTGGCGGCTCAGCACAGTCTGCCCGTGGATTGTTCAGTGGACGAAGGTGGGATTTTCACAGCTGCTGCAGGCCCTGAACTTGAGAGCAAGGCTGTCCTGGAGGAGGGGACTGACGAGGTAATAAAGATGCTTCAGAGTGTGAAGAGTCTGTTGAAAGAGGAGACACTGATCCACAGCTATCCCTACGACTGGAGGACTAAGCAGCCCGTCATCATTCGTGCCAGCAAGCAGTGGTTTGTGAAGATCTCGGACATCAAGCCCGCAGCCCAGGAGGCATTGAAGACCGTGAAGTTCATTCCTGCAACGGCTCTGAACACCATGGCCGACATGCTGGAGCGGCGGCCGTATTGGTGCATCTCGAGGCAGCGGGCCTGGGGGGTGCCTATCCCCGTGTTCCACCACAGGGCCAGAGATGAGTGCTTGATCAGCAGCCAGACCGTGGAGCACATTGCCAAGCTGGTGGAGCAGCATGGCAGCGACGTCTGGTGGACGCTGCCCCCGGAACAGCTGCTCCCAAAGGAGGTCCTGTCCCAGCTCGGTGGTCCCGATGGCTTGGAGTACCTGCCTGGCCAGGACATCCTGGACATCTGGTTCGACAGTGGAACCTCGTGGTCTTGTGTTCTTCCAGGTGCCGAGCAGAGAGCAGACCTGTACCTGGAAGGCAGGGACCAGCTGGGCGGCTGGTTCCAGTCGTCCCTGCTGACGAGCATCGCAGCCAGGAAGAAGGCCCCGTTCAGGACAGTCATGGTTCATGGCTTTACCCTTGGAGAAAAGGGAGAGAAGATGTCCAAGTCCCTCGGCAATGTCCTGGACCCCGATGTCATCATCAGTGGGGGACAAGATCAGATTGCGGAGCCTCCATATGGGGTGGATGTCCTTCGCTGGTGGGTGGCCGCATCCAACATCTTCACGGAAGTGACCCTCGGGCCCTCTGCACTGAGCGCAGCCAGGGACGACATCAACAAGCTTAGGAATACACTCCGCTTTCTCTTGGGAAACGTGGCTGGCTTCACCCCGGAGACAGACTCCGTGCCTGTGGACAGCATGTACCTCATCGACCAGTACATGCTGCACCTGCTGCAGGGCTTAGCGAGCAAGGTCACCGACGCCTACAAACAGTATGATTTTGGGAAAGTTGTCCGACTGTTACAGGCGTTTTACACTCGGGAGCTCTCCAACTTTTACTTCAGCATCATCAAGGATCGCCTCTACTGCGAGAAGGAGGACGACCCCAAGCGCCGCTCCTGCCAGACGGCGCTGGCCCAGATCCTGGATGTGCTGGTTCGGGCCTTCGCGCCGATCCTGCCGCACCTGGCCGAGGAAGTGTTCCAACACCTGCCCTATGGCACAGAGCCCAAGAGTGTTTTCCGCACAGGCTGGATCAGCACCAGCTCCATCTGGAAGAAGCCTGGGCTGGAGGAGGCGGTGGAGAGCGCATGTGCAATGCGGGACTCGTTCCTCGGAAGCATCCCGGGCAGAAATGCTGCTGAGTACGAGGTCACCATTGTGATCGAGCCCGGCCTGCTCTTTGAGATCATCGAGATGCTGCAGGCCGAGGAGACATCCAGCGCCTCGCAGTTGAGCGAGCTCACGATGGCCTCGCAGTGTACGCTGCTGGCCCAGGAGCCGCGGCAGAGGCCGGCGGACGTGACCGAGCTCGCGGGGACCTTCCTCATCGACCTGGAAGGTGGCGACATTCGGGAGGAGTGCTCGTACAAAGTGCTCGTCACACGGGCCACCAAGGAGAAGTGCCCGCGCTGCTGGAGGCACACGGCCGAGTTGGCGGGCGCACTCTGCCCGCGCTGTGCGGGGGTGGTGGGCGGGGCGTAG
Mark1 MAP/microtubule affinity-regulating kinase 1, transcript variant X1
Length: 2571 bp Location: 4018382..4099948 Strand: +>XM_004867401.1 ATGTTTGTGGCTCTGCCCATTTTTCCAGGATTTCCTTTCTTTCAGAAAAAGAACTTTGCTGCACTGATTATTGATATTCCCCCTCCTCTTCAGAAAGCTCCTCTGCTGCCACTCTCTGTGGCTCAGCCAGAAGTCGCTGGAGTTCCTCTGAGGACAGTTCCTCTGAGTGTTCCTCCGCTGGTTCCTCAACATCACCACTGTCACCTGCAAGCCTGTGGACTCTGCTGTAGTGAGAATACGTCTGTGGATGAATACACTGAGCCACACATCCCGCCTACCAAATCAAGTAGCAGACAGAACATCCCCCGGTGTAGAAGCTCCATCACGTCGGCAACGGACGAGCAGCCTCACATTGGAAGTTACCGTTTACAGAAAACAATAGGGAAGGGGAACTTTGCCAAGGTGAAGTTGGCCAGACACGTGCTCACTGGTCGGGAGGTTGCTGTGAAAATAATAGACAAAACTCAGCTAAATCCTACCAGTCTACAAAAGTTGTTTCGAGAAGTACGAATAATGAAGATATTGAATCATCCTAATATAGTGAAATTGTTTGAAGTCATTGAGACAGAGAAGACCCTCTATTTAATCATGGAATATGCAAGTGGCGGTGAAGTGTTTGATTACTTAGTTGCCCACGGAAGGATGAAAGAGAAAGAGGCCCGTGCAAAATTTAGGCAGATTGTATCTGCTGTGCAGTATTGCCATCAAAAATGCATTGTTCACCGTGATCTTAAGGCTGAAAACCTTCTCCTTGATGCTGATATGAATATTAAAATTGCTGACTTTGGTTTTAGTAACGAGTTCACAGTGGGGAACAAATTGGACACATTTTGTGGAAGCCCTCCGTACGCCGCGCCCGAGCTCTTCCAAGGGAAGAAGTACGCGGGGCCCGAGGTGGACGTGTGGAGTCTCGGCGTCATTCTCTACACGCTGGTCAGCGGCTCCTTGCCCTTTGACGGCCAGAATCTGAAGGAACTGCGGGAGCGAGTCTTGCGGGGGAAGTACCGCATCCCCTTCTACATGTCCACGGACTGCGAGAACTTGCTCAAGAAGCTGCTGGTGCTGAACCCGGTCAAGAGAGGCAGCCTGGAACAAATAATGAAAGACCGATGGATGAATGTAGGTCACGAAGAAGAAGAACTAAAGCCATATACTGAGCCTGAACCGGACTTCAATGATACAAAAAGAATAGATGTTATGGTCACCATGGGCTTTGCCCGAGATGAAATAAATGATGCCTTAATAAATCAGAAGTATGATGAAGTTATGGCTACTTACATCCTTCTGGGTAGAAAGCCTCCTGAATTTGAAGGCGGTGAGGTGCTGTCCAGTGGGAACCTGAGTCAGAGGTCCCGGCCCAGCAGTGACCTGAACAACAGCACCCTGCAGTCCCCCGCGCACCTGAAGGTCCAGCGGAGCATCTCCGCCAATCAGAAGCAGCGGCGCTTCAGTGATCATGCCGGCCCATCCATCCCCCCCGCCGTGTCCTACACCAAGAGGCCCCAGGCCAACAGCGTGGAAAGCGAGCAGAAGGAAGAGTGGGACAGAGACATGGCCCGGAAGCTGGGCAGCGTCACGGTTGGCTCAAAGGGCGAGGAGACGGCCAGCCCCGTCGCGGGCCCCGAGAGGAGGAAGTCCTCCACCATCGCCGGCAACAATGTGTATCCTGGAGGCAGCATGGCAAGGAGGAACACGTACGTCTGCGAGAGAACAACAGACCGCTACGCGGCGCTGCAGAACGGAAAAGACAGCAGCCTCACAGAGATGTCTGTGAGTAGCATTTCCTCTGCGGGCTCCGCTGGGGCCTCTGCTGTCCCCTCCGCCCGGCCGCGGCACCAGAAGTCCATGTCAGCGTCTGGACACCCTATCAAGGTCACGCTGCCAACCATCAAAGACGGCTCCGAAGCGTACCGTCCCGGGGCCGCCCCGAGAGCTCCCGCCGCCTCCCCGTCTGCGCACAGCATCAGCGCCAGCACCCCAGACCGCACGCGCTTCCCCCGAGGCAGCTCCAGCCGCAGCACCTTCCACGGGGAGCAGCTCCGAGAGCGCCGCAGCGCCGCCCACAACGGGCCGCCCGCGTCGCCGGCCCACGAGCCCGGGGCGTTCGCGCACGCGCGGCGGGGCACGTCCACCGGGCTCATCAGCAAGCTCACGTCCAAGTTCGTGCGCAGGGATCCGAGTGAAGGCGAAGCCAGTGGAAGAACAGACCCGTCCAGAAGTGTGTCTGGGGAACCAAGAGAAAGAGACAAGGAAGATAGCAAAGACTCCAAGCCCCGGTCCCTGCGGTTCACATGGAGCATGAAGACCACGAGCTCCATGGACCCCAACGACATGATGCGCGAGATCCGCAAAGTGCTGGATGCAAATAACTGCGATTACGAACAGAAGGAGAGGTTCCTGCTCTTCTGTGTCCACGGGGATGCGCGGCAGGACAGCCTTGTGCAGTGGGAGATGGAGGTGTGCAAACTGCCACGCCTGTCGCTCAATGGCGTCCGCTTCAAGCGAATATCGGGGACGTCCATTGCCTTTAAGAACATCGCATCCAAAATAGCAAACGAGCTTAAACTGTAA
Mark1 MAP/microtubule affinity-regulating kinase 1, transcript variant X3
Length: 2382 bp Location: 4050358..4099948 Strand: +>XM_004867403.1 ATGGGGAGCACAGGAAGAGAGACACACTCCTGCCCTCAGAGGCGGAATACGTCTGTGGATGAATACACTGAGCCACACATCCCGCCTACCAAATCAAGTAGCAGACAGAACATCCCCCGGTGTAGAAGCTCCATCACGTCGGCAACGGACGAGCAGCCTCACATTGGAAGTTACCGTTTACAGAAAACAATAGGGAAGGGGAACTTTGCCAAGGTGAAGTTGGCCAGACACGTGCTCACTGGTCGGGAGGTTGCTGTGAAAATAATAGACAAAACTCAGCTAAATCCTACCAGTCTACAAAAGTTGTTTCGAGAAGTACGAATAATGAAGATATTGAATCATCCTAATATAGTGAAATTGTTTGAAGTCATTGAGACAGAGAAGACCCTCTATTTAATCATGGAATATGCAAGTGGCGGTGAAGTGTTTGATTACTTAGTTGCCCACGGAAGGATGAAAGAGAAAGAGGCCCGTGCAAAATTTAGGCAGATTGTATCTGCTGTGCAGTATTGCCATCAAAAATGCATTGTTCACCGTGATCTTAAGGCTGAAAACCTTCTCCTTGATGCTGATATGAATATTAAAATTGCTGACTTTGGTTTTAGTAACGAGTTCACAGTGGGGAACAAATTGGACACATTTTGTGGAAGCCCTCCGTACGCCGCGCCCGAGCTCTTCCAAGGGAAGAAGTACGCGGGGCCCGAGGTGGACGTGTGGAGTCTCGGCGTCATTCTCTACACGCTGGTCAGCGGCTCCTTGCCCTTTGACGGCCAGAATCTGAAGGAACTGCGGGAGCGAGTCTTGCGGGGGAAGTACCGCATCCCCTTCTACATGTCCACGGACTGCGAGAACTTGCTCAAGAAGCTGCTGGTGCTGAACCCGGTCAAGAGAGGCAGCCTGGAACAAATAATGAAAGACCGATGGATGAATGTAGGTCACGAAGAAGAAGAACTAAAGCCATATACTGAGCCTGAACCGGACTTCAATGATACAAAAAGAATAGATGTTATGGTCACCATGGGCTTTGCCCGAGATGAAATAAATGATGCCTTAATAAATCAGAAGTATGATGAAGTTATGGCTACTTACATCCTTCTGGGTAGAAAGCCTCCTGAATTTGAAGGCGGTGAGGTGCTGTCCAGTGGGAACCTGAGTCAGAGGTCCCGGCCCAGCAGTGACCTGAACAACAGCACCCTGCAGTCCCCCGCGCACCTGAAGGTCCAGCGGAGCATCTCCGCCAATCAGAAGCAGCGGCGCTTCAGTGATCATGCCGGCCCATCCATCCCCCCCGCCGTGTCCTACACCAAGAGGCCCCAGGCCAACAGCGTGGAAAGCGAGCAGAAGGAAGAGTGGGACAGAGACATGGCCCGGAAGCTGGGCAGCGTCACGGTTGGCTCAAAGGGCGAGGAGACGGCCAGCCCCGTCGCGGGCCCCGAGAGGAGGAAGTCCTCCACCATCGCCGGCAACAATGTGTATCCTGGAGGCAGCATGGCAAGGAGGAACACGTACGTCTGCGAGAGAACAACAGACCGCTACGCGGCGCTGCAGAACGGAAAAGACAGCAGCCTCACAGAGATGTCTGTGAGTAGCATTTCCTCTGCGGGCTCCGCTGGGGCCTCTGCTGTCCCCTCCGCCCGGCCGCGGCACCAGAAGTCCATGTCAGCGTCTGGACACCCTATCAAGGTCACGCTGCCAACCATCAAAGACGGCTCCGAAGCGTACCGTCCCGGGGCCGCCCCGAGAGCTCCCGCCGCCTCCCCGTCTGCGCACAGCATCAGCGCCAGCACCCCAGACCGCACGCGCTTCCCCCGAGGCAGCTCCAGCCGCAGCACCTTCCACGGGGAGCAGCTCCGAGAGCGCCGCAGCGCCGCCCACAACGGGCCGCCCGCGTCGCCGGCCCACGAGCCCGGGGCGTTCGCGCACGCGCGGCGGGGCACGTCCACCGGGCTCATCAGCAAGCTCACGTCCAAGTTCGTGCGCAGGGATCCGAGTGAAGGCGAAGCCAGTGGAAGAACAGACCCGTCCAGAAGTGTGTCTGGGGAACCAAGAGAAAGAGACAAGGAAGATAGCAAAGACTCCAAGCCCCGGTCCCTGCGGTTCACATGGAGCATGAAGACCACGAGCTCCATGGACCCCAACGACATGATGCGCGAGATCCGCAAAGTGCTGGATGCAAATAACTGCGATTACGAACAGAAGGAGAGGTTCCTGCTCTTCTGTGTCCACGGGGATGCGCGGCAGGACAGCCTTGTGCAGTGGGAGATGGAGGTGTGCAAACTGCCACGCCTGTCGCTCAATGGCGTCCGCTTCAAGCGAATATCGGGGACGTCCATTGCCTTTAAGAACATCGCATCCAAAATAGCAAACGAGCTTAAACTGTAA
Mark1 MAP/microtubule affinity-regulating kinase 1, transcript variant X4
Length: 1950 bp Location: 4071586..4099948 Strand: +>XM_004867404.1 ATGAAGTGTCCATTTTTGTTCTCCCGTAGCACCAGCACATTTTCTTGCACATCGCAGATTGTATCTGCTGTGCAGTATTGCCATCAAAAATGCATTGTTCACCGTGATCTTAAGGCTGAAAACCTTCTCCTTGATGCTGATATGAATATTAAAATTGCTGACTTTGGTTTTAGTAACGAGTTCACAGTGGGGAACAAATTGGACACATTTTGTGGAAGCCCTCCGTACGCCGCGCCCGAGCTCTTCCAAGGGAAGAAGTACGCGGGGCCCGAGGTGGACGTGTGGAGTCTCGGCGTCATTCTCTACACGCTGGTCAGCGGCTCCTTGCCCTTTGACGGCCAGAATCTGAAGGAACTGCGGGAGCGAGTCTTGCGGGGGAAGTACCGCATCCCCTTCTACATGTCCACGGACTGCGAGAACTTGCTCAAGAAGCTGCTGGTGCTGAACCCGGTCAAGAGAGGCAGCCTGGAACAAATAATGAAAGACCGATGGATGAATGTAGGTCACGAAGAAGAAGAACTAAAGCCATATACTGAGCCTGAACCGGACTTCAATGATACAAAAAGAATAGATGTTATGGTCACCATGGGCTTTGCCCGAGATGAAATAAATGATGCCTTAATAAATCAGAAGTATGATGAAGTTATGGCTACTTACATCCTTCTGGGTAGAAAGCCTCCTGAATTTGAAGGCGGTGAGGTGCTGTCCAGTGGGAACCTGAGTCAGAGGTCCCGGCCCAGCAGTGACCTGAACAACAGCACCCTGCAGTCCCCCGCGCACCTGAAGGTCCAGCGGAGCATCTCCGCCAATCAGAAGCAGCGGCGCTTCAGTGATCATGCCGGCCCATCCATCCCCCCCGCCGTGTCCTACACCAAGAGGCCCCAGGCCAACAGCGTGGAAAGCGAGCAGAAGGAAGAGTGGGACAGAGACATGGCCCGGAAGCTGGGCAGCGTCACGGTTGGCTCAAAGGGCGAGGAGACGGCCAGCCCCGTCGCGGGCCCCGAGAGGAGGAAGTCCTCCACCATCGCCGGCAACAATGTGTATCCTGGAGGCAGCATGGCAAGGAGGAACACGTACGTCTGCGAGAGAACAACAGACCGCTACGCGGCGCTGCAGAACGGAAAAGACAGCAGCCTCACAGAGATGTCTGTGAGTAGCATTTCCTCTGCGGGCTCCGCTGGGGCCTCTGCTGTCCCCTCCGCCCGGCCGCGGCACCAGAAGTCCATGTCAGCGTCTGGACACCCTATCAAGGTCACGCTGCCAACCATCAAAGACGGCTCCGAAGCGTACCGTCCCGGGGCCGCCCCGAGAGCTCCCGCCGCCTCCCCGTCTGCGCACAGCATCAGCGCCAGCACCCCAGACCGCACGCGCTTCCCCCGAGGCAGCTCCAGCCGCAGCACCTTCCACGGGGAGCAGCTCCGAGAGCGCCGCAGCGCCGCCCACAACGGGCCGCCCGCGTCGCCGGCCCACGAGCCCGGGGCGTTCGCGCACGCGCGGCGGGGCACGTCCACCGGGCTCATCAGCAAGCTCACGTCCAAGTTCGTGCGCAGGGATCCGAGTGAAGGCGAAGCCAGTGGAAGAACAGACCCGTCCAGAAGTGTGTCTGGGGAACCAAGAGAAAGAGACAAGGAAGATAGCAAAGACTCCAAGCCCCGGTCCCTGCGGTTCACATGGAGCATGAAGACCACGAGCTCCATGGACCCCAACGACATGATGCGCGAGATCCGCAAAGTGCTGGATGCAAATAACTGCGATTACGAACAGAAGGAGAGGTTCCTGCTCTTCTGTGTCCACGGGGATGCGCGGCAGGACAGCCTTGTGCAGTGGGAGATGGAGGTGTGCAAACTGCCACGCCTGTCGCTCAATGGCGTCCGCTTCAAGCGAATATCGGGGACGTCCATTGCCTTTAAGAACATCGCATCCAAAATAGCAAACGAGCTTAAACTGTAA
Marc2 mitochondrial amidoxime reducing component 2, transcript variant X1
>XM_004867406.1 ATGGGCGCCGCAGGCTCCAGCGCGCTCTCCCGCCTCGGCCTCCCCGCGCCCGTCCGGCCCGCGTGGCTCGGCGTCGCCGCTCTGGGGCTGGCGGCGGCGGCGCTGGGGGCGGTGGCCTGGCGCGCGCGGCCCCGGCGAGGCTGGCGACGGCAGCCGGTGGGCACCGTGGCGCAGCTCTGGGTCTACCCGATCAAGTCCTGCAAGGGGGTGGCGGTGCCCGAGGCCGAGGTGACGGCGCTGGGGCTGCGTGTGGGGCAGCTGCGCGACAGGTTTTGGATGGTGGTGAAGGAGGACGGACACATGGTTACTGCCCGGCAGGAGCCGCGCCTCGTCCTGGTCTCCATCACCTCGGAGGACGGCTTCCTGGTGCTCAGGGCACCTGGCATGGACCAGCTGGCGCTGCCCTACAAGCTGCCTTCTTCAAACAAGCTCCTTGATTGCAGGCTGTTTGGCCTCGACATCAAAGGCAGGGATTGTGGCGACGAGGTGGCCCAGTGGTTCAGCAGCTTCCTGAAGTCGGAAGCCTACAGGCTGGTGCAGTTTGAGACCAGCATGAAGGGGCGGACGTCCAAGGAGATCTTCCCCCAAGTGAAGGATTTAGGGTACCAGGTGCCCTATCCCGATGCCAGCCCGGTCCTGCTGCACACCGAGGCCTCGCTGGTGGACCTGAACACCCGGCTGGGGAAGAAGGTGAAGATGGAGCACTTCCGGCCCAACATCGTGGTGGGCGGCTGCGACGCCTTCGAGGAGGATACCTGGGAAGACCTGGTCATTGGGGACGTGGAGTTGAAGAGGGTCATGTCGTGCCCCAGGTGCATCTTGACCACTGTGGACCCTGACACGGGCATCCTCGACCGGAAGGAGCCACTGCAGACCCTGAAGAGCTACCGCCTGTGTGACCCCTCTGTGAAGCATTTGTACCAGTCGTCCCCGCTTTTTGGGGTCTATTTTATGGTGGAAAAGATTGGAGTCCTGAGAGTTGGGGACCCCGTGTACCAGCTGGTGGACTGA
Marc2 mitochondrial amidoxime reducing component 2, transcript variant X2
Length: 750 bp Location: 4150681..4163292 Strand: +>XM_004867407.1 ATGAGGGAGTTTTGGATGGTGGTGAAGGAGGACGGACACATGGTTACTGCCCGGCAGGAGCCGCGCCTCGTCCTGGTCTCCATCACCTCGGAGGACGGCTTCCTGGTGCTCAGGGCACCTGGCATGGACCAGCTGGCGCTGCCCTACAAGCTGCCTTCTTCAAACAAGCTCCTTGATTGCAGGCTGTTTGGCCTCGACATCAAAGGCAGGGATTGTGGCGACGAGGTGGCCCAGTGGTTCAGCAGCTTCCTGAAGTCGGAAGCCTACAGGCTGGTGCAGTTTGAGACCAGCATGAAGGGGCGGACGTCCAAGGAGATCTTCCCCCAAGTGAAGGATTTAGGGTACCAGGTGCCCTATCCCGATGCCAGCCCGGTCCTGCTGCACACCGAGGCCTCGCTGGTGGACCTGAACACCCGGCTGGGGAAGAAGGTGAAGATGGAGCACTTCCGGCCCAACATCGTGGTGGGCGGCTGCGACGCCTTCGAGGAGGATACCTGGGAAGACCTGGTCATTGGGGACGTGGAGTTGAAGAGGGTCATGTCGTGCCCCAGGTGCATCTTGACCACTGTGGACCCTGACACGGGCATCCTCGACCGGAAGGAGCCACTGCAGACCCTGAAGAGCTACCGCCTGTGTGACCCCTCTGTGAAGCATTTGTACCAGTCGTCCCCGCTTTTTGGGGTCTATTTTATGGTGGAAAAGATTGGAGTCCTGAGAGTTGGGGACCCCGTGTACCAGCTGGTGGACTGA
Marc1 mitochondrial amidoxime reducing component 1, transcript variant X2
Length: 1116 bp Location: 4164755..4178160 Strand: +>XM_004867409.1 ATGGGCGCTGCAGGCTCCCGCGCGCTCTCCCGCCTCGGCCTCCCCGCGCCCGCCGGGCCCGCGTGGCTCGGCGTCGCCGCTCTGGGGCTGGCGGCGGCGGCGCTGGGGGCGGTGGCCTGGCGCGCGCGGCCCCGGCGAGGCTGGCGACGGCAGCCGGTGGGCACCGTGGCGCAGCTCTGGGTCTACCCGATCAAGTCCTGCAAGGGGGTGGCGGTGCCCGAGGCCGAGGTGACGGCGCTGGGGCTGCGCGTGGGGCAGCTATGCGACAGGTTTTGGCTTGTGATCAACGAGGAGGAGAACATGGTGACCGCTCGACAGGAGCCTCGCATGGTCCTGATTTCTCCGACCTGTGAAGACGACACCCTGACTCTCAGTGCAGCCTACAGCCAGGACCTGCTGCTGCCCATCAAAACACCCACTACCAACCCGGTGCGCACGTGCAGGGTGCATGGCCTGGAGGTGCAGGGCCGGGACTGTGGCGAGGCAGCAGCGCAGTGGATCACCAGCTTCCTGCAGTCAAAGCCCTACCGCTTGGTGCACTTTGAGCTCCAGATGCGGCCCCGGAGCTCTCAGCAAATCAGGGCTGCATTTGGGCCCTCGGACCAGGTTGCCTACTCGGATTCCAGCCCATTCCTGGTCCTTTCTGAGGCCTCCCTGGCTGATCTGAACTCCAGGCTGGAGAAGAAAGTGACAGCAACCAACTTCCGGCCCAACATTGTCATCTCCGGATGTGGGGTCTACGAAGAGGACACCTGGGACGAGCTCCTCATCGGGGATGTGCGGCTGAGAAGGGTGATGGCCTGCTCCAGGTGCATCCTCACCACGGTGGACCCGGACACTGGCGTCATGCACAGGAAGGAACCGCTGGAGACGCTGAGGAGGGACGATAAAATCAGAGGCAGATGGAGACCAGTGATACTTCCCGGGTGCTATGGTTCGGATCTGAAATGTCCACCGCAAGCGTCAGGCGTGTGGAGGGTGAGTGGAAGATGGGACAAGGTGCTCCCCAGGGCTCCTCGTGGTGCCATGGAGGAGTCCCCTGGACCTTTCTCAATCCAGCCGGGTTGTCAGATCAGGTTAACCATCACAGTCCACCCTTCTCAGCTTGACAGCTAG
Marc1 mitochondrial amidoxime reducing component 1, transcript variant X3
Length: 1008 bp Location: 4164755..4177546 Strand: +>XM_004867410.1 ATGGGCGCTGCAGGCTCCCGCGCGCTCTCCCGCCTCGGCCTCCCCGCGCCCGCCGGGCCCGCGTGGCTCGGCGTCGCCGCTCTGGGGCTGGCGGCGGCGGCGCTGGGGGCGGTGGCCTGGCGCGCGCGGCCCCGGCGAGGCTGGCGACGGCAGCCGGTGGGCACCGTGGCGCAGCTCTGGGTCTACCCGATCAAGTCCTGCAAGGGGGTGGCGGTGCCCGAGGCCGAGGTGACGGCGCTGGGGCTGCGCGTGGGGCAGCTATGCGACAGGTTTTGGCTTGTGATCAACGAGGAGGAGAACATGGTGACCGCTCGACAGGAGCCTCGCATGGTCCTGATTTCTCCGACCTGTGAAGACGACACCCTGACTCTCAGTGCAGCCTACAGCCAGGACCTGCTGCTGCCCATCAAAACACCCACTACCAACCCGGTGCGCACGTGCAGGGTGCATGGCCTGGAGGTGCAGGGCCGGGACTGTGGCGAGGCAGCAGCGCAGTGGATCACCAGCTTCCTGCAGTCAAAGCCCTACCGCTTGGTGCACTTTGAGCTCCAGATGCGGCCCCGGAGCTCTCAGCAAATCAGGGCTGCATTTGGGCCCTCGGACCAGGTTGCCTACTCGGATTCCAGCCCATTCCTGGTCCTTTCTGAGGCCTCCCTGGCTGATCTGAACTCCAGGCTGGAGAAGAAAGTGACAGCAACCAACTTCCGGCCCAACATTGTCATCTCCGGATGTGGGGTCTACGAAGAGGACACCTGGGACGAGCTCCTCATCGGGGATGTGCGGCTGAGAAGGGTGATGGCCTGCTCCAGGTGCATCCTCACCACGGTGGACCCGGACACTGGCGTCATGCACAGGAAGGAACCGCTGGAGACGCTGAGGAGTTACCGCCAGTGTGACCCTTCGGAACAGAAGTTGTACGGGAAATTGCCCCTCTTTGGGCAGTACTTTGTTCTGCAAAGTCCAGGGACAGTCAGAGTGGGAGACACCGTGTACTTGCTGAGCCAGTAG
Marc1 mitochondrial amidoxime reducing component 1, transcript variant X1
Length: 1452 bp Location: 4164755..4177214 Strand: +>XM_004867408.1 ATGGGCGCTGCAGGCTCCCGCGCGCTCTCCCGCCTCGGCCTCCCCGCGCCCGCCGGGCCCGCGTGGCTCGGCGTCGCCGCTCTGGGGCTGGCGGCGGCGGCGCTGGGGGCGGTGGCCTGGCGCGCGCGGCCCCGGCGAGGCTGGCGACGGCAGCCGGTGGGCACCGTGGCGCAGCTCTGGGTCTACCCGATCAAGTCCTGCAAGGGGGTGGCGGTGCCCGAGGCCGAGGTGACGGCGCTGGGGCTGCGCGTGGGGCAGCTATGCGACAGGTTTTGGCTTGTGATCAACGAGGAGGAGAACATGGTGACCGCTCGACAGGAGCCTCGCATGGTCCTGATTTCTCCGACCTGTGAAGACGACACCCTGACTCTCAGTGCAGCCTACAGCCAGGACCTGCTGCTGCCCATCAAAACACCCACTACCAACCCGGTGCGCACGTGCAGGGTGCATGGCCTGGAGGTGCAGGGCCGGGACTGTGGCGAGGCAGCAGCGCAGTGGATCACCAGCTTCCTGCAGTCAAAGCCCTACCGCTTGGTGCACTTTGAGCTCCAGATGCGGCCCCGGAGCTCTCAGCAAATCAGGGCTGCATTTGGGCCCTCGGACCAGGTTGCCTACTCGGATTCCAGCCCATTCCTGGTCCTTTCTGAGGCCTCCCTGGCTGATCTGAACTCCAGGCTGGAGAAGAAAGTGACAGCAACCAACTTCCGGCCCAACATTGTCATCTCCGGATGTGGGGTCTACGAAGAGGACACCTGGGACGAGCTCCTCATCGGGGATGTGCGGCTGAGAAGGGTGATGGCCTGCTCCAGGTGCATCCTCACCACGGTGGACCCGGACACTGGCGTCATGCACAGGAAGGAACCGCTGGAGACGCTGAGGAGTGATGCCAGACGGGCCGTGGATCTGCCCGTGTCGCCCCCTCTGCTCCTGTGCCTTCTTCCTCAGCTTCTTGAGTTTTCCTCCTGGCGAAAGTGTTTCTGTAGAGGGTCTCAGTCGCCGCACACCTCCCCAGGCCACAGGTGCCGTTCCTGGGAGTGGGACCCTGCCCTGCTCCCAGCCCGTCTCCTGCAGGACACCCCCTGGAGCCGTCAGAGTGCTGGCCCCAGCATCCCGGGCTCCCTCCCTTGCACACACAGTGTTTGGGGTGGGCTTGGAGGACAAGGCGGGATTGCACTGCCTTGGGGACCCCACAGGAATCACAGTTGTAGGACACAGCGAGGGGAAGGAATTGAGAGGTACAGAGAACGAGCAGGGTGGAAGGGTCTGGCCTGGGCTGGAGCCAGCAGAACGTCTCTCCAGCCAAGCCAAAGAGTGGGACTGTGTTTCTTCAGCACTGGGGAGCTACTGAAGGTTTTGGAGCTAGGAAGGACAAGGCCAGAGCCAGATGGAGACAGTGTAGGCAGGAACTTGGTGGGGGCAGGTGGAGACAGGAGGTTGATTGGAAATTACTGA
Marc1 mitochondrial amidoxime reducing component 1, transcript variant X4
Length: 969 bp Location: 4164755..4176271 Strand: +>XM_004867411.1 ATGGGCGCTGCAGGCTCCCGCGCGCTCTCCCGCCTCGGCCTCCCCGCGCCCGCCGGGCCCGCGTGGCTCGGCGTCGCCGCTCTGGGGCTGGCGGCGGCGGCGCTGGGGGCGGTGGCCTGGCGCGCGCGGCCCCGGCGAGGCTGGCGACGGCAGCCGGTGGGCACCGTGGCGCAGCTCTGGGTCTACCCGATCAAGTCCTGCAAGGGGGTGGCGGTGCCCGAGGCCGAGGTGACGGCGCTGGGGCTGCGCGTGGGGCAGCTATGCGACAGGTTTTGGCTTGTGATCAACGAGGAGGAGAACATGGTGACCGCTCGACAGGAGCCTCGCATGGTCCTGATTTCTCCGACCTGTGAAGACGACACCCTGACTCTCAGTGCAGCCTACAGCCAGGACCTGCTGCTGCCCATCAAAACACCCACTACCAACCCGGTGCGCACGTGCAGGGTGCATGGCCTGGAGGTGCAGGGCCGGGACTGTGGCGAGGCAGCAGCGCAGTGGATCACCAGCTTCCTGCAGTCAAAGCCCTACCGCTTGGTGCACTTTGAGCTCCAGATGCGGCCCCGGAGCTCTCAGCAAATCAGGGCTGCATTTGGGCCCTCGGACCAGGTTGCCTACTCGGATTCCAGCCCATTCCTGGTCCTTTCTGAGGCCTCCCTGGCTGATCTGAACTCCAGGCTGGAGAAGAAAGTGACAGCAACCAACTTCCGGCCCAACATTGTCATCTCCGGATGTGGGGTCTACGAAGAGGACACCTGGGACGAGCTCCTCATCGGGGATGTGCGGCTGAGAAGGGTGATGGCCTGCTCCAGGTGCATCCTCACCACGGTGGACCCGGACACTGGCGTCATGCACAGGAAGGAACCGCTGGAGACGCTGAGGAGCATTTGTCCCGGGGCTGCAGTACGAGGAGCCCGTGCCACGACTGGGGCACAGCCGGGGCAGGCTGAGGGCTCGGGCTTCCAGACCTGA
Hlx H2.0-like homeobox
>XM_004867412.1 ATGTTCGCGGCCGGGGTGGCGCCCTTCTACGCCTCCAGCTTCGGCCTCTGGTCGGCCGCCTACTGCGCCCCGGCCGGCCCGGGCGGCTGCGCCTTCCCCGCCGACCCGGCCGCCAAGAAGCCGTCGTTCTGCATCGCCGACATCCTGCACGCGGGCGCGGCGGAGCCGGGCGCGGGCCCCGAGGCGCTGGCCGGGGTCTCGGCAGCCGCGCTGGCCGCGCACCTGGGCTCCGCGCACCCGCACGCGCCCTTCCCGGCGGCCGCCAGGTCCCCGCTGAGGCCCACGCCGGTGGTGGCGCCCCCGGAGGGGCCCGCCGGCTTCCCGCAGCGCCTGTCCCCGCTCCCCGTTGCCTTCCACGCGCGGCCCGCGCCGCCGCCGCCCGCGCCCCGGCCCGGCGCCCTGCAGCCCCCGGGCCCGGGGCCCCGCGCGGGCGGGCACCTCGGCGCCTCCACCCCGGCGCCCTCCAGCAAGGACCTCAAGTTTGGCATCGACCGCATTTTGTCGGCGGAGTTCGACCCCAAAGTGAAGGAAGGCAACACGCTGAGAGACCTGACCTCGCTGCTGGCCGGCGGGCGCCCTACCGGAGTGCACCTCTCGGCTCTGCAGCCCTCCGCCGGCCAGTTCTTCGCGTCCCTGGAGCCCATGAACGAGGCCTCCGCTCTGCTCAGCCCCTTAAGCTCCAACCCCAGAAATTCAGTTCAGCATCAATTCCAGGACACGTTTCCAGGTCCCTATGCGGTGCTCACCAAGGACACCATGCCTCAGACGTACAAGAGGAAACGCTCGTGGTCCCGCGCGGTCTTTTCCAACCTGCAGCGGAAAGGCCTGGAGAAAAGGTTTGAGATCCAGAAGTACGTGACCAAGCCGGACCGAAAGCAGCTGGCAGCGATGCTGGGCCTCACGGACGCACAGGTGAAGGTGTGGTTCCAGAACCGGCGGATGAAGTGGCGGCACTCCAAGGAGGCCCAGGCACAGAAGGGCAAGGACAAGGAGGCTGGGGAGAAGCCTTCGGGAGGAGCCCCGGGCGAAGGCGACCAGGACGAGAGGAGCCCCAGCCGCTCGGAGGGGGAGCCGGAGAGCGAGAGCAGCGACGCCGAGTCCCTGGACATGGCGCCCAGCGACACGGAGCGGACTGAGGGGGCCGAACGGCCTCTGCACCCGACCACGGTCATCAAGGCCTCGACCGCTGCTGCCCTGGTCACGGCGGGCGGTGGCGGCACTTTTGGCTTCAGCAGCCCAAGCGGCCTCGGGGGCACCAGCGCCAGCACCAGTGTGGGCAGCGGCACCTCGGAGCTGCTCCCTGAGCCCCAGGCCACCGGTGGCAGCTGCGCTCCCCAAAGCCCTGTGCCCAGCCAGGCCCCGCCGGGCGGCTTATAG
LOC101714969 PREDICTED: Heterocephalus glaber uncharacterized LOC101714969 (LOC101714969), misc_RNA.
Length: 1647 bp>XR_206185.1 GTTCTGACTTCTGGGCTCTTGGCAGCGCTGCGAGCCCAGCATGAGCTCGTGACATCATGTGCCAACAGTGCCTGGCTCATGCTGTCTCTTGGACAAAAATTTAGACAAGTTTTGACTTTGATCAAGAAGGGCGCTCATTTTTAGAAAAAATTTGGAGTCATGAATTCAAGAAATTTTCAACTGAAGCTGAGGATAGAACCCAGGACCTCTATACCAGCACCTTTGGCACCTTTCAAAGTGAGAGTGACTAATGTAAAACGTGAAAGCCAAGGCCAGAAGCAGAAAACCACTGCAGAAGGCACATGAGTAAGCGCTGGATATCTCAGATCATGGCTGGACTGCTTCAAAGAAGTAGCATCATGGTGGAAGGGAATGTGGGGCCAAGCTGGGTACCTCGTGGCCTGGAAGCAGAGCCCAGGGAGCGCTGTGCAGAGGTGTACCCACCCACGGCACCCCCTGGGCCACCTGCCTCCACGCAGGTGTCATCTCCTGACCGCACACCCAGCTGGGAGCACTGATGAATCGATCCACCGGTTCACAGCCTGGTTTATTCACTGCCTTTCTCTGGCTTGTCTCAGAAATCTTCAACATCAATCTCACCCCTTTGAACTGGGAAAGGCTCTCTTTGGGACACCCAAATTCCCCCAGACTCAAAAATTGTTAAGGCTCACCGGAACTTGTTAATTTGATAAGTTAAAGACCTAATGATACACAGATAGCTATGCGCACACAAACACTTCGTAGTCTCTATACCATACTGACTAGTAGGCTGATTGGCAGAGATATCTAAAAGGCCGAAAGCCCAGTGACCCAGCCACAGTAGGATTCAAGTCCAGTCTTCTGAGTATTTCTTTTAGAAGCTGCTGCTATGGCCCAGGGTTTCTGTGTCATCAGTTCTGGCCCACTGGGTGGCTGGAGGAGGGCAGGAATGGACAGGTTGCTGGAAAAAGGGGCTGTGTGGCCGACATGCTTGCAATTTATAGCACATCTCTGCTGAGCACACTTGCAAAAGCCATCACACTGCTGCCACACGCTTCAAGGAAGAGCTGGTGTTGAGGACGATGAAGACTCTCTGCACCGAGGGCCCTCCGGCAAGCCAGGAACATCTGTCACCAATATTTCTCCTTCCAATGGCACCTGCGGCTTCCCTACCCACCCTGCATACTTCCTGCTGCCTCTCTTCACTTCCCCTCACCTCCATGAAACACAGGCGCTGTGTAGGGGAGGTCTGGCGGGTGTCTGTGTGATTTAGAGCCCGGGCTTCAGTGTCTGAGCTCACATTCCAGGCCTGACAACTGAGTCCCATAAACTCTCCTGTCACTTCCCGGCCCCTCCTCCGGCTCCTGCCCTGGAGCTCCCCTCCCTCGCTCTGTAAACTCCGGGAGTTTTGCTTCCAAGGGCTCACATTTGGAGGTAGGAATTACAATGGACTTTCAGGAGCCAAAGCAAACCCTACAGTGAGAGGATGAACCCCACTCAAAGAGCTCTGCACGCATCATCACCTCAAGTCTGAGGCGTGGCAGAGTCACAGGCTAGAGAAGGAGGAAAATTCGGGATTTTCGAAAAAGTAAAGTATGCTTCATCTGGATGCAGTAAATTTTATTTTTATGAAGGTGGTTGTAAATTTCAATAAATCTCCTACTTTGA
LOC101715560 survival motor neuron protein-like
Length: 891 bp Location: 4955691..4956624 Strand: +>XM_004867414.1 ATGGTGATGGGCAGCAACAGCGATGGCGGCTGCACCCCAGAGCAGGAAGACTCTGTGCTGTTCCAGCTCGGTACAGGCCAGAGTGATGATTCTGACATTTGGGATGATACAGCATTGATAAAAGCTTACGATAAAGCTGTGGCTTCCTTTAAGCATGCTCTAAAGAATGGTGACATTTCAGATAAACCAAAAGGTGAAACTTCAGACAAACCAAAAGGCACACCTAGAAGAAAACCTTTTAAGAAGAGTAAAAGCCAAAAGAAGACTATCACAGCTCCCTTGAAACAGTGGAAAGTGGGTGACAGATGCTCTGCCATTTGGTCAGAAGATGGCTGTATTTACCCAGCTACCATCACTTCTGTTGATTTGAAGAGAGAAACCTGTGTCATGGTCTACACTGGATATGGAAACGGAGAGGAGCAAAATCTGTCTGATCTGCTTCCCCAGACCTGTGAGGCAGCTAACAACATGAAACAGAATGCTCAGGAGAATGAAAATGAAAGTCAGGTTTCAACGGATGAAGGTGAGAACTCTTTCAAGTCTCCAGGAAGTAAACCAAGTAACATCAGGTCAAAAGCTAGGCCCTGGAACTCCTTTTTCCCTCTGCCACCACCCATTCCTGGCTCAGGATTGAGACCCGGAAAGCCAGGTCTAAAATTCAGTGGCCCACCTCTTCCACCACCACCACACTTCCTGTCATGCTGGCTGCCTCCACTTCCGTCTGGACCACCAATGATCCCACCACCACCTCCTATCTGTCCAGACTCGTTCAATGACGCAGATGCACTGGGCAGCATGCTGATGTCATGGTACAAGAGTGGCTATCACACTGGCTACTACATGGGTTTCAGACAAAATCAAAAAGAAGGGAGGGGCTCACATTTTAACTGA
unclassified transcription discrepancy mRNA
Length: 1545 bp Location: 5114265..5103599 Strand: ->XM_004867463.1 ATGTTCTTGTTGGGCCAGGCAGGCTTGCAGCAGGGACACCCCCAGTGCCTGGATTATGGGGCCCCCTTCTGGAGCCCTGTGCACCTCGAGTTCTGCTCTGACTACTGGTCCTTCGGGTGTTGTGATTAGCACAAGGACCGCCGCATCACTGGGCGGTACAAGGACATCCTGAGCCACCTCGACCTGCAGGCACATGAAGACAGTACTGGACACCTGACCGCCCCTCTCCCCCAGGAGTGCTCGCCCTGTGCTGCCCGCCTGTGCAGTGCCGAGAGCCCTCAGAAGCCCTCTNGCAGCCTGCCGGGCCTCTGCTCTGACTACTGCTCTGCCTTCCTCTCCAGCTGCCGCTCTGCAATCTCCCTGCTCACCAACNTACGCGGCCTCCAGTGGCCCCACGACAAAGACGGCACCTGCTTCTGCCACCTGCTCAACCTCCCGGACAAGGGCTACTGCTTCCCCAGTGTACTGAGGAGCCGGCATCTCATCTGCAACCTGGAGGTGGTGGCCAAGGGCCATCGGGGCTACCTGCAGCTCTGCCTCCCGAGGTGGCCAACAGGCNNTGAGGAACCCGTGTCCATGGTCCACAGCGGGGACGTCACGCATTGCCTCTTTGTGGCCGAGCAGGTGGGAGTGGTGTGGGTCTACCTGCCCGACTCGAGCCACCTGGAGCAGCCGTTCCTGGACCCCAGGAGTGCTGTGCTGACCACGCCGTGGATCAGGGATGAGAGAGGCTTCCTGGGCTTGGCCCTTCATCCCCAGTTCTGTATTTATTACTCACGCCTGGGCAAGATGAAGGCAGAGAAGATCCGCATCAGTGAGATGAAGGTTTCTTAGGCTGGCCCCAACAGAGCAGAACCAAAGTCGGAGAGGGTCATCTTGAAGATAGAAGAGCCGGCCTCCAGTCACAATGGTGGACAGCTGCTCTTTGACCTGGGCGGCTATCTGTCCACATTCACGGGGGGACGGGGGCAGGCCGGGGACCCCTTTGGGAAGTTTGGAAATGCTCAGAACAAGCGAGCAGGAAGCTCTTGGAGGGAGCCCTTAGAAGTGGAGGAAGGAGGGCTGGAAGGGCCTCAGCTCACAGAGAGGGCCGGCACGGTGCCTGTGACTGCCTGCCTCCCGGGGGGTGGGCTTCCTGTGCCATCCCTCCTGCCTGTGCTTCTTGGCGAGTGCCATGGGGCAGTGAGGACCGAGAGCAGGCGGACCCGGTTCAGGCCACTTGCCACCACAGTCCTGGACTTGCTGAAGGAGCAGNNACAGAAGGCTGCTAAGAACTGGTCCAGTGTGGCCTTGTTGCCCAGCCTAGAGCGGGCTTTGGCTCACACAGCTTCCTCCAGGGCGCCAACTCCTCCTTTGAGCAGCAAGGAGGCCTCACAGGAACCTGGGACCAAGAAGAATGCCAGAGTGTGGTCTCCAGGGGCGCTGCTGTCCCCTGAAGGAATGAACGGCCTGGTTGTGGGCACTGAGAGTGCTTCTGCAGGGTCATGTCCCACACTGCCTCCACGCCTCCCAGTGCCCGAGGTCCCTGTGCTGGCGCATAGCTGA
Taf1a TATA box binding protein (TBP)-associated factor, RNA polymerase I, A, 48kDa, transcript variant X2
Length: 1125 bp Location: 5141620..5121533 Strand: ->XM_004867416.1 ATGCACAGCTACCTGCAGATCCTGGAGGATTTTGACAGCAACCAGAGGCAAACAGCGCCAGAGATCATATGGAAGCTTGGAAGCGAAATTCTATTTTATCACCCCAAAAGCAGCGTGGAGACTTTCAACACCTTTGCAGACCAGATGAAGAACATTGGCGTCTTGAACTATTTGAAGATCTCCTTACAGCACGCGCTGTACCTCATTCACTGCGGGAAGCTGGAGGAGGCGAGCAGAAATCTCAGTCAGGCAGAGACGTGGAGATACGGGGAGAAGTCATCCTCCCAGGAGATGCTGATCAACCTGGCGCAGGCCTATAAGGGGCTCTTGGAATATTTCAGTTGGTCTAAAAAGAAGATGGAATTGTCAAAGCTTGATAAGGATGATTATGCTTATAGCACAGAAGCCCGAAATATATTCAGCCACAGCTGGAAAACATCTGTAAATTTTAGTGCACTGATTAAAACTCCTGGAGTTTGGGACCCTTTTGTGAAGAGTTACGTAGAGATGCTGGAATTCTATGGTGACCGAGACGGAGCCCGAAAGGTGCTCACCAGCTACGCATATGATGAAAAGTTCCCTTCAAACCCGAATGCCCACATCTACTTGTACAACTTTCTAAAGAGAGAGAAGGCACCAAGAGCGAAACTGCTAAGTGTGCTTAAGATTTTGTATCAGATTGTACCATCTCATAAACTGATGTTAGAATTCCATATGCTACTTAGAAAATCAGAAAAAGAGGAACACCATAAACTGGGATTGGAAGTGTTATTTGGGCTCCTGGATTTTGCTGGATGCACTAAGAACATAACTGCTTGGAAATATTTGGCAAGCTATCTGAGACAGATTTTAATGGAGAATCGTGTTGCATGGGTCCAGGAAGAGTGGAAGTCCAGGAGGAACTGGTGGCCAGCCTTCCATTTCAGCTACTTTTGGGCAAAAAGTGATTGGAAGGAAGATAAAGATTTGGCTTATGAGAAAGCACTGGTAGCTGGAATGTTATTAGGAAAAGGTTATAGGTATTTTCGATATATTTTAAAACAAGACCATCATGACCTAAGGAAGAAAATTAAGCAGATGAAGAAATCAGTGAAGAAATACAGCATTGTAAAACCAGCAGTATGA
Aida axin interactor, dorsalization associated
>XM_004867417.1 ATGTCGGAGGGGACCCGCAGTCTGCTGCAGCGCTGGGGCGCCAGCTTTAGGAGAGGCGCCGACTTCGACTCTTGGGGCCAGCTGGTGGAGGCGATAGACGAGTATCAGATATTAGCAAGACATCTACAAAAAGAGGCCCAAGCTCAACACAATAATTCTGAATTCACAGAAGAACAAAAGAAAACCATAGGCAAAATTGCAGCATGCTTAGAATTGAGAAGTGCAGCTTTACAGTCTACACAGTCCCAAGAAGAATTTAAACTGGAGGACCTGAAGAAGCTAGAGCCAATCCTAAAGAATATTCTTACATATAATAAAGAATTCCCATTTGATGTTCAGCCTGTCCCATTAAGGAGAATTTTAGCACCTGGTGAAGAAGAGCATTTGGAATTTGAAGATGATGAGGAAGAGGGTGGCGCTGGAGGAGGGTCTCCGGACTCCTTTCCTGCTAGAGTCCCGGGTACTTTATTACCAAGGTTGCCGTCAGAGCCGGGCATGACATTACTCACCATCAGAATTGAGAAAATTGGGCTGAAAGACGCCGGGCAGTGCATCGATCCCTATATGACAGTCAGCGTAAAGGACCTGAACGGCATAGATTTAACGCCTGTGCAGGACACTCCGGTGGCTTCAAGAAAGGAAGACACATACGTTCACTTCAGTGTGGACATTGAGCTCCAGAAGCATGTGGAGAAGTTGACCAAAGGTGCAGCTATCTTCTTTGAATTCAAACACTACAAGCCTAAGAAGAGGTTCACCAGCACCAAGTGCTTCGCTTTCATGGAGATGGATGAGATTAAGCCTGGGCCCATTGTGATAGAGCTCTACAAGAAACCCACTGACTTTAAAAGAAAAAAGTTACAGTTACTGACCAAGAAACCACTTTATCTTCATCTGCATCAAACTTTGCACAAGGACTGA
LOC101716483 PREDICTED: Heterocephalus glaber uncharacterized LOC101716483 (LOC101716483), misc_RNA.
Length: 1153 bp>XR_206186.1 GGACGGGTGTCAGGCGGGCGGCGGAGCTTCCCACGCGGCCCGGGAGGACGCGGCCTGCGGGGCGGGGCGGGCACTGAGCCTCCAGCCGCGTCTCTCTGCCGCACTGCGGAGCTGCCGTCCAGCAGCAAGCGCATCTGCTTTTCTCTGACTAGGAGAGAACATCTGGCTTAAGCCATCATGAAGCTGAGTTGCCCCCCGACTTTCCCTCAGTATAAGCACCTGAAATCCGCGATGCTTGCCTTCCCTGCAGTGCCCGTGAGGAAGCCAAAGCCACCTCCCAGCTCGGGGTCTAAACATTGCTCTGCTTCCACCCCCACCTGCCCAGTATCTGTTGTCCCGGTTCCAGCCAGGGATATTTTTAAATGTGAATTTGATCTTGTGTCTCCTCGACCAAAGCCTTCCTGGGGCTTCCCTTTGCCCCTGAATGCAGTGACTTTCTTGTGGACCACACTGTCTCATTTAGTCTGACCACTCTCATCCCTTAGCCACTTCCTGGCAAGCTGCCCTGGCTCTGTTAGTTCAGATTCACCAAGCCACACCTGCCTCTGTGCCTTCACACTTACAACTTTCCCAAAACTTCGAGTAATTCTCCAAGCAGTCTTCTTGCCTTAGTGTCCCCATGTCGCCAAGTCTCTACGACAGGGGACAGTGGCACGTCACATGGCAGAGCCCTTCCCCAGACACCCTGCATAACAGGAGTGCTTCCCAGGAGCAGGGCCCACACCCATTTGATTGCTTTCAGAGCACTCACCGCCTGCCTTGCATTTGTTTACCCAACTGACAGCTTGCACCCTAACGCAGATGCAAGCCCCACAGCACAGGGCGTGTTGTCATGTCCACTGCTGTCACACCAGGACATGGGATGTCTGCAGTGGGCCAGGTACCTGACAAGTGACTGTTGGATGAACTGGCTCCTCACATGCTATCAGTCCGTCACACTGTTAGGCCAAGCCAAGACCCCAGATGTAAACAGCACCTGAGGAAACACCAGGAGAAAGGTGTGGAATGTGCTCCCCTCAGCGGTGGCAGCCCCAACACTGGGAACAGCCCACATGCCCCTGGTGTTGAACAAGAATGCTCTTCAGTGGAGGGTAGGGAAGTCCCACTGTGCTTTTTTCCTGCACTACCAGAATATTAAAGCACGTGAAAAGTA
Brox BRO1 domain and CAAX motif containing, transcript variant X2
Length: 1236 bp Location: 5240346..5261299 Strand: +>XM_004867422.1 ATGACCCATTGGTTTCATAGGAACCCACTAAAAGCTACAGCTCCTGTCTCTTTTAACTACTATGGTGTGGCCACTGGCCCTCCTGCTTCAAAAATTTGCAATGACCTGAGATCATCCAGGGCACGCCTCCTTGAACTGTTCACTGATCTGAGCTGTGACCCAGAAATGATGAAGAATGCAGTAGATTCATACTTTTCACTTCTGCAAGGTTTCATAAATTCACCAGATGAGTCTACACAGGAAAGCAAGTTACGATATATTCAGAATTTCAAGTGGACTGATACATTACATGGACAGGTTCCAAGTGCCCAGCAGGATGCTGTTTTTGAATTAATTTCCATGGGATTTAATGTAGCTTTGTGGTATACCAAATATGCTTCAAGACTGGCTGGAAAAGAAAACATAACAGAAGATGAAGCAAAGGAGGTCCACCGAAGCCTAAAAATTGCGGCTGGAATTTTTAAACATTTGAAGGAAAGTCACATCCCAAAGCTTATCACGCCTGCAGAGAAGGGACGGGATCTGGAGCCCCGGCTCATAGAAGCATATATTAGCCAGTGTCAGGCAGAAGCTCAAGAAGTGACAATTGCCAGAGCAATTGAACTAAAACATGCTCCGGGGCTGATTGCCGCGCTGGCCTATGAAACGGCCAATTTCTACCAAAAAGCCGATCATACTTTATCCAGTTTGGAGCCTGCATATTCTGCTAAATGGAGAAGATATCTTCACTTGAAAATGTGTTTCTACACAGCTTACGCGTACTGTTACCACGGTCAGACCCTGCTGGCTGCCGATAAATGTGGTGAAGCAATCAGGTCCCTCCAGGAAGCAGAAAAACTGTATGCCAAGGCAGAAGCACTCTGCAAAGAGTATGGAGAGACCAAGGGGCCTGGGCCTACGGCCACACCTTCGGGACACCTGTTCTTCAAGAAGCTGGGAAACCTGGTGAAAAGCACACTGGACAAGTGTCAGAGGGAGAACGGGTTTATTTACTTTCAAAAAATTCCAACAGAAGCCCCGCAGCTGGAACTCAAAGCCAATTACGGGCTGGTAGAGCCTGTGCCTTTCGAATTTGCTCCTGCAAGCGCTCAGTGGACACCAGAAACGCTGGCATCATTTGACCTCACCAAGAGACCCAAGGACGAGAGGGCCAAACCCAAGCCAGAAGAAGAAGTGAAACCTGTGAAAGAACCAGACATCAAGCCCCAAACGGACACTGGGTGCTGCCTCTCCTGA
Brox BRO1 domain and CAAX motif containing, transcript variant X1
Length: 1236 bp Location: 5241104..5261299 Strand: +>XM_004867421.1 ATGACCCATTGGTTTCATAGGAACCCACTAAAAGCTACAGCTCCTGTCTCTTTTAACTACTATGGTGTGGCCACTGGCCCTCCTGCTTCAAAAATTTGCAATGACCTGAGATCATCCAGGGCACGCCTCCTTGAACTGTTCACTGATCTGAGCTGTGACCCAGAAATGATGAAGAATGCAGTAGATTCATACTTTTCACTTCTGCAAGGTTTCATAAATTCACCAGATGAGTCTACACAGGAAAGCAAGTTACGATATATTCAGAATTTCAAGTGGACTGATACATTACATGGACAGGTTCCAAGTGCCCAGCAGGATGCTGTTTTTGAATTAATTTCCATGGGATTTAATGTAGCTTTGTGGTATACCAAATATGCTTCAAGACTGGCTGGAAAAGAAAACATAACAGAAGATGAAGCAAAGGAGGTCCACCGAAGCCTAAAAATTGCGGCTGGAATTTTTAAACATTTGAAGGAAAGTCACATCCCAAAGCTTATCACGCCTGCAGAGAAGGGACGGGATCTGGAGCCCCGGCTCATAGAAGCATATATTAGCCAGTGTCAGGCAGAAGCTCAAGAAGTGACAATTGCCAGAGCAATTGAACTAAAACATGCTCCGGGGCTGATTGCCGCGCTGGCCTATGAAACGGCCAATTTCTACCAAAAAGCCGATCATACTTTATCCAGTTTGGAGCCTGCATATTCTGCTAAATGGAGAAGATATCTTCACTTGAAAATGTGTTTCTACACAGCTTACGCGTACTGTTACCACGGTCAGACCCTGCTGGCTGCCGATAAATGTGGTGAAGCAATCAGGTCCCTCCAGGAAGCAGAAAAACTGTATGCCAAGGCAGAAGCACTCTGCAAAGAGTATGGAGAGACCAAGGGGCCTGGGCCTACGGCCACACCTTCGGGACACCTGTTCTTCAAGAAGCTGGGAAACCTGGTGAAAAGCACACTGGACAAGTGTCAGAGGGAGAACGGGTTTATTTACTTTCAAAAAATTCCAACAGAAGCCCCGCAGCTGGAACTCAAAGCCAATTACGGGCTGGTAGAGCCTGTGCCTTTCGAATTTGCTCCTGCAAGCGCTCAGTGGACACCAGAAACGCTGGCATCATTTGACCTCACCAAGAGACCCAAGGACGAGAGGGCCAAACCCAAGCCAGAAGAAGAAGTGAAACCTGTGAAAGAACCAGACATCAAGCCCCAAACGGACACTGGGTGCTGCCTCTCCTGA
LOC101704672 actin cytoskeleton-regulatory complex protein PAN1-like
Length: 876 bp Location: 5515391..5519103 Strand: +>XM_004867464.1 ATGCGGGTCGAAGCTCTGGCCATCTACTTCTGGAACATCTCCTCTCAGCTCCTGGGCATGGAGGAGCACAGAGAACGGCGGAGCCAGACGCGGGTCCTAATCAGGACCGCGGAGGGAAGACGCTGCCGTATGTGCAGGGTGCGCCAGTCTTGGGGCGGGGGTTCCGGGCTGGGCACTCGCGGGGGGCCAGGTGCTGCAGTCGCGGCCGCCGGTCCCACCCAGGGGACAGCGCGAGCTGACCTGGTCTCGCCGCTGGCCCTCAGGACAGCCCTGCCACCCACGGCGCGCACACCAGGGTCACCGGGCCTCCCGATCCCCGAGGGAAGGGCCCGCCTGGACGCCGGAAGCAGCGTGGGGCAGAGGCTGCCCACCGCCGCGTCCTCACCCCGCATCCCAGGGCGCTCACTTCCTGGGTCCGGATTTGCGCCGCCAGAAGTCGCCAGACGGCGCTGGGGGGATCCAGGTCGACCCAGAGGTCCAGCCCCGCCCACTGCCAGCCCGCCCCGCCCTCCTGCCCCGCCCCCGCCCCCCAGGCCGAGCAGCCCCTGCCCCCCAGCATCAGCCCTACCAGCCAGGACCCCTGACCCTCAGAGAGGGAGACATGGAGTGGCCACTGCCTCAAGTCTGCTCTTCTGGGATTTTGTTGCGCAACAGCAGGAAGCAAACACAGCAGGCCGCCAGCGACCTCAGCCGGCTCTGTGTGACACGGTCAGTGAGCAGGACACGGTGACTGTGTCCACTGCAGCCCGCCTGGGCCGTGGGGAGGGCACGCGGAGCTCTGCGGTGCCCCCACTCCGTCGGGGCACCGACGGCGGCTGTCGAGGATCAGCCCGCACCCCAGGAGTAGGCCGTCTCTGGGGGCCCGGCGCGGACTGA
Susd4 sushi domain containing 4
>XM_004867465.1 ATGCATCGCGGAGCGCGCCCGCGCCGTGGACGCCGTGGAGACCGCGCAGACCGTGGGGACCGTGCACGCGCGTTCCTGGCGCCGTCGCCGGCCCCCGGGAGACTCCCGGCCGCGACCCTGTGGCTGCAGCTGGCGCTGTGCCTGGGCCCCGCGCAGCTCACGGCCGGGCTCGATGAACTGCGCGTGTGTGCCGACCCCGGCGTCCCGGAGAACGGCTTCCGGGCCCCCAGCGGAGGGGTCTTCTTCGAGAGCTCGGTGACCCGGTTTCACTGCCAGGACGGCTTCAAGCTGAAGGGCTCCACGAAGAGGCTGTGCCTGAAGCACCCCAATGGGACGCTGGGCTGGGTCCCCGGCGACAGGCCGGTCTGCGTGCAGCAAGCTTGCCGCATGCCTCAGATTGAAGATGCTGAGATTCATAACAAGACGTATAGACACGGAGACAAGCTGATCATCGCCTGTCACGAGGGATTCAAGATCCGCTACCCCGACCTGTACAATGTGGCTTCGCTGTGTCAAGACGACGGCACGTGGGACAACCTGCCCCTCTGTCAAGGCTGCCTGAGACCCCTGGCCTCCTCCAACGGCTACGTGAACATCTCCGAATTCCAGACCTCCTTCCCCGTGGGGACTGTGATTGCCTACCGCTGCTTCCCGGGGTTCAAGCTCGAGGGGTCTGAGTTCCTCGAGTGCCTGCACAGCCTCATCTGGTCGTCCAGCCCGCCCCGGTGCCTTGCTCTGGAAGTTTGCCCACTGCCTCCCACGGTGAGTCACGGCGACTTCATCTGCCACCCGCGGCCTTGCGAGCACTACAACCACGGCACGGTGGTGGAGTTCTACTGCGACCCTGGCTACAGCCTCACCAGCGACTACAAGTACATCACCTGCCAGTACGGGGAGTGGTTTCCCTCCTACCAGGTCTACTGCCTCCAGTCCGAGCACACCTGGCCTGGCACACACGAGACCCTCCTGACCACCTGGAAGATTGTGGCATTCACGGCCACCAGTGTCCTGCTGGTGCTGCTGCTCGTCATCCTGGCCAGGATGTTCCAGACCAAGTTCAAGGCCAGCTTCCCACCCAGGGGCCCCCCCAGGAGCTCCAGCAGCGACCCCGACTTCGTGGTGGTGGACGGCGTCCCCGTCCTGCTGCCGTCCTATGACGAGGCTGTGAGCGGAGGTGCGAGTGCCTTAGGCCCCGGGCTCCTGGCTGCTGTGGGGCGGGGCTGCCTGGTGCCCGTGGATGACCAGAGCCCCCCCGCCTACCCCGGGGATGAGGACATGGGCACAGGGGCCTCCTGGGAGACCTGCAGCAGCGCCTCGGGCTCCTCCGAGCTGCTCCAGAGTCTGTACCCACCTCCCCCGAGTCAGACGCGTGCCTGCCCCACCCCCGAGGACCCCGACCCAGTGGCCAGCACCCTGGACGTGGCATCCACCAGCCCAGGCATTGACATTGCGGACGAGATCCCTCTGATGGAAGAAGGCCCCTAG
Capn2 calpain 2, (m/II) large subunit, transcript variant X1
Length: 2223 bp Location: 5713251..5741368 Strand: +>XM_004867429.1 ATGGCGGGGATGGCGGAGCGGCTGGCGCGGGAGCGCGCGGCGGCGGCCGGGCTGGGCTCCCACGAGCGCGCCGTGCAGCACCTGGGCCAGGACTTCGCGGCGCTGCGGGACGCGTGTCTGGCGGACGGCTCGCTCTTCCAGGACCCGGCCTTCCCCGCCGTGCCCGCCGCGCTGGGCTTCGCCGAGCTGGGCCCGCGCTCCAGCAAGACGCGCGGCGTGGAGTGGAAGCGGCCGCCGGAGATCTGCGCGGACCCCCAGTTTATTGTCGGAGGAGCCACGCGCACAGACATCTGCCAGGGAGCCCTGGGTGACTGCTGGCTGCTGGCCGCCATCGCCTCTCTCACCTTGAATGAAGAGATCCTGGCGCGCGTTGTGCCCCTGGACCAGAGCTTTCAGGAGAACTACGCTGGCATCTTCCGCTTCCAGTTCTGGCAGTATGGCGAGTGGGTGGAGGTGGTGGTGGACGACAGGCTGCCCACCAAGGACGGGGAGCTGCTGTTCCTGCACTCGGCCGAGGGCACCGAGTTCTGGAGCGCGCTGCTGGAGAAGGCCTACGCCAAGATCAATGGCTGCTATGAAGCGCTGTCGGGGGGCGCCACCACTGAGGGCTTCGAGGACTTCACTGGAGGCATCGCGGAGTGGTACGAGCTGCAGAAGCCGCCTCCCAACCTGTTCAGGATCATCCAGAAGGCGCTGGAGAAGGGCTCGCTGCTTGGCTGCTCCATCGACATCACCAGCGCCGCGGACTCGGAGGCTGTCACGTACCAGAAGCTGGTGAAGGGGCATGCGTACTCAGTCACCGGGGCCGAGGAGGTGGACAGTTCCGGGAGCCTGCAGAAACTGATCCGCGTGCGGAACCCCTGGGGACAGGTGGAGTGGACCGGGAAGTGGGGCGACAACTGCCCAAACTGGAACACAGTGGACCCAGAGGTCAGGGAAAGGCTGACCGTGCGGCTCGAGGACGGGGAGTTCTGGATGTCCTTCGGCGACTTCCTGCGGCACTATTCCCGCTTGGAGATCTGCAACCTGACGCCCGACACCCTGACCAGCGACACCTACAAGAAGTGGAAGCTGACCAAGATGGATGGGAGCTGGCGGCGGGGCTCCACCGCGGGCGGCTGCAGGAACTACCCCAACACCTTCTGGATGAACCCCCAGTACCTGATCAAGCTGGAGGAGGAGGACGAGGACCAGGAGGATGGCGAGGGCGGCTGCACCGTCCTGGTGGGGCTCATCCAGAAGCACCGGCGGCGGCAGAGGAAGATGGGCCAGGACATGCACACCATCGGCTTCGGCATCTACGAGGTCCCAGAGGAGCTGGCCGGGCAGACCAACATCCACCTGGGCAAGAACTTCTTCCTGACGACCCGCGCCCGTGAGCGCTCGGACACCTTCATCAACCTGCGCGAGGTGCTCAACCGCTTCCGGCTGCCCCCGGGGGAGTACATCCTTGTGCCGTCCACCTTCGAGCCCCACAAGGACGGCGACTTCTGTGTCCGTGTCTTCTCCGAGAAGAAGGCCGACTACCAGGCTGTGGACGACAAAATCGAGGCCAACCTGGAAGAGATAGACGCTGGCGAGGACAACATCGATGACGGCTTCCGCAGGCTGTTTGCCCAGCTGGCGGGGGAGGACGCAGAGATCTCAGCCTTCGAGTTGCAGACCATCCTGAGGAGAGTGCTGGCGAAGCGACAAGACATCAAGTCAGACGGCTTCAGCATCGAGACCTGCAAGATCATGGTGGACATGCTGGACTCGGACGGGAGCGGCAGGCTGGGGCTGAAGGAGTTCTACATCCTGTGGACGAAGATCCAGAAGTACCAGAAAATTTACCGGGAGATCGACATAGACAGGTCTGGCACCATGAACTCCTACGAGATGCGGAGGGCGCTGGAGGAAGCAGGGTTCAGGCTTCCTTGCGAACTGCACCAAGTCATCGTTGCCCGGTTTGCAGACGACGAGCTCATCATCGACTTTGACAACTTCGTCCGGTGCCTGGTTCGGCTGGAGACGCTGTTCAAGATATTCAAGCAGCTGGACCCCGAGGACACCGGGACCATCCAGCTGGACCTCATCTCTGTAAGTCACAGCTGTCACGAGGGAGGGTCCGGGGCTCTCGGTGCGGCTCGAGGACCCACTTTCTGCAGCGGTGCTCTCAAGCCTGGTGGTCTCCCGGGAACAGGCCGGCGGGCGGCTCATCGCTGTCCCGACTCTCGAGGCTAA
Tp53bp2 PREDICTED: Heterocephalus glaber tumor protein p53 binding protein, 2 (Tp53bp2), transcript variant X8, misc_RNA.
Length: 3470 bp>XR_206187.1 CCCGGCGGTGCAGCTGGGGCCGCGGAAACAAAGCCGCGCGGCCGCAACAGGTCCCCGATTGGGTCCGCAGTCCCGGACTCCGGGGCCCACGGATCCATGCGGTCCGTGCCCAGCATGATGCCGATGTTCCTGACTGTGTACCTCAGCAACGACGAGCAGCACTTCACGGAGGTGCCCGTCACCCCGGAGACCACGTGCCGTGACCTGGTGGACCTGTGCAAGGAGCCCGGCGAGAGCGAGTGCTACCTGGCCGAGGTGTGGCACGGCTCCGAGCGCCCAGTTGCTGATAATGAACGAATGTTCGATGTTCTTCAGCGACTGGGAAGCCAGCGCAGTGAAGTTCGTTTCTTCCTCCGCCACGAGCGCCCGCCCGGCAGAGATGTAGTGAGTGGCCTGAGGTCTCAGGATCCAAGTCTGAGAAGAAATGGTGTGAAAGTCCCTGGAGAACACCGGAGAAAGGAGAATGGAGTGAGCAGTCCCCGCATGGACCCGACACTGGCTGAGCTCCAGGAAATGGCGTCTCGCCAGCAGCAGCAGATCGAGGCCCAGCAGCAGATGCTGGCCGCCAAGGAACAGCGCTTAAAATTTTTGAAGCAACAAGATCAGCGTCAGCAGCAACAGGCCGCCGAGCAGGAGAGGCTCAAGAGGCTGAGAGAACTGGCTGAGAGCCAGGAAGCCAAGCTGAAGAAAGTGCGGGCACTCAAGGGCCATGTGGAGCAGAAGCGGCTGAGCAACGGGAAGCTTGTGGAGGAAATTGAGCAGATGAATAGTTTGTTCCAGCAGAAGCAGAGGGAGCTAGTCCTGGCCGTGTCGAAAGTAGAGGAACTCACGAGGCAGCTGGAGATGCTGAAGAACGGCAGGATCGATGGCCAGCATGACAGCCAGTCCGCGGTGGCCGAGCTGGACTGGCTGTACAAGGAGCTGCAGCTGAGGAACAAGCTGAACCAGGAGCAGAACACCAGGCTGCAGCAGCAGAGGGAGTGTCTGAACAAGCGCAACTCTGAGGTGGCCGTCATGGACCGGCGTGTCAGTGAGCTCCGTGACCGGCTGTGGAAGAAGAAGGCGGCACTGCAGCAGAAGGAGAACCTGCCGGTTCTGTCCGATGGGAATCTCACCCAGCTGCCCGTGTCCGCTCCGAGCCGAGTGGCTGCCGTGGGTCCGTACATCCAGTCCTCCACCATGCCGCGGCTGCCCCCGAGGCCGGAGCTGCTGGTGAAGCCAGCGCTGCCTGAGGGTCCCCTGGCCCTGCAGGCCTCCGAGGTGAAGATTCAGACGCTGCCCAACACGAGGACCACTGCGGCCCCTCTGCAGGCCAAAGGGCCGAGAGTCCCTCCCGCTGGGCCTGACTGGGCCCCTTCGAGTGCGGACCTTTGCTCCCTGCCTCAGAGTGCTAGGCCTGCGCCAGACCAAGTTGCCGATGGGGAGGTTCCGCTGAGGGAAAAGGAGAAGAAAGTCCGGCCCTTCTCCATGCTTGATGCGGTGGACCAGGGGGCGGCCCCGCCCGGCTTCGGCATGCTGCGGAAGAACCAGAGCAGCGAGGACATCCTGCGCGATGCTCAGGCTGCAAATAAGAACGTGGCTAAAGTGCCGCCTCCTGTTCCTACAAAACCAAAACAGATGAACTTGCCTTATTTTGGACAAGCCAGCCCATCACCATCTGACACCAAGCCGGAGGGAGGCCCACAGCAGTTGCCTGAAGCCTCGACAGCCGTGGGCCCTAAGCCCAAGGCAGCAGGGCCACAGCCGAGGGCGGCGTTGTCCCCCAGCGTGCCTTCAGGTGGCCACGACCATGGCCTGTCTGCAGGGCCTAAGCAGGAGAGCCCACCCGCTGCTGCGGTCCGGCCCTTCACGCCCCAGCCTCCCAAAGATGCCGCCCTCCCCGCCTTCAGGAAGCCCCAGACAGTGGCTGCCAGCTCCATCTACTCCATGTACACGCAGCACCAGGCGCCGGGGAAGAGCTTCCAGCAGGCCGTGCAGAGCGTGCTGACCAAGGCACAGCCCCGCGGCCCGCACTTCGCAAGCGTGTATGGCAAGCCTGTGCTTGTGGCGGCCCAGAACCTGCAGCAGCAGCCGCCCGAGAGCGCGCACTGCAGCAGCCAGGGCCCGCCGGGCAGCCCGGAGCCCGACTCAGAGCCCGCGTCCTCGGCCCCCGAGAGCCAGGAGAACGAGCGCACCCCGCGCCCGCTCAGCCCCACCAAGCTGCTGCCTTTCCTGTCCAACCCCTACCGGAACCAGAGCGACGCCGACCTGGAGGCCCTGCGCAAGAAGCTCTCCAACGCCCCCCGGCCGCTGAAGAAGCGCAGCTCCATCACGGAGCCAGAGGGGCCCAGTGGGCCCAACATCCAGAAGCTGCTGTACCAGAGGACCACGCTGGCCGCCATGGAGACCATCTCAGTGCCCGCCCACCCCGGCAAGGCATCTGCACCTGCTGGCCCGGAGAGCCCAGGAGAGGTCCCCAACCCCTACTTACCCGTGGAGCCCGAGGAGGAGGCCGCCCGCGCCCCCGTGCCACTGTCCCCAGAGGATGCGGGGCCCCCTGGCGACGGGCCCGCTCCTTCCCCAGACCCGGACTCTGTGCCCGAATGGGCAGCGGACGGCAGCCCAGGCGCCCAGGGTGCCCAGGAGGAGCCCCATGCAGAGCGCCCCCCCCCGCCGGAGGTGTACCTGGAGGAGTACCCCCCGTACCCCCCGCCGCCCTACCCGTCCGGGGACCCCGAGGGGCCTGGAGAGGACCCCGCCAGCATGCGCCCCCCTGAGGTCACCGGGCAGGGCGCCCTGCCCCCTGGCAAAAGGACAAACTTGCGTAAGACAGGCTCGGAGCGGATTGCCCATGGAATGAGGGTCAAGTTCAACCCTCTGGCCTTGCTTCTGGATTCCTCGTTGGAGGGAGAATTCGACCTCGTGCAGAGAATCATTTATGAGGTGGAGGACCCCAGCCTGCCAAATGACGAGGGCATCACTGCACTGCACAACGCCGTGTGCGCGGGACACACAGAGATCGTGAAGTTCCTGGTGCAGTTTGGGGACCCCGCTGCACTGTGCAGCCTCGTGCAACAACGTGCAGGTCTGCAAGTTCCTGGTGGAGTGCGGGGCGGCCGTGTTCGCCATGACCTACAGCGACATGCAGACGGCGGCCGACAAGTGCGAGGAGATGGAGGAGGGCTACGCACAGTGCTCGCAGTTCCTCTACGGGGTTCAGGAGAAGATGGGGATCATGAACAAGGGAGTCATCTACGCGCTCTGGGACTACGAGCCTCAGAACACGGACGAGCTGCCCATGAAGGAAGGGGACTGCATGACCATCGTCCGCCGCGAGGACGAGGATGAGATCGAGTGGTGGTGGGCACGGCTGAGCGACCAGGAGGGTTACGTCCCACGCAACCTGCTGGGCCTGTACCCGAGAATCAAACCAAGACAAAGAAGCTTGGCCTGAAACTCCACAGAATTTTACCTAATGAAGACTTACTCTG
Tp53bp2 tumor protein p53 binding protein, 2, transcript variant X5
Length: 3324 bp Location: 5790525..5746499 Strand: ->XM_004867435.1 ATGCGGTCCGTGCCCAGCATGATGCCGATGTTCCTGACTGTGTACCTCAGCAACGACGAGCAGCACTTCACGGAGGTGCCCGTCACCCCGGAGACCACGTGCCGTGACCTGGTGGACCTGTGCAAGGAGCCCGGCGAGAGCGAGTGCTACCTGGCCGAGGTGTGGCACGGCTCCGAGCGCCCAGTTGCTGATAATGAACGAATGTTCGATGTTCTTCAGCGACTGGGAAGCCAGCGCAGTGAAGTTCGTTTCTTCCTCCGCCACGAGCGCCCGCCCGGCAGAGATGTAGTGAGTGGCCTGAGGTCTCAGGATCCAAGTCTGAGAAGAAATGGTGTGAAAGTCCCTGGAGAACACCGGAGAAAGGAGAATGGAGAACAGCGCTTAAAATTTTTGAAGCAACAAGATCAGCGTCAGCAGCAACAGGCCGCCGAGCAGGAGAGGCTCAAGAGGCTGAGAGAACTGGCTGAGAGCCAGGAAGCCAAGCTGAAGAAAGTGCGGGCACTCAAGGGCCATGTGGAGCAGAAGCGGCTGAGCAACGGGAAGCTTGTGGAGGAAATTGAGCAGATGAATAGTTTGTTCCAGCAGAAGCAGAGGGAGCTAGTCCTGGCCGTGTCGAAAGTAGAGGAACTCACGAGGCAGCTGGAGATGCTGAAGAACGGCAGGATCGATGGCCAGCATGACAGCCAGTCCGCGGTGGCCGAGCTGGACTGGCTGTACAAGGAGCTGCAGCTGAGGAACAAGCTGAACCAGGAGCAGAACACCAGGCTGCAGCAGCAGAGGGAGTGTCTGAACAAGCGCAACTCTGAGGTGGCCGTCATGGACCGGCGTGTCAGTGAGCTCCGTGACCGGCTGTGGAAGAAGAAGGCGGCACTGCAGCAGAAGGAGAACCTGCCGGTTCTGTCCGATGGGAATCTCACCCAGCTGCCCGTGTCCGCTCCGAGCCGAGTGGCTGCCGTGGGTCCGTACATCCAGTCCTCCACCATGCCGCGGCTGCCCCCGAGGCCGGAGCTGCTGGTGAAGCCAGCGCTGCCTGAGGGTCCCCTGGCCCTGCAGGCCTCCGAGGTGAAGATTCAGACGCTGCCCAACACGAGGACCACTGCGGCCCCTCTGCAGGCCAAAGGGCCGAGAGTCCCTCCCGCTGGGCCTGACTGGGCCCCTTCGAGTGCGGACCTTTGCTCCCTGCCTCAGAGTGCTAGGCCTGCGCCAGACCAAGTTGCCGATGGGGAGGTTCCGCTGAGGGAAAAGGAGAAGAAAGTCCGGCCCTTCTCCATGCTTGATGCGGTGGACCAGGGGGCGGCCCCGCCCGGCTTCGGCATGCTGCGGAAGAACCAGAGCAGCGAGGACATCCTGCGCGATGCTCAGGCTGCAAATAAGAACGTGGCTAAAGTGCCGCCTCCTGTTCCTACAAAACCAAAACAGATGAACTTGCCTTATTTTGGACAAGCCAGCCCATCACCATCTGACACCAAGCCGGAGGGAGGCCCACAGCAGTTGCCTGAAGCCTCGACAGCCGTGGGCCCTAAGCCCAAGGCAGCAGGGCCACAGCCGAGGGCGGCGTTGTCCCCCAGCGTGCCTTCAGGTGGCCACGACCATGGCCTGTCTGCAGGGCCTAAGCAGGAGAGCCCACCCGCTGCTGCGGTCCGGCCCTTCACGCCCCAGCCTCCCAAAGATGCCGCCCTCCCCGCCTTCAGGAAGCCCCAGACAGTGGCTGCCAGCTCCATCTACTCCATGTACACGCAGCACCAGGCGCCGGGGAAGAGCTTCCAGCAGGCCGTGCAGAGCGTGCTGACCAAGGCACAGCCCCGCGGCCCGCACTTCGCAAGCGTGTATGGCAAGCCTGTGCTTGTGGCGGCCCAGAACCTGCAGCAGCAGCCGCCCGAGAGCGCGCACTGCAGCAGCCAGGGCCCGCCGGGCAGCCCGGAGCCCGACTCAGAGCCCGCGTCCTCGGCCCCCGAGAGCCAGGAGAACGAGCGCACCCCGCGCCCGCTCAGCCCCACCAAGCTGCTGCCTTTCCTGTCCAACCCCTACCGGAACCAGAGCGACGCCGACCTGGAGGCCCTGCGCAAGAAGCTCTCCAACGCCCCCCGGCCGCTGAAGAAGCGCAGCTCCATCACGGAGCCAGAGGGGCCCAGTGGGCCCAACATCCAGAAGCTGCTGTACCAGAGGACCACGCTGGCCGCCATGGAGACCATCTCAGTGCCCGCCCACCCCGGCAAGGCATCTGCACCTGCTGGCCCGGAGAGCCCAGGAGAGGTCCCCAACCCCTACTTACCCGTGGAGCCCGAGGAGGAGGCCGCCCGCGCCCCCGTGCCACTGTCCCCAGAGGATGCGGGGCCCCCTGGCGACGGGCCCGCTCCTTCCCCAGACCCGGACTCTGTGCCCGAATGGGCAGCGGACGGCAGCCCAGGCGCCCAGGGTGCCCAGGAGGAGCCCCATGCAGAGCGCCCCCCCCCGCCGGAGGTGTACCTGGAGGAGTACCCCCCGTACCCCCCGCCGCCCTACCCGTCCGGGGACCCCGAGGGGCCTGGAGAGGACCCCGCCAGCATGCGCCCCCCTGAGGTCACCGGGCAGGGCGCCCTGCCCCCTGGCAAAAGGACAAACTTGCGTAAGACAGGCTCGGAGCGGATTGCCCATGGAATGAGGGTCAAGTTCAACCCTCTGGCCTTGCTTCTGGATTCCTCGTTGGAGGGAGAATTCGACCTCGTGCAGAGAATCATTTATGAGGTGGAGGACCCCAGCCTGCCAAATGACGAGGGCATCACTGCACTGCACAACGCCGTGTGCGCGGGACACACAGAGATCGTGAAGTTCCTGGTGCAGTTTGGGGTGAATGTGAACGCTGCCGACAGCGACGGGTGGACCCCGCTGCACTGTGCAGCCTCGTGCAACAACGTGCAGGTCTGCAAGTTCCTGGTGGAGTGCGGGGCGGCCGTGTTCGCCATGACCTACAGCGACATGCAGACGGCGGCCGACAAGTGCGAGGAGATGGAGGAGGGCTACGCACAGTGCTCGCAGTTCCTCTACGGGGTTCAGGAGAAGATGGGGATCATGAACAAGGGAGTCATCTACGCGCTCTGGGACTACGAGCCTCAGAACACGGACGAGCTGCCCATGAAGGAAGGGGACTGCATGACCATCGTCCGCCGCGAGGACGAGGATGAGATCGAGTGGTGGTGGGCACGGCTGAGCGACCAGGAGGGTTACGTCCCACGCAACCTGCTGGGCGTGAGTGACCTGCCGTGCGCACTTGCGTGTGTGTGTGTGGGGGGGGCTTGGCGAGGTCCGTGTGTCGTGCACCCAGTGCAGCCCTCTTCCCTGTTATGA
Tp53bp2 tumor protein p53 binding protein, 2, transcript variant X6
Length: 3258 bp Location: 5790525..5750033 Strand: ->XM_004867436.1 ATGCGGTCCGTGCCCAGCATGATGCCGATGTTCCTGACTGTGTACCTCAGCAACGACGAGCAGCACTTCACGGAGGTGCCCGTCACCCCGGAGACCACGTGCCGTGACCTGGTGGACCTGTGCAAGGAGCCCGGCGAGAGCGAGTGCTACCTGGCCGAGGTGTGGCACGGCTCCGAGCGCCCAGTTGCTGATAATGAACGAATGTTCGATGTTCTTCAGCGACTGGGAAGCCAGCGCAGTGAAGTTCGTTTCTTCCTCCGCCACGAGCGCCCGCCCGGCAGAGATGTAGTGAGTGGCCTGAGGTCTCAGGATCCAAGTCTGAGAAGAAATGGTGTGAAAGTCCCTGGAGAACACCGGAGAAAGGAGAATGGAGTGAGCAGTCCCCGCATGGACCCGACACTGGCTGAGCTCCAGGAAATGGCGTCTCGCCAGCAGCAGCAGATCGAGGCCCAGCAGCAGATGCTGGCCGCCAAGGAACAGCGCTTAAAATTTTTGAAGCAACAAGATCAGCGTCAGCAGCAACAGGCCGCCGAGCAGGAGAGGCTCAAGAGGCTGAGAGAACTGGCTGAGAGCCAGGAAGCCAAGCTGAAGAAAGTGCGGGCACTCAAGGGCCATGTGGAGCAGAAGCGGCTGAGCAACGGGAAGCTTGTGGAGGAAATTGAGCAGATGAATAGTTTGTTCCAGCAGAAGCAGAGGGAGCTAGTCCTGGCCGTGTCGAAAGTAGAGGAACTCACGAGGCAGCTGGAGATGCTGAAGAACGGCAGGATCGATGGCCAGCATGACAGCCAGTCCGCGGTGGCCGAGCTGGACTGGCTGTACAAGGAGCTGCAGCTGAGGAACAAGCTGAACCAGGAGCAGAACACCAGGCTGCAGCAGCAGAGGGAGTGTCTGAACAAGCGCAACTCTGAGGTGGCCGTCATGGACCGGCGTGTCAGTGAGCTCCGTGACCGGCTGTGGAAGAAGAAGGCGGCACTGCAGCAGAAGGAGAACCTGCCGGTTCTGTCCGATGGGAATCTCACCCAGCTGCCCGTGTCCGCTCCGAGCCGAGTGGCTGCCGTGGGTCCGTACATCCAGTCCTCCACCATGCCGCGGCTGCCCCCGAGGCCGGAGCTGCTGGTGAAGCCAGCGCTGCCTGAGGGTCCCCTGGCCCTGCAGGCCTCCGAGGTGAAGATTCAGACGCTGCCCAACACGAGGACCACTGCGGCCCCTCTGCAGGCCAAAGGGCCGAGAGTCCCTCCCGCTGGGCCTGACTGGGCCCCTTCGAGTGCGGACCTTTGCTCCCTGCCTCAGAGTGCTAGGCCTGCGCCAGACCAAGTTGCCGATGGGGAGGTTCCGCTGAGGGAAAAGGAGAAGAAAGTCCGGCCCTTCTCCATGCTTGATGCGGTGGACCAGGGGGCGGCCCCGCCCGGCTTCGGCATGCTGCGGAAGAACCAGAGCAGCGAGGACATCCTGCGCGATGCTCAGGCTGCAAATAAGAACGTGGCTAAAGTGCCGCCTCCTGTTCCTACAAAACCAAAACAGATGAACTTGCCTTATTTTGGACAAGCCAGCCCATCACCATCTGACACCAAGCCGGAGGGAGGCCCACAGCAGTTGCCTGAAGCCTCGACAGCCGTGGGCCCTAAGCCCAAGGCAGCAGGGCCACAGCCGAGGGCGGCGTTGTCCCCCAGCGTGCCTTCAGGTGGCCACGACCATGGCCTGTCTGCAGGGCCTAAGCAGGAGAGCCCACCCGCTGCTGCGGTCCGGCCCTTCACGCCCCAGCCTCCCAAAGATGCCGCCCTCCCCGCCTTCAGGAAGCCCCAGACAGTGGCTGCCAGCTCCATCTACTCCATGTACACGCAGCACCAGGCGCCGGGGAAGAGCTTCCAGCAGGCCGTGCAGAGCGTGCTGACCAAGGCACAGCCCCGCGGCCCGCACTTCGCAAGCGTGTATGGCAAGCCTGTGCTTGTGGCGGCCCAGAACCTGCAGCAGCAGCCGCCCGAGAGCGCGCACTGCAGCAGCCAGGGCCCGCCGGGCAGCCCGGAGCCCGACTCAGAGCCCGCGTCCTCGGCCCCCGAGAGCCAGGAGAACGAGCGCACCCCGCGCCCGCTCAGCCCCACCAAGCTGCTGCCTTTCCTGTCCAACCCCTACCGGAACCAGAGCGACGCCGACCTGGAGGCCCTGCGCAAGAAGCTCTCCAACGCCCCCCGGCCGCTGAAGAAGCGCAGCTCCATCACGGAGCCAGAGGGGCCCAGTGGGCCCAACATCCAGAAGCTGCTGTACCAGAGGACCACGCTGGCCGCCATGGAGACCATCTCAGTGCCCGCCCACCCCGGCAAGGCATCTGCACCTGCTGGCCCGGAGAGCCCAGGAGAGGTCCCCAACCCCTACTTACCCGTGGAGCCCGAGGAGGAGGCCGCCCGCGCCCCCGTGCCACTGTCCCCAGAGGATGCGGGGCCCCCTGGCGACGGGCCCGCTCCTTCCCCAGACCCGGACTCTGTGCCCGAATGGGCAGCGGACGGCAGCCCAGGCGCCCAGGGTGCCCAGGAGGAGCCCCATGCAGAGCGCCCCCCCCCGCCGGAGGTGTACCTGGAGGAGTACCCCCCGTACCCCCCGCCGCCCTACCCGTCCGGGGACCCCGAGGGGCCTGGAGAGGACCCCGCCAGCATGCGCCCCCCTGAGGTCACCGGGCAGGGCGCCCTGCCCCCTGGCAAAAGGACAAACTTGCGTAAGACAGGCTCGGAGCGGATTGCCCATGGAATGAGGGTCAAGTTCAACCCTCTGGCCTTGCTTCTGGATTCCTCGTTGGAGGGAGAATTCGACCTCGTGCAGAGAATCATTTATGAGGTGGAGGACCCCAGCCTGCCAAATGACGAGGGCATCACTGCACTGCACAACGCCGTGTGCGCGGGACACACAGAGATCGTGAAGTTCCTGGTGCAGTTTGGGGACCCCGCTGCACTGTGCAGCCTCGTGCAACAACGTGCAGGTCTGCAAGTTCCTGGTGGAGTGCGGGGCGGCCGTGTTCGCCATGACCTACAGCGACATGCAGACGGCGGCCGACAAGTGCGAGGAGATGGAGGAGGGCTACGCACAGTGCTCGCAGTTCCTCTACGGTACGTGCTGCTGGCCCTCCGGCTCCAGGGCCTCTCGCTGGGCATCGTCCTGGGCGCCGTCCTGGGCGCTGAACGCAGGGCCCCGATGATCACCTGGTCCTGCTTGGACCCGGGAGGCCCCTGTGGGCTCTGGCTGCGGGTGCTGGACGCTTGCAGTAGGTAA
LOC101723342 PREDICTED: Heterocephalus glaber uncharacterized LOC101723342 (LOC101723342), misc_RNA.
Length: 1321 bp>XR_206188.1 AAACGTTGGTCAGCGCTTCCGGTTTCTGGTATTTTGTGCTAGCAACTCGAAGCTGAGCTACGCGGGGGAGGCACTGTCGCAACTACCTCCTTTAACCCACTTGCACTTGTTAAGTAGAAGAGGTGAGCAATTTTCTTCCCGAAGCGCAGATCCAGCCGTGCACACCCGGCTCCGCGGTGATCTCCCTGCGCTGTTTTTCCGAGGGTTCCAGGGTCCGCTCCGAATTTTAAGATCTTGAAAAGATACAAAAATGAACCAGGAGGACGAACGGGACCCTGCTCTGGTGGTTGGGGGAGGCGCAGGCACTGAAGTCGACCCTACCTAGGAGGCTGGACGGCTGGAGAGGAGTAAGACCCCGCGAGGTAAGGTCGTCAGGCTCTCCTGCCCAGGCGTGCAGCCAGTGCTTGTGCGGAACCTGGATCAACCTGAGGGGCACTCGGGGAACATGGGGGGGGGGGGGCTCTGCAGGCTTGCCGCGTGCATCCTGGTGGGGAAAAGACAGGAAAATAAACCCACGAGTGACTGGCCCTTGTGAGTACTTTGAAGGAGGAAAATAAACCCACGAGTGACTGGCCCTTGTGAGTACTTTGAAGGGGACGGAGAACCCTGGAGGCTGAGTGAGAGCCAGGCGGAGGAACTGACGTGGAAGCAGAAATCTGAAGAAGAGCTGCGGGAAGGTGTGCAGGTGGTGTTTCAAAAGGCACAGTGACAGAAGCTCGGTGTAACCCCATCAGAAATAAAGATAGAGATGGGGCGGGGGTCCTAGTGTGGCTGAAGCAGAGAGTAGGAGAGACCTGAGAAGCCAGGCACAGGCAGGAGTTAACTTATTCTTGTGCGAGAAGTCACTGAAGAGTGTCAAGCGGTACAGTACTTTGATCGATTTACTTATAAAACATTGCCTGGCTTTGTGGTGAAATGGAAGGGGTTAAGTTTGTCAGCCTGGAGCTCACTTGGAAAATAGAATAGACTGGGGAATTACTGTAAAGGCAAAACCAACTGGATTTGCCTGACACAGCTCAGGTTCTTAGATTCATTAAAAGGGTTCATAGGTTAAAGCTAGCAGTACAAGCTACAGATTATTACATGAGCTATCGCTGTGTATTGTATCTGGTCCACACAGCTATCTGAATACTAATCTCATTAACTGCTTTTCTTACATCCCTAGCCAGTTACCTTAGGTTATGATAAAAGTAACAAATTGTATTCATTTTCAATGTATCCATTGTACTTTGTATCCTGTCAATAGCAGATGGTTAGTAAATGATTGCTGAGTGAATCACTCAAATCAGGAGAGATTTTATTAAAATTGGTTTAAATTTTA
Cnih4 PREDICTED: Heterocephalus glaber cornichon homolog 4 (Drosophila) (Cnih4), transcript variant X4, misc_RNA.
Length: 952 bp>XR_206189.1 GCAGGCTCTTCGAGGCAGCAGGCCGGCTCTCCTTGGCGGAGGGAGTGGCCATAGCGGCGGAAGATGGAGGCGGTGGTGTTCATCTTCTCTCTGCTGGACTGCTGCGCGCTAATCTTCCTCTCCGTGTACTTCATAATTACATTGTCTGATTTAGAATGTGATTACATTAATGCTAGATCATGTTGTTCCAAATTAAACAAGTGGGTAATTCCAGAAATGATTGGCCATTCCATTGTCACTGTATTGATGCTTGTTTCATTGCACTGGTTCATCTTCCTTCTCAACTTGCCTGTTGTCACGTGGAATATATATCGGTTCATTATGGTGCCAAGTGGTAACATGGGAGTGTTTGACCCAACAGAAATACACAATCGAGGGCAGCTGAAGTCACACATGAAAGAAGCCATGATCAAACTCGGTTTCCACTTGCTCTGTTTCTTCATGTATCTTTATAGCCTTGGATTAAGTCTAGCTTTGGTGGAAGCCAGGGAGCACTAAGCTCAACTCCCCTGCAGCCGACGTTTCAGGGTGGAAGGACTGCCCCGGCAACACAAGAAAGGAGGAACGAGCAATAGCAGACCCTGTTGCTAATACCTGAAGCCTCAGCTGAGCGCAAAGATGCACCTGAGTCCATCAGAGCCCAGCAGGCCCTGCACTGCCTTTTCCTGCCTGCCACACCGATGACCATGGGATGGGAGGCCAGCCAGCTGTCCCTGGCCTGGCCTGGTGTTGGGCGTGCAAGCTAAGAAAGCTTCCTGCAGCCCTTGGCCTCCTGTGATTCATCACTTGTCGTCTGGTGTCACAGTTCCTGTGTACAGTTCATCTGCTAGATTGTGCGCTCCTAGAGGGCAGAGTCCATGCAAACTCATGTTTTTATCTTCTTCCTTTCTCCTGGCATCTACCACTGTCCCTTGCACACAGAAACAATAAATGAGTGTTGAGTAACAAGCAA
Cnih4 cornichon homolog 4 (Drosophila), transcript variant X1
Length: 435 bp Location: 5977975..5995209 Strand: +>XM_004867442.1 ATGGAGGCGGTGGTGTTCATCTTCTCTCTGCTGGACTGCTGCGCGCTAATCTTCCTCTCCGTGTACTTCATAATTACATTGTCTGATTTAGAATGTGATTACATTAATGCTAGATCATGTTGTTCCAAATTAAACAAGTGGGTAATTCCAGAAATGATTGGCCATTCCATTGTCACTGTATTGATGCTTGTTTCATTGCACTGGTTCATCTTCCTTCTCAACTTGCCTGTTGTCACGTGGAATATATATCGGTTCATTATGGTGCCAAGTGGTAACATGGGAGTGTTTGACCCAACAGAAATACACAATCGAGGGCAGCTGAAGTCACACATGAAAGAAGCCATGATCAAACTCGGTTTCCACTTGCTCTGTTTCTTCATGTATCTTTATAGCCTTGGATTAAGTCTAGCTTTGGTGGAAGCCAGGGAGCACTAA
Wdr26 WD repeat domain 26
>XM_004867466.1 CTGCCGCCGCCCGGACCCGCCGCCGCCAACAATGGCAGCGCCGCCGGCCACCACGGGGTCCCCGGCGGGGCCGCCGCCGCCGCCCTGGCCGCCCCCGAGCTGGGCAGCGGCCTGAAGAAGAAGAAGCGGCTGTCGCAGTCGGACGAGGACGTCATCCGGCTCATCGGGCAGCACCTGAATGGCCTGGGGCTCAACCAGACTGTTGATCTCCTCATGCAAGAGTCAGGATGTCGTTTAGAACATCCTTCTGCCACCAAATTCCGAAATCATGTCATGGAAGGAGACTGGGATAAGGCAGAAAATGACCTGAATGAACTAAAGCCTTTAGTGCATTCTCCTCATGCTATTGTGGTAAGAGGCGCACTTGAAATCTCTCAAACGTTGTTGGGAATAATTGTGAGGATGAAGTTTTTGCTGCTGCAGCAGAAGTATCTGGAATACCTGGAGGATGGCAAGGTCCTGGAGGCACTTCAGGTTCTTCGCTGTGAGCTGACGCCCCTGAAGTACAACACAGAGCGCATCCACGTTCTTAGTGGGTATCTGATGTGTAGCCATGCAGAAGACCTGCGAGCAAAAGCAGAATGGGAAGGCAAAGGGACAGCTTCCCGATCAAAACTATTGGACAAACTCCAGACCTATTTACCACCGTCAGTGATGCTTCCCCCACGGCGTTTACAGACTCTCCTGCGGCAGGCGGTGGAACTGCAAAGGGACCGGTGCCTGTATCACAATACCAAACTCGACAACAACCTAGACTCTGTGTCTCTGCTTATTGATCATGTTTGTAGTAGGAGGCAGTTCCCCTGTTACACTCAGCAGATACTCACGGAGCATTGTAATGAAGTGTGGTTCTGTAAATTTTCTAACGATGGCACTAAACTAGCAACAGGTTCAAAAGACACAACAGTTATCATATGGCAAGTTGATCCGGATACACACCTGCTAAAACTGCTTAAAACATTAGAAGGACATGCGTATGGTGTTTCTTACATTGCATGGAGTCCAGACGACAACTATCTCGTTGCTTGTGGCCCAGATGACTGCTCGGAGCTTTGGCTTTGGAATGTACAAACGGGAGAACTACGGACGAAAATGAGCCAGTCTCATGAGGACAGTTTAACAAGTGTGGCTTGGAATCCTGACGGGAAACGCTTTGTGACAGGCGGTCAGCGTGGGCAGTTCTATCAGTGTGACCTGGATGGAAACCTCCTGGACTCCTGGGAAGGAGTGCGTGTGCAGTGCCTGTGGTGCCTGAGCGACGGCAAGACAGTCCTGGCGTCGGACACGCACCAGCGGATTCGGGGGTACAACTTCGAGGACCTTACAGACAGGAACATAGTACAAGAAGATCATCCTATTATGTCTTTTACCATTTCAAAAAATGGCCGATTAGCTTTGTTAAATGTAGCAACTCAGGGAGTTCATTTATGGGACTTGCAAGACAGAGTTTTAGTAAGAAAGTATCAAGGTGTTACACAAGGGTTTTATACGATTCATTCATGCTTTGGAGGCCATAATGAAGACTTCATCGCGAGTGGAAGTGAAGATCACAAGGTTTACATCTGGCACAAACGTAGTGAACTGCCAATCGCGGAGCTGACAGGGCACACGCGCACGGTGAACTGCGTGAGCTGGAACCCACAGATCCCGTTCATGATGGCCAGTGCTTCCGACGATGGCACTGTCAGGATATGGGGGCCAGCCCCCTTTCTAGACCACCAGAATGTCGAAGAGGAATGCAGTAGCATGGATAGTTGA
Tmem63a transmembrane protein 63A
Length: 705 bp Location: 6144711..6164038 Strand: +>XM_004867453.1 ATGCCTTACCAGCTGCTTGAGAGGATCACGGAGGAGGAGTGCCAGGTGCAGGGCCAGCCCCTGGAAATGGCCTTCATCGCCTTCCAAGAGAAGTCTATGGCCATCTACATCCTGAAAGACTTCAGAGCCTGGAAGTGTCAGAGCCTTCAGTGCAAAGGGGAGCCCCAGCCATCCTCCTACAGCAGAGAGCTGTGCGTCTCCAGGTGGAGGGTTACCTTGGCTGCTTACCCGGAGGACATCTGCTGGAAGAACCTCTCTGTCCAGGGCCTCCGCTGGTGGCTGCAGTGGCTCAGCATCAACTTCACCCTCTTCGTGGTGCTCTTCTTCCTAACCACACCCTCCATCATCCTGTCTACCATGGACAAGTTCAATGTCACCAAGCCCATCCACGCGCTGAACAACCCAGTCATCAGCCAGTTCTTCCCAACCCTCCTCCTCTGGTCCTTCTCGGCCCTGCTCCCCACCATAGTCTACTACTCGACGCTGCTGGAGTCGCACTGGACCAAGTCGGGGGAAAACTGGAACACGATGACCAAGGTCTACATATTCTTGATCTTCATGGTGCTGATCCTGCCCTCCCTTGGCCTTACCAGCCTGGATTTTTTCTTCCGGTGGCTCTTTGACAACACTTCCTCGGAGGGCTCGATAAGGTTGGACTCTGTCAGTTGTAACACTGGGAGTGATACAAATGATTCTCGTCTGTAG
Ephx1 epoxide hydrolase 1, microsomal (xenobiotic), transcript variant X6
Length: 1581 bp Location: 6180981..6161930 Strand: ->XM_004867450.1 ATGTGGCTGGAAATTCTCCTCGCCTCCGGGCTGGGCTTCCTCATCTACTGGTTTGTGTCCCGGGACAAGGAGGAGACTTTGCCGCTTGAAGATGGTTGGTGGGGCCCAGGGGCAAAGCCCACAGTCAGGGAGGACGAGAGCATCCTGCCTTTCAAGGTGGAGACCTCAGAGGAGGAGATCAGGGACTTACACCAGAGGATTGATAGGTTCCGCCCAACCCCGTCATTGGAGGGCAGCCGATTCCACTATGGCTTCAACTCCAAGTACCTGAAAAAGATCCTGTCCTACTGGCGGAATGAATTTGACTGGAGGAAGCAGGTAGAGATCCTCAACAAGTACCCTCACTTCAAGACAAAGATTGAAGGGCTGGACATCCACTTTGTCCATGTGAAGCCCACACAGCTGCCCTCAGGCTGTAGCCCAAAGCCCTTGCTGATGGTGCATGGCTGGCCCGGCTCCTTCTACGAGTTTTATAAGATCATCCCGCTCCTGACGGACCCAAAGAGCCACGGCCTAAGTGATGAACATGTGTTTGAAGTCATCTGCCCCTCCATCCCTGGCTACAGCTTCTCAGAGGCATCCAGCAAGAAAGGCCTGAATTCAGTGGCCACTGCCAGGATCTTTTACAAGCTGATGCTTCGGCTGGGCTTCCAGGAATTCTACATTCAGGGAGGAGACTGGGGGTCCCTGATCTGCACCAACATGGCCCAGCTGGTGCCCAGGTGCGGCCTGTCAGGGATGTATGGCCAAGAGGGTGTGGTGCTGGGCACAGCTTCCTGCACTGCCCCTGCCTGCCAGCAGCTCGCCTGGGCCCTCATTCCAGGGCCCCCGGGCGGGGAGGCCAGGGAGACCATCCCCCCGGGCTCTGGCCTCGCTGTGTCTGACCCCTCCCTTGACGCGAGCCCAGCCTCACTGGAACTGCTCTCTTCCCTCAGCCACGTGAAGGGCCTGCACTTGAACATGGCATTTGTTTTAAGAAGTACTCACACTCTGGCCCCTCTCCTGGGCCGGCGTATCGGGGGGCTTCTTGGCTACACCGAGAGAGATATGGAGCTGCTGTCCCCCTTCAAGGAAAAGGTTTTCTACAGCATCATGAGGGAGAGCGGCTACATGCACATCCAGGCCACCAAGCCAGACACTGTGGGGTGTGCTCTGAATGACTCTCCTGTGGGACTGGCTGCCTACATCCTGGAGAAGTTTTCCACCTGGACCAATGCAGATTTCCGAGACCTGGAGGACGGAGGCCTGGAGAGGAAGTTCTCCCTGGACGACCTGCTGACCAACATCATGCTCTACTGGACAACAGGGTCCATCGTCTCCTCCCAGCGCTACTATAAGGAGAACCTGGGCCAGGGCCTAATGACCCAGAAGCATGAGTGGATGAAGGTCTCTGTGCCCACTGGCTTTGCCGCCTTCCCCTGCGAGTTACTGCACCTCCCTGAGAGGTCGGTGAGAGCCAAGTACCCCAAGCTCCTCTCCTACTCCTACATGGCCCGTGGGGGCCACTTCGCTGCCCTGGAGGAGCCCGACCTGCTGGCCCAGGACATCCGCAAGTTTGTGACACTGGTGGAGCAGCAGTGA
Ephx1 epoxide hydrolase 1, microsomal (xenobiotic), transcript variant X4
Length: 1581 bp Location: 6180501..6161930 Strand: ->XM_004867448.1 ATGTGGCTGGAAATTCTCCTCGCCTCCGGGCTGGGCTTCCTCATCTACTGGTTTGTGTCCCGGGACAAGGAGGAGACTTTGCCGCTTGAAGATGGTTGGTGGGGCCCAGGGGCAAAGCCCACAGTCAGGGAGGACGAGAGCATCCTGCCTTTCAAGGTGGAGACCTCAGAGGAGGAGATCAGGGACTTACACCAGAGGATTGATAGGTTCCGCCCAACCCCGTCATTGGAGGGCAGCCGATTCCACTATGGCTTCAACTCCAAGTACCTGAAAAAGATCCTGTCCTACTGGCGGAATGAATTTGACTGGAGGAAGCAGGTAGAGATCCTCAACAAGTACCCTCACTTCAAGACAAAGATTGAAGGGCTGGACATCCACTTTGTCCATGTGAAGCCCACACAGCTGCCCTCAGGCTGTAGCCCAAAGCCCTTGCTGATGGTGCATGGCTGGCCCGGCTCCTTCTACGAGTTTTATAAGATCATCCCGCTCCTGACGGACCCAAAGAGCCACGGCCTAAGTGATGAACATGTGTTTGAAGTCATCTGCCCCTCCATCCCTGGCTACAGCTTCTCAGAGGCATCCAGCAAGAAAGGCCTGAATTCAGTGGCCACTGCCAGGATCTTTTACAAGCTGATGCTTCGGCTGGGCTTCCAGGAATTCTACATTCAGGGAGGAGACTGGGGGTCCCTGATCTGCACCAACATGGCCCAGCTGGTGCCCAGGTGCGGCCTGTCAGGGATGTATGGCCAAGAGGGTGTGGTGCTGGGCACAGCTTCCTGCACTGCCCCTGCCTGCCAGCAGCTCGCCTGGGCCCTCATTCCAGGGCCCCCGGGCGGGGAGGCCAGGGAGACCATCCCCCCGGGCTCTGGCCTCGCTGTGTCTGACCCCTCCCTTGACGCGAGCCCAGCCTCACTGGAACTGCTCTCTTCCCTCAGCCACGTGAAGGGCCTGCACTTGAACATGGCATTTGTTTTAAGAAGTACTCACACTCTGGCCCCTCTCCTGGGCCGGCGTATCGGGGGGCTTCTTGGCTACACCGAGAGAGATATGGAGCTGCTGTCCCCCTTCAAGGAAAAGGTTTTCTACAGCATCATGAGGGAGAGCGGCTACATGCACATCCAGGCCACCAAGCCAGACACTGTGGGGTGTGCTCTGAATGACTCTCCTGTGGGACTGGCTGCCTACATCCTGGAGAAGTTTTCCACCTGGACCAATGCAGATTTCCGAGACCTGGAGGACGGAGGCCTGGAGAGGAAGTTCTCCCTGGACGACCTGCTGACCAACATCATGCTCTACTGGACAACAGGGTCCATCGTCTCCTCCCAGCGCTACTATAAGGAGAACCTGGGCCAGGGCCTAATGACCCAGAAGCATGAGTGGATGAAGGTCTCTGTGCCCACTGGCTTTGCCGCCTTCCCCTGCGAGTTACTGCACCTCCCTGAGAGGTCGGTGAGAGCCAAGTACCCCAAGCTCCTCTCCTACTCCTACATGGCCCGTGGGGGCCACTTCGCTGCCCTGGAGGAGCCCGACCTGCTGGCCCAGGACATCCGCAAGTTTGTGACACTGGTGGAGCAGCAGTGA
Ephx1 epoxide hydrolase 1, microsomal (xenobiotic), transcript variant X8
>XM_004867452.1 ATGTGGCTGGAAATTCTCCTCGCCTCCGGGCTGGGCTTCCTCATCTACTGGTTTGTGTCCCGGGACAAGGAGGAGACTTTGCCGCTTGAAGATGGTTGGTGGGGCCCAGGGGCAAAGCCCACAGTCAGGGAGGACGAGAGCATCCTGCCTTTCAAGGTGGAGACCTCAGAGGAGGAGATCAGGGACTTACACCAGAGGATTGATAGGTTCCGCCCAACCCCGTCATTGGAGGGCAGCCGATTCCACTATGGCTTCAACTCCAAGTACCTGAAAAAGATCCTGTCCTACTGGCGGAATGAATTTGACTGGAGGAAGCAGGTAGAGATCCTCAACAAGTACCCTCACTTCAAGACAAAGATTGAAGGGCTGGACATCCACTTTGTCCATGTGAAGCCCACACAGCTGCCCTCAGGCTGTAGCCCAAAGCCCTTGCTGATGGTGCATGGCTGGCCCGGCTCCTTCTACGAGTTTTATAAGATCATCCCGCTCCTGACGGACCCAAAGAGCCACGGCCTAAGTGATGAACATGTGTTTGAAGTCATCTGCCCCTCCATCCCTGGCTACAGCTTCTCAGAGGCATCCAGCAAGAAAGGCCTGAATTCAGTGGCCACTGCCAGGATCTTTTACAAGCTGATGCTTCGGCTGGGCTTCCAGGAATTCTACATTCAGGGAGGAGACTGGGGGTCCCTGATCTGCACCAACATGGCCCAGCTGGTGCCCAGCCACGTGAAGGGCCTGCACTTGAACATGGCATTTGTTTTAAGAAGTACTCACACTCTGGCCCCTCTCCTGGGCCGGCGTATCGGGGGGCTTCTTGGCTACACCGAGAGAGATATGGAGCTGCTGTCCCCCTTCAAGGAAAAGGTTTTCTACAGCATCATGAGGGAGAGCGGCTACATGCACATCCAGGCCACCAAGCCAGACACTGTGGGGTGTGCTCTGAATGACTCTCCTGTGGGACTGGCTGCCTACATCCTGGAGAAGTTTTCCACCTGGACCAATGCAGATTTCCGAGACCTGGAGGACGGAGGCCTGGAGAGGAAGTTCTCCCTGGACGACCTGCTGACCAACATCATGCTCTACTGGACAACAGGGTCCATCGTCTCCTCCCAGCGCTACTATAAGGAGAACCTGGGCCAGGGCCTAATGACCCAGAAGCATGAGTGGATGAAGGTCTCTGTGCCCACTGGCTTTGCCGCCTTCCCCTGCGAGTTACTGCACCTCCCTGAGAGGTCGGTGAGAGCCAAGTACCCCAAGCTCCTCTCCTACTCCTACATGGCCCGTGGGGGCCACTTCGCTGCCCTGGAGGAGCCCGACCTGCTGGCCCAGGACATCCGCAAGTTTGTGACACTGGTGGAGCAGCAGTGA
Ephx1 epoxide hydrolase 1, microsomal (xenobiotic), transcript variant X7
Length: 1383 bp Location: 6168107..6161930 Strand: ->XM_004867451.1 ATGATCCCAAGAACTCAGGAGTTTAAGACAGGAGGGTCACAAGTTCAGGGCAAAGCACGGCTGCCTCGGTGTGCTGGTGATGTGGGAGCTTTGCTTTGCCACTGTCATGGCGTGGCGTTTGCAGTCTTCGCGCTGCCATGGAACCCACTTTCTCCCATGCCATGCCTGGCCTCTCTCCTTGGTCTGGTCCCACTGCAGGACTTACACCAGAGGATTGATAGGTTCCGCCCAACCCCGTCATTGGAGGGCAGCCGATTCCACTATGGCTTCAACTCCAAGTACCTGAAAAAGATCCTGTCCTACTGGCGGAATGAATTTGACTGGAGGAAGCAGGTAGAGATCCTCAACAAGTACCCTCACTTCAAGACAAAGATTGAAGGGCTGGACATCCACTTTGTCCATGTGAAGCCCACACAGCTGCCCTCAGGCTGTAGCCCAAAGCCCTTGCTGATGGTGCATGGCTGGCCCGGCTCCTTCTACGAGTTTTATAAGATCATCCCGCTCCTGACGGACCCAAAGAGCCACGGCCTAAGTGATGAACATGTGTTTGAAGTCATCTGCCCCTCCATCCCTGGCTACAGCTTCTCAGAGGCATCCAGCAAGAAAGGCCTGAATTCAGTGGCCACTGCCAGGATCTTTTACAAGCTGATGCTTCGGCTGGGCTTCCAGGAATTCTACATTCAGGGAGGAGACTGGGGGTCCCTGATCTGCACCAACATGGCCCAGCTGGTGCCCAGCCACGTGAAGGGCCTGCACTTGAACATGGCATTTGTTTTAAGAAGTACTCACACTCTGGCCCCTCTCCTGGGCCGGCGTATCGGGGGGCTTCTTGGCTACACCGAGAGAGATATGGAGCTGCTGTCCCCCTTCAAGGAAAAGGTTTTCTACAGCATCATGAGGGAGAGCGGCTACATGCACATCCAGGCCACCAAGCCAGACACTGTGGGGTGTGCTCTGAATGACTCTCCTGTGGGACTGGCTGCCTACATCCTGGAGAAGTTTTCCACCTGGACCAATGCAGATTTCCGAGACCTGGAGGACGGAGGCCTGGAGAGGAAGTTCTCCCTGGACGACCTGCTGACCAACATCATGCTCTACTGGACAACAGGGTCCATCGTCTCCTCCCAGCGCTACTATAAGGAGAACCTGGGCCAGGGCCTAATGACCCAGAAGCATGAGTGGATGAAGGTCTCTGTGCCCACTGGCTTTGCCGCCTTCCCCTGCGAGTTACTGCACCTCCCTGAGAGGTCGGTGAGAGCCAAGTACCCCAAGCTCCTCTCCTACTCCTACATGGCCCGTGGGGGCCACTTCGCTGCCCTGGAGGAGCCCGACCTGCTGGCCCAGGACATCCGCAAGTTTGTGACACTGGTGGAGCAGCAGTGA
LOC101698601 PREDICTED: Heterocephalus glaber uncharacterized LOC101698601 (LOC101698601), misc_RNA.
Length: 2779 bp>XR_206190.1 ACCAAGTAATAATTGTCATTTCTAGTTAGAGACTGAAGCAAATTGTGAAAAATCATGTAAATACCTAGGCTACTTTCTCAAACTACTGTTGTTTTTCTCTTTTTTAAAGACTGCTAAAAATCGTGAGATTTGGAAGTAGAAGATGTTCAGGTTATGTTTTCAGAAAGATGCTTGTCAATCACAGTCAACAAGCTGTGGGTTTCCTGAATGGAAGTAAAAGCCGCGCAGAGTTAAAAGTCGTCCCATGTCTTGGGACTGTGCTTCTGGTGGCAGTGCCTCCCCTCTGTGGATGAAACATGCCGCGTTGGATGCATTCCCGTGAAGCAGGCATTGTCTCTGCTCCCCGGAGGATCCTAGCTCTCTGAAAGAGCTCTTTCAGGAAACACCTAGGTTCAACTTCATGCAGCAGGAGCTCCAGTTGGATTCACTTGGTACTTCAGTATGCTGGAAACGAGAAAGCTTCATTTATAATGTAAAGGTACCTAAGAGCCATCTGACACTTCTATTCATGTCAGTAAGAATGGTTTCTGTCCACACGGGCGTAGAGTCTGCCCGACAGGATACACTGATGATGTCCATTTCAACATTAGCATACGTGGACATTTGCAGCACTTCCTGTTTTCTTAATTTTTAACTTTCAATTTTAAACTTTTATTAACAAAAGGGGAACTGTACTGGAATGGATGGAGCCAAATGTACCACTGTGTGCAGCTTTGGTAAAGGAATTTAAAGGAGAACAAATGCTGGGAAGTTGCTCTAACATACAGTATGTGTGTTCCCAAAGGTGAAGGCTCCAGATGTGGCGGCCAAGCTGAAGAGACCATCAGAGAGGCTGAAGGAGAAGCAGGATGAACAGCAGAATTACCAGGTTCTGACTCTGACGGTGGCCAGTCTGTGTCTCTTCTTCATGGTGCTTGCCACACAGTAAGTGACTATTTGTTCAGTTCATTGATTTGTTGATTCCCTGATTGATTGACTAGGTGGAGAGAATGGGGGAGGTGATTCTCGGATTATTCAGAGACCCGACACAAAGGGAACCCATGGAGACCAGCTAGCTAGAGTGACGACCCTAATCAGAAGCACCATGAGAATGGTACTAACATTCTTCTGCTGGCAGGAGATTCTCTTGCTTTGCTGAGACGCATAGTGATGAAGGAAGAGACATCACAGCCCTTTCCTGGGGTGCAGAGTCCCGTCTCATCCGCAGAGCAGGGACAGCACAAGTGCTGATCCCAGAAGTGACTGAGGGTGAATGCAGCCACTCACGGTGGGACTCAGCACGACGTCATTCTGTCTCAAGTTCGTTAGGTCAACATTTTTAATCGGTGCAAATAGATAAATAGCACATGTTCACAGAGGTTTTATGCGTTTGGTTTTTTATCTGATTCCATGGACTCCTCCTGTAGCACACGTTTAAACATCAGCCTGGATCTCTTCCGTCTTCTTGCCCCTGAGTTCGTCTTTGCTTTGCAGTTCTGGCCGGAACCAGAACCTGGGGCTGTTAGGCTAGCGCTGGCCACTGAGCTACCCTGCCAGGCCTCATGTATTAATCTGAAAACTTCAAGGTCCTTTCACTGATCAAGAAATAATGACTGTACTTTTAATATTTGATTAATAACTTTGAAAATTAGCCTAAAATTTGTGTTTAGTTATGTTGGGAGTCCTGAAGGGAAAAGTTCTAGCTGTACAGCAGGACCAGGGGGGGTTGAGCAGTTCCTTGGGGTACTCGGGCTCAGCTCCTTCTGCCCCTTCTCTGCTAATGACCACCCTCTCCACCCTCCAGCCTTGCAGATTTCCTGACCTCCAGACAGCCCTCTCTTTCCCTTGCCTGGACCCTGTGTTTTTTCTGGAAGCATCATCTCCAGCAGAATCTCCCAGGGCAATGCTTCCCACCCATCACCAGGCACATGCAGGACAGGGAGGACATTTTTATGCCTCTGTGTATCCATCATCAAATGATTCCTTGATTATGAAACTGTCCTATGTGCTCCTAAAATGCAGGCTGTGGTGAGCCGTTCCCCCATGGCCTGGGTACCCAGCTCCCAGAGGCTGGATCGGCTCAAGGCATCGGAGCCTGCCCTGCCTCTCCCTTGGGTGCCTCCCTCTGTGACTTTGACCCTGGGATGCTCCTGGGCTCTGCAGGGTACATAAGCCTGCCTTTCAAGGACTCAGACCATTCCCTTCAGGGAGCAAGGGAAGGGTTGCTGCCATCTCTGTGCTGTTTGTAATGAGCACCCAGTGCAATCCAATCTGTTTAAAACATGTGGAGATGGTTACATAAAATGTTTGAGATGAATACTTAAAGTCAGGTTCATATAATTACTCTTCATTTATATCTCTTCATTTCACTTGCACAAGACCCTCCTGACTGGCAGCATGAGACCCACGTGGAACACAGCAGAGTGCGGAGTTACGCTGTTCACAGCACGGGTACCATGCAGACCCTGTGTGCAAGGCTAGTTCCCAGCCAGGCGCTGCTGGGAGGTGGTGGCACCTTTGAGGGTGAGGCCGAGCAGGACATTAGGTCATGAAGGACACATCCTTGAAGGGAGCTCTCAGACCACAGTCTCCTCATCCTCTTTTTCACATCCGGCCCTGAGGTGAGAGGCTTTGGTGGACCACACACTCCCACTTCGGTGCGCTGCCTCAGCCTAGGAAACTGCAGGGCAGACAACCACACCTGAATCTCCAACATGTGAGTCAGAAGAAACTACTTCTGCAGGGGAAGGGGGAGTTGGGGCGCAGGGCAAAGGAGAGAAGGGGATGGAATTCATATGAG
Tp53bp2 tumor protein p53 binding protein, 2, transcript variant X7
Length: 3231 bp Location: 5790525..5748174 Strand: ->XM_004867437.1 ATGCGGTCCGTGCCCAGCATGATGCCGATGTTCCTGACTGTGTACCTCAGCAACGACGAGCAGCACTTCACGGAGGTGCCCGTCACCCCGGAGACCACGTGCCGTGACCTGGTGGACCTGTGCAAGGAGCCCGGCGAGAGCGAGTGCTACCTGGCCGAGGTGTGGCACGGCTCCGAGCGCCCAGTTGCTGATAATGAACGAATGTTCGATGTTCTTCAGCGACTGGGAAGCCAGCGCAGTGAAGTTCGTTTCTTCCTCCGCCACGAGCGCCCGCCCGGCAGAGATGTAGTGAGTGGCCTGAGGTCTCAGGATCCAAGTCTGAGAAGAAATGGTGTGAAAGTCCCTGGAGAACACCGGAGAAAGGAGAATGGAGTGAGCAGTCCCCGCATGGACCCGACACTGGCTGAGCTCCAGGAAATGGCGTCTCGCCAGCAGCAGCAGATCGAGGCCCAGCAGCAGATGCTGGCCGCCAAGGAACAGCGCTTAAAATTTTTGAAGCAACAAGATCAGCGTCAGCAGCAACAGGCCGCCGAGCAGGAGAGGCTCAAGAGGCTGAGAGAACTGGCTGAGAGCCAGGAAGCCAAGCTGAAGAAAGTGCGGGCACTCAAGGGCCATGTGGAGCAGAAGCGGCTGAGCAACGGGAAGCTTGTGGAGGAAATTGAGCAGATGAATAGTTTGTTCCAGCAGAAGCAGAGGGAGCTAGTCCTGGCCGTGTCGAAAGTAGAGGAACTCACGAGGCAGCTGGAGATGCTGAAGAACGGCAGGATCGATGGCCAGCATGACAGCCAGTCCGCGGTGGCCGAGCTGGACTGGCTGTACAAGGAGCTGCAGCTGAGGAACAAGCTGAACCAGGAGCAGAACACCAGGCTGCAGCAGCAGAGGGAGTGTCTGAACAAGCGCAACTCTGAGGTGGCCGTCATGGACCGGCGTGTCAGTGAGCTCCGTGACCGGCTGTGGAAGAAGAAGGCGGCACTGCAGCAGAAGGAGAACCTGCCGGTTCTGTCCGATGGGAATCTCACCCAGCTGCCCGTGTCCGCTCCGAGCCGAGTGGCTGCCGTGGGTCCGTACATCCAGTCCTCCACCATGCCGCGGCTGCCCCCGAGGCCGGAGCTGCTGGTGAAGCCAGCGCTGCCTGAGGGTCCCCTGGCCCTGCAGGCCTCCGAGGTGAAGATTCAGACGCTGCCCAACACGAGGACCACTGCGGCCCCTCTGCAGGCCAAAGGGCCGAGAGTCCCTCCCGCTGGGCCTGACTGGGCCCCTTCGAGTGCGGACCTTTGCTCCCTGCCTCAGAGTGCTAGGCCTGCGCCAGACCAAGTTGCCGATGGGGAGGTTCCGCTGAGGGAAAAGGAGAAGAAAGTCCGGCCCTTCTCCATGCTTGATGCGGTGGACCAGGGGGCGGCCCCGCCCGGCTTCGGCATGCTGCGGAAGAACCAGAGCAGCGAGGACATCCTGCGCGATGCTCAGGCTGCAAATAAGAACGTGGCTAAAGTGCCGCCTCCTGTTCCTACAAAACCAAAACAGATGAACTTGCCTTATTTTGGACAAGCCAGCCCATCACCATCTGACACCAAGCCGGAGGGAGGCCCACAGCAGTTGCCTGAAGCCTCGACAGCCGTGGGCCCTAAGCCCAAGGCAGCAGGGCCACAGCCGAGGGCGGCGTTGTCCCCCAGCGTGCCTTCAGGTGGCCACGACCATGGCCTGTCTGCAGGGCCTAAGCAGGAGAGCCCACCCGCTGCTGCGGTCCGGCCCTTCACGCCCCAGCCTCCCAAAGATGCCGCCCTCCCCGCCTTCAGGAAGCCCCAGACAGTGGCTGCCAGCTCCATCTACTCCATGTACACGCAGCACCAGGCGCCGGGGAAGAGCTTCCAGCAGGCCGTGCAGAGCGTGCTGACCAAGGCACAGCCCCGCGGCCCGCACTTCGCAAGCGTGTATGGCAAGCCTGTGCTTGTGGCGGCCCAGAACCTGCAGCAGCAGCCGCCCGAGAGCGCGCACTGCAGCAGCCAGGGCCCGCCGGGCAGCCCGGAGCCCGACTCAGAGCCCGCGTCCTCGGCCCCCGAGAGCCAGGAGAACGAGCGCACCCCGCGCCCGCTCAGCCCCACCAAGCTGCTGCCTTTCCTGTCCAACCCCTACCGGAACCAGAGCGACGCCGACCTGGAGGCCCTGCGCAAGAAGCTCTCCAACGCCCCCCGGCCGCTGAAGAAGCGCAGCTCCATCACGGAGCCAGAGGGGCCCAGTGGGCCCAACATCCAGAAGCTGCTGTACCAGAGGACCACGCTGGCCGCCATGGAGACCATCTCAGTGCCCGCCCACCCCGGCAAGGCATCTGCACCTGCTGGCCCGGAGAGCCCAGGAGAGGTCCCCAACCCCTACTTACCCGTGGAGCCCGAGGAGGAGGCCGCCCGCGCCCCCGTGCCACTGTCCCCAGAGGATGCGGGGCCCCCTGGCGACGGGCCCGCTCCTTCCCCAGACCCGGACTCTGTGCCCGAATGGGCAGCGGACGGCAGCCCAGGCGCCCAGGGTGCCCAGGAGGAGCCCCATGCAGAGCGCCCCCCCCCGCCGGAGGTGTACCTGGAGGAGTACCCCCCGTACCCCCCGCCGCCCTACCCGTCCGGGGACCCCGAGGGGCCTGGAGAGGACCCCGCCAGCATGCGCCCCCCTGAGGTCACCGGGCAGGGCGCCCTGCCCCCTGGCAAAAGGACAAACTTGCGTAAGACAGGCTCGGAGCGGATTGCCCATGGAATGAGGGTCAAGTTCAACCCTCTGGCCTTGCTTCTGGATTCCTCGTTGGAGGGAGAATTCGACCTCGTGCAGAGAATCATTTATGAGGTGGAGGACCCCAGCCTGCCAAATGACGAGGGCATCACTGCACTGCACAACGCCGTGTGCGCGGGACACACAGAGATCGTGAAGTTCCTGGTGCAGTTTGGGGACCCCGCTGCACTGTGCAGCCTCGTGCAACAACGTGCAGGTCTGCAAGTTCCTGGTGGAGTGCGGGGCGGCCGTGTTCGCCATGACCTACAGCGACATGCAGACGGCGGCCGACAAGTGCGAGGAGATGGAGGAGGGCTACGCACAGTGCTCGCAGTTCCTCTACGGGGTTCAGGAGAAGATGGGGATCATGAACAAGGGAGTCATCTACGCGCTCTGGGACTACGAGCCTCAGAACACGGACGAGCTGCCCATGAAGGAAGGGGACTGCATGACCATCGTCCGCCGCGAGGACGAGGATGA
Cnih4 cornichon homolog 4 (Drosophila), transcript variant X3
Length: 279 bp Location: 5977968..5993317 Strand: +>XM_004867444.1 ATGGAGGCGGTGGTGTTCATCTTCTCTCTGCTGGACTGCTGCGCGCTAATCTTCCTCTCCGTGTACTTCATAATTACATTGTCTGATTTAGAATGTGATTACATTAATGCTAGATCATGTTGTTCCAAATTAAACAAGTGGGTAATTCCAGAAATGATTGGCCATTCCATTGTCACTGTATTGATGCTTGTTTCATTGCACTGGTTCATCTTCCTTCTCAACTTGCCTGTTGTCACGTGGAATATATATCGTATGATTTTAGCTTTGATAAATGACTGA
Ephx1 epoxide hydrolase 1, microsomal (xenobiotic), transcript variant X5
Length: 1581 bp Location: 6180971..6161930 Strand: ->XM_004867449.1 ATGTGGCTGGAAATTCTCCTCGCCTCCGGGCTGGGCTTCCTCATCTACTGGTTTGTGTCCCGGGACAAGGAGGAGACTTTGCCGCTTGAAGATGGTTGGTGGGGCCCAGGGGCAAAGCCCACAGTCAGGGAGGACGAGAGCATCCTGCCTTTCAAGGTGGAGACCTCAGAGGAGGAGATCAGGGACTTACACCAGAGGATTGATAGGTTCCGCCCAACCCCGTCATTGGAGGGCAGCCGATTCCACTATGGCTTCAACTCCAAGTACCTGAAAAAGATCCTGTCCTACTGGCGGAATGAATTTGACTGGAGGAAGCAGGTAGAGATCCTCAACAAGTACCCTCACTTCAAGACAAAGATTGAAGGGCTGGACATCCACTTTGTCCATGTGAAGCCCACACAGCTGCCCTCAGGCTGTAGCCCAAAGCCCTTGCTGATGGTGCATGGCTGGCCCGGCTCCTTCTACGAGTTTTATAAGATCATCCCGCTCCTGACGGACCCAAAGAGCCACGGCCTAAGTGATGAACATGTGTTTGAAGTCATCTGCCCCTCCATCCCTGGCTACAGCTTCTCAGAGGCATCCAGCAAGAAAGGCCTGAATTCAGTGGCCACTGCCAGGATCTTTTACAAGCTGATGCTTCGGCTGGGCTTCCAGGAATTCTACATTCAGGGAGGAGACTGGGGGTCCCTGATCTGCACCAACATGGCCCAGCTGGTGCCCAGGTGCGGCCTGTCAGGGATGTATGGCCAAGAGGGTGTGGTGCTGGGCACAGCTTCCTGCACTGCCCCTGCCTGCCAGCAGCTCGCCTGGGCCCTCATTCCAGGGCCCCCGGGCGGGGAGGCCAGGGAGACCATCCCCCCGGGCTCTGGCCTCGCTGTGTCTGACCCCTCCCTTGACGCGAGCCCAGCCTCACTGGAACTGCTCTCTTCCCTCAGCCACGTGAAGGGCCTGCACTTGAACATGGCATTTGTTTTAAGAAGTACTCACACTCTGGCCCCTCTCCTGGGCCGGCGTATCGGGGGGCTTCTTGGCTACACCGAGAGAGATATGGAGCTGCTGTCCCCCTTCAAGGAAAAGGTTTTCTACAGCATCATGAGGGAGAGCGGCTACATGCACATCCAGGCCACCAAGCCAGACACTGTGGGGTGTGCTCTGAATGACTCTCCTGTGGGACTGGCTGCCTACATCCTGGAGAAGTTTTCCACCTGGACCAATGCAGATTTCCGAGACCTGGAGGACGGAGGCCTGGAGAGGAAGTTCTCCCTGGACGACCTGCTGACCAACATCATGCTCTACTGGACAACAGGGTCCATCGTCTCCTCCCAGCGCTACTATAAGGAGAACCTGGGCCAGGGCCTAATGACCCAGAAGCATGAGTGGATGAAGGTCTCTGTGCCCACTGGCTTTGCCGCCTTCCCCTGCGAGTTACTGCACCTCCCTGAGAGGTCGGTGAGAGCCAAGTACCCCAAGCTCCTCTCCTACTCCTACATGGCCCGTGGGGGCCACTTCGCTGCCCTGGAGGAGCCCGACCTGCTGGCCCAGGACATCCGCAAGTTTGTGACACTGGTGGAGCAGCAGTGA
Tgfb2 transforming growth factor, beta 2, transcript variant X1
>XM_004867391.1 ATGCACTCCCGCGTGCTGAGCGCGCTGCTGACCCTGCATCTGGTGCCTGCGGCGCTCGCCCTGTCTACCTGCAGCTCGCTCGACATGGACCAGTTCATGCGCAAGAGGATCGAGGCGATCCGCGGGCAGATCCTCAGCAAGCTGAAGCTCACCAGCCCCCCGGACGACTTCCCCGAGCCCGACGAGGTGCCCCCGGAGGTCATCTCCATCTACAACAGCACGCGGGACCTGCTGCAGGAGAAGGCGAGCCGCCGGGCCGCCGCCTGCGAGCGCGAGCGCAGCGACGAGGAGTACTACGCCAAGGAGGTCTACAAGATCGACATGCGCTTCTTCTCCGAAAGTGAGTCTGTCTGCCCAGTTGTTACAACGCGCTCTGGCTCAGTGGGCTGCTTGTGTGCCAGACAGTCCCAGGTGGTCTGTGGGTGCCTTGATGCCATCCCGCCCCCTTTCTACAGACCCTACTTCAGAATCGTCCGATTTGATGTCTCGGCAATGGAGAAAAACGCTTCCAATTTGGTGAAAGCAGAGTTCAGAGTCTTTCGTTTGCAGAACCCAAAAGCCAGAGTGCCCGAGCAACGGATCGAGCTGTACCAGATTCTCAAGTCCAAAGATTTAACCTCTCCAAACCAGCGCTACATCGACAGCAAAGTTGTGAAAACAAGAGCGGAAGGCGAGTGGCTGTCCTTCGATGTGACGGATGCTGTCCATGAGTGGCTTCACCATAAAGACAGGAACCTTGGATTTAAAATAAGTTTACACTGTCCCTGCTGCACCTTTGTGCCATCTAATAATTACATCATACCCAATAAAAGTGAAGAGCTAGAGGCAAGATTTGCAGGTATTGATGGCACCTCCACATATACCAGTGGTGATCAGAAAACTATAAAGTCCACTAGGAAAACAAACAGTGGGAAGACCCCACATCTCCTGCTAATGTTATTGCCCTCCTACAGACTTGAGTCACCACCGTCTAACCGGCGGAAGAAGCGTGCTTTGGATGCGGCTTATTGCTTTAGAAATGTGCAGGACAATTGCTGCCTGCGTCCACTTTACATTGATTTCAAGAGGGATCTTGGGTGGAAATGGATTCATGAACCCAAAGGCTACAATGCCAACTTCTGTGCTGGGGCCTGCCCGTATCTGTGGAGCTCCGACACTCAGCACAGCAGGGTCCTCAGCTTGTACAACACCATAAACCCAGAGGCCTCTGCATCTCCGTGCTGTGTGTCGCAGGACCTGGAGCCGCTCACCATCCTCTACTACATCGGCAAGACCCCCAAGATCGAGCAGCTCTCCAACATGATCGTCAAGTCCTGCAAATGCAGCTAA
Eprs glutamyl-prolyl-tRNA synthetase
>XM_004867395.1 ATGGCGACGCTGTGTCTCACCGTGAACGCGGGGGCCCCTCCCCTGGAAGCCTTGCTGGCGGCAGAGCACGTGAAGGAGGATGTCAGCATTTCTGTGGAAGGAGGAAAAGAGAATGTTCTTCGTGTTTCTGAAAACGTGGCGTTCACAGACGTATATTCCATACTTCGCTACCTGGCTCGAGTTGCAGCTACAGCCGGGCTGTACGGCGCTAACGTGATGGAACACGCTGAGATTGATCACTGGCTGGAGTTTAGTGCTACAAAATTGGCTTCCTGTGCTTCGTTTGCTTCTGCAGTCAACGAGCTTAATCATTGCCTGTCTCTGAGGACATTCTTAGTTGGAAACTCCTTGACCTTAGCAGATTTTTGTGTGTGGGCCGCCCTAAAAGGAAATGCTGCGTGGCAAGAAGAGGCAACGCAGAGCAAAGGCCCGGTGCACGTGAAGCGCTGGTTCAGCTTCCTCGAAGCCCAGCGAGTCTTCCAGTCAGTCAGTGCCAAGTGGGGTGTCCCAGCCAGCAAGACCCAGGCGGCTTCGGAGAAGAAGCAAGATGTTGGGAAGTTCGTGGAGCTTCCAGGCGCAGAGATGGGGAAGGTCACCGTGAGGTTTCCTCCAGAGGCCAGTGGTTACTTACACATTGGGCATGCAAAAGCTGCTCTCCTGAACCAGCACTACCAGGTTAACTTTAAAGGGAAACTGATCATGAGATTTGATGACACAAATCCTGAGAAAGAAAAGGAAGATTTTGAGAAGGTTATCTTGGAAGATGTTGCGATGTTGCATATCAAGCCAGATCAATTTACTTATACCTCAGATCATTTTGAAACTATCATGAAATATGCAGAGAAGCTGATTAAAGAAGGGAAGGCTTATGTGGACGATACTCCCGCGGAGCAGATGAAAGCAGAACGTGAACAGAGGGTGGAATCCAGACATAGAAGCAACTCTGTTGAAAAGAATCTGCAAATGTGGGAAGAAATGAAAAAAGGGAGCCAGTTCGGTCAGTCCTGTTGTTTGAGAGCAAAAATTGACATGAGTAGTAACAATGGGTGTATGAGGGACCCCACCCTTTATCGCTGCAAAATCCAGCCGCACCCAAGAACCGGAAGTAGATACAATGTTTATCCAACGTATGACTTTGCCTGCCCCATAGTGGACAGCATCGAAGGTGTCACTCATGCCCTGAGAACCACGGAGTACCATGACCGGGACGAGCAGTTTTACTGGGTCATTGAGGCTTTGGGCATAAGAAAGCCATACATCTGGGAGTACAGTCGGCTAAATCTCAACAACACAGTGCTGTCCAAGAGAAAGCTCACTTGGTTTGTCCACGAAGGACTGGTCGATGGCTGGGACGACCCACGGTTCCCCACGGTGCGTGGAGTGCTGCGGAGAGGCATGACGGTGGAGGGGCTGAAGCAGTTCATCGCCGCTCAGGGCTCCTCACGTTCAGTTGTGAACATGGAATGGGACAAAATCTGGGCATTCAACAAAAAGGTCATTGACCCTGTGGCTCCAAGGTACGTGGCGCTGCTGAAGAAGGAAGTGGTCCCCGTGCTCGTCCCCGAGGTGCAGGAGGAGATGAAGGAGGCTGCCAGACACCCGAAGAACCCCGAGGTGGGCCTGAAGCCCGTGTGGTACAGCCCCAGGGTGCTCATTGAAGGAGCCGATGCCGAGACACTCACGGAGGGGGAGACAGTGACCTTCATCAACTGGGGCAACATCAGCATAACTAAGATACACAGAAATGCAGATGGAAAAATTGTATCTCTTGATGGAAAATTGAACTTGGAGAATAAAGACTATAAGAAAACCACTAAGATCACCTGGCTCGCGGAGACTGCACAGGCTCTTCCTGTCCCAACAATCTGTGTCACTTACGAGCACTTGATCACAAAGCCGGTGCTAGGGAAGGACGAGGACTTCAAGCAGTACATCAACAAGAACAGCAAGCGTGAAGAGCTAATGCTGGGGGATCCCTGCCTTAAGGATTTGAAGAAAGGAGACATTATTCAGTTGCAGAGAAGAGGGTTCTTCATCTGCGATCAGCCCTATGAGCCTGTTAGCCCATATAGTTGCAAAGAAGCCCCCTGCATTTTGATATACATTCCTGATGGACATACAAAGGAAATGCCAACATCTGGGTCAAAGGAAAAGACCAAAGGAGAAGCCACAAAAACAGAGATGAGTCCTTCTCTTAAGGAAAGACCAGCACCTCCTGTGTATAAATCCTGGGCTCCATCTGAGGATTTCCTGGTCCTTTACAACCGAGTGGCTACCCAGGGGGACACAGTGCGAGAATTAAAGGCCAGAAAAGCAGCCAAGGAAGACATAGATGCAGCAGTAAAACAGCTCCTGGCTCTGAAAGCCGAATACAAAGAGATGACTGGCCAGGAGTATAAACCTGGGAGCCCTCCCGCTGCAGGGGCCCAGGAGGCTGCTTCTCAGTCACCAGCTGCCGCTCTGGAAAGCAGATCTCTGTACGACAGAGTCGCCGCACAAGGGGAGCTGGTTCGAAAGCTGAAAGCTGAGAAAGCCCTCAAGGCTAAAATAAACCAAGCTGTTGAGTGCTTACTGTCCCTGAAAGCCGAGTACAAAGAGAAGACTGGGAAGGAGTACGTGCCCGGCCAGCCGCCGGCCCCAAGCTCCAAGTCCAGCCCTGCTGGGGACCGGGAGTCCTCGGGCCCAGAGGCACCGGAGGCCCAGGTGCTGTTTGCCAGGGTAGCTGCTCAGGGAGAAGTGGTTCGGAAACTTAAAGCTGAAAAGGCTTCCAAGGACCAGGTGGACCCCGCCGTGCAGGTGCTGCTGCAGCTGAAGGCGCAGTACAAGGCCCTGGCGGGGGTGGAGTATAAGCCCGTGTCTGCCACCGGTGCTGACGACAGAGACAAGAAGAAGAAAGACAAGGAGAACAAATCCGAAAAGCAGAATAAGCCTCAGAAAGCACATGACGGCCACGGCAAAGAGCCTTTTAATAGCCAGGGGAGCGGGCCGACACCCGGCGGTGCCGGAGAAGGGCAGGGCCCCAGGAAGCAAACGCGGTTGGGTCTTGAGGCAAAAAAAGAAGAAAATCTTGCCGATTGGTATTCTCAGGTCATCACAAAGTCAGAGATGATCGAGTACTACGATGTGAGTGGCTGCTATATCCTCCGGCCCTGGGCGTACTCCATCTGGGAGTCCATCAAGGCCTTCTTCGATGCTGAGATCAAGAAGCTCGGCGTTGAGAACTGCTACTTCCCCATCTTCGTGTCTCAGAGCGCGCTGGAGAAGGAGAAGACTCATGTTGCTGACTTTGCCCCAGAGGTGGCCTGGGTTACGCGGTCCGGGAAGACGGAGCTGGCAGAGCCGATTGCTATCCGCCCGACCAGCGAGACAGTCATGTACCCTGCCTATGCGAAGTGGGTGCAGTCCCACCGGGACCTGCCTATCCGGCTCAATCAGTGGTGCAATGTGGTGCGCTGGGAGTTCAAGCACCCGCAGCCTTTCCTGCGCACCCGAGAGTTCCTCTGGCAGGAGGGGCACAGCGCCTTCGCCACTTTTGAAGAAGCAGCAGAAGAGGTCCTGCAGATCCTTGAGCTGTACACGCGGGTGTATGAGGAGCTCCTGGCCATCCCCGTGGTCAAGGGCAGGAAGACGGAGAAGGAGAAGTTTGCAGGCGGAGACTACACAACCACGGTGGAGGCCTTCATATCCGCCAGCGGCAGGGCCATCCAGGGCGCAACGTCACATCATTTAGGCCAGAATTTTTCCAAAATGTGTGAGATCGTTTTTGAAGATCCCAAGACACCAGGAGAGAAGCAGTTTGCTTACCAGTGCTCCTGGGGGCTGACCACACGCACCATTGGGGTGATGGTCATGGTCCACGGGGACAACACGGGCTTGGTCCTGCCGCCCCGGGTGGCCTCCGTGCAGGTGGTGGTCATCCCTTGCGGCATCACGAATGCGCTGTCCGAGGGAGACCGAGAGGCGCTGATGGTGAAGTGCAGCGACTACTGCAGGCGACTGCTCGGGGCCGACATCCGCACCCGCGTCGACCTTCGAGACAACTACTCTCCGGGCTGGAAGTTCAATCACTGGGAGCTCAAGGGAGTTCCGATCAGACTCGAAGTTGGGCCCCGCGACATGAAGAGTTGTCAGTTTGTAGCTGTGAGGCGAGATACCGGAGAGAAGCTGACGATAGCGGAAAGTGAGGCCGAGGCGAAGCTAGAGGCTCTGCTGGAAGACATCCACGCCAGCCTCTTCAGAAGGGCTTCTGAAGACCTGAAGACCCACATGGTAGTGGCAGACACAATGGAAGACTTTCAGAAGACGCTAGATGCTGGGAAGGTCGCCCAGATCCCGTTCTGCGGGGAGATCGACTGCGAGGATTGGATCAAGAAGACCACCACCAGGGACCAGGACCTGGAGCCCGGGGCCCCATCCATGGGCGCCAAGAGCCTCTGCATCCCCTTCCGGCCGCTGCAGGAGCTGCAGCCCGGAGCCCGGTGCGTGTGCGGCAAGAACCCCGCCAAGTTCTACACCTTGTTCGGCCGGAGCTACTGA
Bpnt1 3'(2'), 5'-bisphosphate nucleotidase 1, transcript variant X2
Length: 1038 bp Location: 3722795..3705923 Strand: ->XM_004867397.1 ATGGCGTCCGGCCCGGCCGTGCTCATGCGCCTGGTGGCCTCGGCCTGCTCCATCGCGCAGAAGGCAGGCACGATCGTCAGGCGCGTGATCGCCGAGGGAGACCTAGGCATCGTGCAGAAGACCTGTGCTACGGACCTGCAGACCAAGGCCGACCGGCTGGTGCAGATGAGCATCTGCTCTTCCCTGGTGCGGAAATTCCCCAAGCTGACCATCATAGGAGAGGAGCTTGTGGTCTGGGTTGACCCTCTGGACGGCACCAAGGAGTACACTGAAGGTCTCCTCGACAACGTGACTGTTCTCATTGGAATCGCCTATGAAGGGAAGGCCATAGCAGGCATTATTAACCAGCCCTATTACAACTACCAGGCAGGACCCAACGCGGAGCTGGGGCGGACCATCTGGGGTGTCCTGGGCTTGGGCGCCTTCGGGTTCCAGCTGCAGGAGGCACCCGCCGGGAAGCACATTGTCACCACCACCCGCTCACACGGCAGCAAGCTGGTGTCTGACTGCGTGAGCGCCATGGAGCCGGATGCCGTGCTGCGCGTGGGCGGTGCGGGGAACAAGATCATTCAGCTGATCGAAGGCAAGGCCTCTGCCTATGTGTTTGCAAGCCCAGGATGTAAGAAGTGGGACACTTGTGCGCCGGAAGTCATCTTACACGCGGTGGGAGGTGAGTGTGTTCTGTCCTGGAGAATGGCAGCTGCCTGTCTTGCTCAGACCTCACATCTGGTGCTAGTCCTGTACCCAGCTGTAGGGAGACTGGAGCTGTCCGGGCTGGAGCCCATACATATTTCATGGATGAGTAACTTGATTTTCAGAAAATTTGTTTTTCTTTTGTCCCTTTTTGGGACTTTGATCTGCATCATTCTTTTAATTCAGCTCTTACTTAGGGTTTATTTTTTAATTAATTTTTTTACTAGTACACATTTGTCATACGTATGGATCACATTAATCATAAGGAATTTGCACCTACATAATATCTCTTGGTTCCCCTTTCTTACTTGCTGTTTTAATGCTCTTGAAGATGTTTTTCCTTGA
Rab3gap2 RAB3 GTPase activating protein subunit 2 (non-catalytic)
>XM_004867400.1 ATGGCCTGCTCCGTTGTCCCGTTTTGCCACTTCCAGGACCTCCATGCCGCCCGGGACTTCCTGTTCCCGCAGCTGCGCGAGGACGCCCCCAGCGGCGCCGCGCGGAGGGACCCGGGTAAATCAACAAACTGGGAAGATGATGGTTGGGGAGCATGGGAAGATGCAGAACTCCCAGAACCTGAGGAAGAAGAAAGTACTTGCAAGACACAGAAAACCTCCTGGCTTCAAGATTGTGTTTTATCCTTGTCGCCAACCAGCGACCTTATGGTCATAGCTCGGGAACAGAAAGCTGTGTTTCTAGTGCCAAAATGGAAGCATAGTGATAAAGGAAGGGAAGAAATGCAGTTTGCCGTTGCTTGGAGCGGTTCTCTAAGTGTTGAAGAAGGGGAGTGTGTGACCAGTGCTCTGTGTATCCCACTAGCAAGCCAGAAGAGGAGTTCCACAGGGCGTCCTGACTGGACCTGCATCGTGGTGGGTTTTACTTCGGGTTACGTTCGCTTCTACACTGAGACCGGCGTGCTTCTTCTGGCACAGCTGCTGAACGAGGACACGGTGCTGCAGCTGAAATGCAGGACCTACGAGATCCCCCGGCACCCTGGCGTCACTGAGCAGAGTGAAGAACTGAGTATCTTATATCCGGCTGCCATTGTGACCATTGACGGATTTAGCCTTTTTCAGTCTCTTCGTGCCTGTAGAAACCAGGTAGCAAAAGCTGCAGCATCAGGCAGCGAGAACATAGAGCCGCCGCCCTTGGCGTATAAGAAATGGGGTCTGCAAGATATCGACACCATCACGGACCACGCCAGCATTGGTGTTACGACCCTGTCCCCTTTTGATCAGATGAAGACCGCCTCCAACATAGGCGGGTTCAATGCAGCGGTCAAAAACAGCCCACCCGCCATGTCGCAGTACATCACTGTCGGCGCCAGCCCCTTCACCGGCTTCTTCTATGCACTCGAGGGGAGCACACCGCCACTGTTATCACATGTTGCACTCGCAGTTGCAAGTAAACTCACTTCTGCTTTATTTAATGCTGCCAGCGGTTGGCTTGGTTGGAAAAGTAAGCACGAAGAAGAACCTGTCCAAAGGCAGAAGCCAAAGGTGGAACCAGCTAGCCCGTTAGCCGTAAGATTTGGGCTTCCAGATTCTCGACGCCATGGTGAAAGCATATGTTTGTCGCCGTGTAACACATTGGCAGCGGTGACAGATGACTTTGGCAGAGTTATTTTATTGGATGTAGCTAGAGGAATTGCAGTGCGCATGTGGAAAGGGTACCGAGACGCGCAGGCCGGCTGGGTGCAGGTGGTGGAGGACCTCCAGGAACGAGTGCCGGGGAGGGCGGACTGCTCCCCCTTCAGGAGCGGCCAGGGTCCCAGCCGGGTGGCTCAGTTCCTCGTGATCTATGCACCGAGGAGGGGCATCCTGGAAGTGTGGGGCACGCAGCAGGGACCTCGCGTGGGGGCCTTCAACGTGGGGAAGCACTGCAGGCTGCTGTATCCTGGCTATAAAATCATGGGCTTAAACAATGTCACCAGCCAAAGCTGGCAGCCACAGACGTACCAGATCTGCCTCATGGACCCCGTGTCGGGAAGCGTGAAGACGGTGAATGTCCCCTTCCACTTGGCGCTGAGTGATAAGAAGAGTGAGCGCGCCAAGGACATGCACCTCATGACGAAGCTGGCGGCGCTGCTGAGAGTGAGGCCTGGCCCAGATTCGGTTGAGACGGAAATAAAGGAGTTAATTCTAGATATTAAGTACCCTGCAACCAAAACTCAAGCTTTGGAAAGCATCCTGGCAAGTGACCATTTACCATTTTCCTGCCTTCGAAACATCACTCAGACCGTCTTGGACGTGCTAAGAAGCCAAGAGCGCGCATCTGTCGACGAAGGGCTGCTGCAGTTCTGTGCCAGTAAACTGAAGCTGCTGCATCTCTACGAGTCCGTCGGGCGGCTCAACTCCCTCGCTCCACGTTCCGACGCACCCTTCTCCGATGATGACTTGGCTTCGTTACTAAGGCTTGATGAAAAAGAACTGCTGAAGCTCCAGGGATTATTAGAGAAGTATAAGCAAGAGAACACCAGGACTGTGGTCCGATTCTCTGATGACATAGACGGCGCGCTGCCCGTGAAGACGTTCCTGGAATATCTGGAGTACGAGAAGGATGTGCTCAGCATAAAGAAGATAAGCGAGGAGGAGTATGTGGCTCTAGGCAGTTTCTTCTTCTGGAAGTGTCTGCATGGAGAAAGCTCCACCGAGGACATGTGCCACACTTTGGAGGCTGCTGGACTTAGCCCTCAGCTGCTGTTGTCTCTGCTGCTGAGCTTGTGGCTCTCGAAGGAGAAGGATATCTTGGAGAACCCGAGGTCTGTCTGCTGCCTGCACACCATGCTGTCCCTCCTGAGCAAAATGAAAGTGGCCATCGACGAGACCTGGGACTCGCAGTCCGTGTCCCCGTGGTGGCAGCAGATGCGCCTGGCCTGCGTTCAGTCTGAAAACAACGGGGCGGCACTGCTGTCGGCACACGTGGGCCACTCGGTTGCGGTGCAGATTTCAAACCAGATGACCGAGAAAAAGTTTCTGCAGACAGTGGCGGGGGCAGGGGCCGATGCCGAGGCCCTCACGGACTCATGGGAGGCGCTGTCCCTGGACACGGAGCACTGGCGGCTGCTGCTCAGGCAGCTGGAGGACTGCCTGCTCCTGCAGACCCTGCTGCACAGCGGGCCCCGGCGGCCCCAGGCCCCTGCATTGCAGGCCGAGCCGCTGCCCCGGCTCTCGGTGAAGAAGTTGCTGGAAGCCGGGAAGGGTGGCATTGCAGACAGCGTGGCCAAGTGGCTGTTTAAGCAGGACCTGAGCCCTGCCACGCTAACCCTGGCTCATCAGGACGGGGACGGAGATGGGGGAAACCCAGACGAACCCCAAGGAGGTGCTGACAGAGCTTTCCTGCAGGCACCGGAGGCCGAGGCAGATGCAGGCGGCATCCCAGACGCGCTGCTCTTGGCCTACAAGCAGTTTCCTTGCAGCCTGGAGCCGGACGTGCTGCATGCACACTGCTGCTGGGAGTACGTGGTCCAGTGGAACAGAGACCCCGAGGAAGCGCGTTTCTTCGCAAGGTCAATAGAGCACTTGAAGCACATTGTCAACGCCCACGTCCAGCATGGCATCGCACTCATGATGTGGAACACGTTCCTGGTGAAGAGGTTTTCTGCGGCCGCGTACTTGATGGATAAGGTTGGCAAATCGCCGAAGGATAGATTGTGCCGAAGGGACGTGGGCATGAGCGACACAGCGCTGACCTCCTTCCTGGGCTGCTGCGTGGACCTCCTGCAGACCCTGATGGAGGCCGACGTGGGCAGGGACGAGATGCCGGCGCCCGTGCTGGACACCGAGGACACGTGGCTGTCGGCGGAGGGGCCTGCGTCCATCGCGGAGCTGGCGCTGGAGCAGAAGCCGGTGCACTACCCGCTGGTGCAGCACCACTCGGTGCTGGGGGCCGTGCTCTACGCAATGGCGCGCTTCGCCCTCAGGGCTGTCAGGCCGCTCTCGCTCTTCGACAGCAAGGGAAAAAATGCATTTTTCAAAGACCTAACCTCAATCCAGTTATTACCTAGTGGGGACATGGACCCAAACTTACTTTCCGTCCGACAGCAGTTCCTGCTGAAAGTCGTCAGTGCTGCCGTCCAGGCCCAGCATTCCGCCCCCAAGGACAGGGCGCCCTCAGCAGAGGCAGCGGCCACTCCTCCTGAGGAGGACCGGGACTGGCCGGCCCTGGCCGTGGACTTAGCTCAGCACCTGCAGGTCAGCGAGGACGTGGTCAGAAGGCACTACGTGGGGGAGCTCTACAGCCACGGCGTCGACCACTTGGGGGAAGAGGCCATCCTGCAGGTGCATGACAAAGAGGTCCTGGCCTCCCAGCTGCTGATGCTGACCGGGCAGAGGCTGGCGCACGCACTGCTGCACACGCAGACCCGGGAGGGCATGGAGCTGCTGGCCCGGCTGCCGCCCACGCTGTGCACGTGGCTCAAGGCCATGAATCCCCAGGACCTGCAGAACGCAGACGTGCCCATCGCTGCCACGGCCAGACTGGTGCACAGGGTCCTGGAGCTCCTGCCAGCGCAGCATGGGCAGTACGGCCTGGCCCTGCACCTCATCGAGGCCGTGGAAGCCGTGGCGCTGCCCCGGTGCTGA
Dusp10 dual specificity phosphatase 10
>XM_004867413.1 ATGCCTCCGTCTCCTCTAGATGACAGGGTAGTAGTAGCACTGTCTAGGCCCGTCCGACCTCAAGATCTCAGCCTTTGTTTAGACTCTAGCTACCTTGGCTCTGCCACCCCCGGCAGTAGCAGCCATCCTTCTGTCATTGCCACCACTGTTGTGTCCCTCAAGGCTGCGAATCTGACATATATGCCCTCATCCAGCGGCTCTGCCCGCTCCCTGAATTGTGGATGCAGCAGTGCCAGTTGCTGCACTGTGGCAGCCTACGACAAGGACAGTCAGGCCCAGACCCAAGCCATTGCTGCCGGCACTGCCGCCACTGCCATCGGAACCTCTGCCGCCAGCCCTGCCAACCAGATGGTCAACAACAATGAGAACACAGGCTCTCTAGGTCCATCGGGTGAAGTGGGCAGCCCTGTGACAGGGGTCCCCAAGCAGCTCACCAGCATCAAAATCATCTACCCCAACGACTTGGCCAAGAGGATGACCAAGGGCAGCAAGAGCCACCTGCCCAGCCAGAGCCCTGTCATCATCGACTGCAGGCCCTTCATGGAGTACAACAAGAGCCACATCCAAGGAGCTGTCCACATCAACTGTGCCGACAAGATCAGCCGGCGGAGGCTGCAGCAGGGCAAGATCACTGTCCTGGACTTGATTTCCTGCAGGGAAGGCAAGGACTCTTTCAAGAGGATCTTTTCCAAAGAAATCATAGTTTACGATGAGAACACCAATGAGCCAAGCCGCGTGATGCCCTCACAGCCTCTTCATATAGTCCTCGAGTCCCTGAAGAGAGAAGGCAAAGATCCTCTGGTGCTGAAAGGGGGGCTCAGCAGCTTCAGGCAGAGCCATGAGAACTTGTGCGACAACTCCCTGCAGCTGCAGCACTGTCGAGAGGCCTGCGGGGGGGCGGCGGCGCCCAGCCTGCTGCCTCGGCCCGGGCCCAGCACGCCGGACATCGAGGGTGCAGAGCTCACGCCCGTCCTGCCCTTCCTCTTCCTGGGCAACCAGCAGGATGCGCAGGACCTGGACACCATGCAGCGGCTCAACATTGGCTACGTGATCAACGTCACCACGCACCTGCCGCTCTACCACTGCGAGAAGGGGCTGCTCAGCTACAAGCGCCTGCCGGCCACCGACAGCAGCAAGCAGAACCTGCGGCAGTACTTCGAGGAGGCCTTCGAGTTCATCGAGGAGGCACACCAGTGTGGCAAGGGGCTCCTCATTCACTGCCAGGCCGGCGTGTCACGGTCCGCCACCATTGTCATCGCCTACCTAATGAAGCACACGTGGATGACCATGACGGATGCGTACAAATTCGTCAAAGGCAAACGACCAATTATTTCCCCAAACCTTAACTTCATGGGGCAGTTGCTGGAGTTCGAGGAAGACCTCAACAATGGTGTGACCCCACGGATCCTGACGCCCAAGCTCATGGGCGTGGAGACAGTCGTGTGA
Disp1 dispatched homolog 1 (Drosophila), transcript variant X2
Length: 4581 bp Location: 5316659..5468754 Strand: +>XM_004867425.1 ATGGCTCTGAGCAACGGGAGCCCCGATTTTGTGTTTCTGAGCAATGGCGGCATCGCAACCGGCGCTTCCAGTCGGAGTGCCCTGGCGCCCGGGGACGCAGACCTCGCCGCCCAGCAGCTCCTACCCAAAGGCGCGGCCCAAGCAAAAGTGAGTCCCAATGGCTGCGTGCACCGCAATGGCACGGTGAAGTCATCCTTCCTGCCTTCAGACAGCCGGAGAGTGCCTCCAGGTCTCCCCGCGTGTGGGCGTGGTCACTCGTGCTCGTTCCACCACCCGCTGGGCAGCCCCGAGGCGGGTCCCGCAGCGCCCTCGGCCTCGACCTCCTGTTGCACGCAGCCGCCCTCAGGGTACTCTGCGTCTCCGTGTGCAAACCATTCTCCCGCGTACCAGGCCGCATGCTGCCTGCAGCCCTCGACGCCCTTCTGCCTGCACCACCCATGGCTTGACCATTTCCAGCACCAGCCGGCGCAGCAGCGCATAGCCAGCCTCAGACCACCTAGACCTTTCAAGTTGCCGAAAAGCTATGCGGCCCTGCTCGCTGACTGGCCGGTGGTGGTCCTGGGACTATGCACCCTGCTCATCGCGGTCTGTGCACTCGTGGGTGTGTTGGTGCTGGAGCTGCCAGACTTCTCAGATCCGCTGCTGGGTTTTGAGCCAAGAGGGACGACGATAGGCCAGAGACTGGTGACGTGGAACAACATGGTCAAAAACACCGGGTACAAAGCCACGCTGGCAAATTACCCTTTTAAGTATGCAGATGAGCAGGCCAAGAGCCATCGGGACGATCGGTGGTCAGATGATCATTATGAAAGAGAAAAAAGAGAGGTGGACTGGAACTTCCACAAAGACAGCTTTTTCTGCGACGTCCCGAGTGAACGATATTCCAGAATAGTGTTTACCTCTGCGGGAGGGGAGACACTGTGGAATTTACCTGCAATTAAATCCATGTGCAGTGTAGATAACACCAGGATCAGGGCTCACCCCCAGTTCAGCGACCTCTGCCAGAGGACCACAGCCGCCTCCTGCTGCCCCAGCTGGACCCTGGGCAACTACATCGCCATTCTGAACAACAGGTCCTCCTGTCAGAGCATCGTCGAGCGAGATGTGTCTCACACCCTGAAGCTGTTGCGCACCTGTGCCAAACACTACCAGAACGGCACCCTGGGGCCGGACTGCTGGGATGCGACAGCCCGGAGGAAGGACCAGCTCAAGTGCAGCAGCGTGCCGCGCAAGTGCACCAAGTACAATGCCGTGTACCAGATCCTCCACTACCTGGTGGACAAGGACTTTCTGGCCCCGAGGACGGCTGAGCATGCCACGCCGGGGCTAAAGTACAGCATGCTCTTCTCGCCCACGGAGAAGGGGAAGAGCATGATGAGCATTTACCTGGACAACTTCGAGGGCTGGAACTCCTCCGATGGCGTGACAGCTGTCACCGGGATTGAGTTTGGCATCAAGCACAGCCTGTTTCAGGACTACCTTCTGATGGATACTGTGTATCCGGCCATAGCCATGGTCATCGTCCTGCTGGTCATGTGTGTCTACACCAAGTCCATGTTTATCACGCTGATGACAATGTTTGCCATCATCAGTTCCCTGATTGTCTCCTACTTCCTCTACCGTGTTGTGTTTAACTTCGAGTTTTTCCCTTTCATGAACCTCACCGCTCTCATCATTCTGGTTGGCATTGGGGCTGATGACGCGTTTGTGCTGTGTGACGTGTGGACCTACACCAAGTGTGACAAGCCACACGCCAAGACCTCAGAGACAGTGAGCACCACCCTGCAGCACGCCGCCCTCTCCATGTTTGTCACCAGCTTTACCACAGCCGCCGCCTTCTACGCCAACTACGTCAGCAACATCACGGCCATCAGGTGCTTCGGGGTGTACGCGGGCACTGCCATCCTGGTGAACTACATCCTCATGGTCACGTGGCTCCCAGCCGTAGTTGTGCTGCACGAACGCTACCTGCTCAACATCTTCAGCTGCTTCCGGAAGCCCCAGCAGCCACTGTATGAGGACAAGAGCTGCTGGACTGTGGCCCGCCAGAAGTGCCACCGCCTACTCTTTGCTGTTTCCGAGGTCTCTCGGATTTTCTTCGAGAAAGTGCTGCCATGCATCGTCATTAAGTTCCGCTACCTGTGGCTCTTGTGGTTCCTCGTGCTGACAGTGGGCGGAGCCTACATCGTGTGCGTGAACCCCAAGATGAAGCTGCCCTCACTGGAGCTGTCCGAGTTCCAGGTGTTCCGTGCATCCCACCCATTTGAGCGCTACGACGCTGAGTACAAGAAGCTGTTCATGTTTGAGCGCGTGCACCATGGCGAGGAGCTGCACATGCCCATCACTGTGGTCTGGGGCGTGTCCCCCGAGGACAACGGCAACCCGCTCAACCCCAAGAGCAAGGGCAAGCTGATGCTGGACAGCAGCTTCAACATCGCCAGCCCCGCGTCCCAGGCCTGGATTCTGCACTTCTGCCAGAAGCTGAGGAACCAGACGTTCTTCTACCAGACCGACGAGCAGGACTTCACCAGCTGCTTCATCGAGACCTTCAAGCAGTGGATGGAGAACCAGGACTGCGACGAGCCTGCCCTGTACCCGTGCTGCAGCCACTGGAGCTTCCCCTACAAGCAGGAGGTCTTCGAGCTGTGCATCAAGAGGGCCATCATGGAGCTGGAGAGGAGCACAGGCTACCACCTGGACAGCAGGACGCCGGGGCCGCGCTTCGACGTCAACGACACCATCCGGGCCGTGGTGCTGGAGTTCCAGAGCGCCCACCTCTTCACGCTGGCCTACGAGAAGATGCACCAGTTCTATAGTGAGGTGGACACATGGATCTCCCGGGAGCTGCGCTCTGCGCCCGAGGGCCTCAGCAACGGCTGGTTTGTGAGCAACCTCGAGTTCTACGACCTGCAGGACAGCCTCTCGGATGGCACCCTCATCGCCATGGGGCTGTCAGTGGCAGTGGCCTTCAGCGTGATGCTGCTGACCACGTGGAATGTCGTCATCAGCCTGTACGCCATCCTCTCTATTGCCGGCACCATCTTCGTCACCGTGGGGTCCCTGGTCCTGCTGGGCTGGGAGCTGAACGTTCTGGAATCCGTCACCATCTCAGTGGCCGTGGGGCTGTCCGTGGACTTTGCCGTCCACTACGGGGTTGCCTACCGCCTGGCCCCGGACCCCGACCGCGAGGGCAAGGTGATCTTCTCTCTGAGCCGCATGGGCTCGGCCATCGCCGTGGCTGCCCTGACCACCTTTGTGGCTGGGGCCATGATGATGCCGTCCACCGTGCTGGCCTACACGCAGCTGGGCACCTTCATGATGCTCGTCATGTGCGTCAGTTGGGCCTTCGCCACCTTCTTCTTCCAGTGCATGTGCCGGTGCCTCGGGCCGCAGGGCTCCTGTGGGCAGATCCCGCTGCCAAGGAAGCTCCAGTGCGGCGCCTTTGCCCACGCCTTTTCCTCAGGTCCTGGTGACAAAGGGCAGAGCAAAGCCTGTCCCTCGGATGCACATCACGTAGATCCCCAGGGCCAGAAGTCGGAACCGGAGCATGAGTTTTATGAGCTGGAACCGCTGGCATCCCGAGGCTGTACAGCCTCAGAGAGGACCACGCATGAGGAAAGCTGCCTCTGCGTCGACCTCCTTGGCAGCCCAGCCGGGGGCACGGGGGTGCCTGGGCACGCAGCACACACTGGGGAGCGCAGCCGGAGCTCCAGGGGTGACTCCAGCGCTGCCCTGCTCCCGCTCTGTCCTGAGCCACACCCTGCACGCCCCTTCTCCCTGAATCAGAGATGCCGCTGCCTGCTCACCTACAGACTCCTGATGTGCAGCCCACACTCCTGCCGGCAGGAAGGTGACTCTGTGTGTGGCCACTGCGCCCCTGCCACAGGTGGCTTCGTCCAGATCCAGAACGGGGTGGTGCCTCTGCAGGCAGCACATCCAGCCCCTGAGGGCTTCGTGCACCACCTCCCACACCCACACTTGCAGCCTTGTCCCTGCCTGCAGGGCTGGGGGAAGCCACCTGGAATCCAGAGCCCCCTGCCTCAGAACTGTCACCTCCAACAGACGCCGCCTGTGCAGGCCCCAGAGCCCCGGGGCAAGACTGGCGAGCATGGTGCACCGGGCTCCAACGCACGGCTTCCTGGGGCGGCAGAGTCGTCGCCGCTGGCCTGCAGGGTTGCTGCCTCTTCACGGCCCCCACACTGCGATCCTGAGCATGGTCGGAGGGGACTCCACAGAGACAGGGACACCGGACATGGGGAGGGGGCCGCCAGAAGCAAAGGCTCTGGTCTGCAGCATCGCAAGGACAGGCCTGAGAGGAGAGTGGAGCCGGGCTTGTCACAGGCTGGTGCAGTTTCGAACTCAGAACATTTCAGTCACAGCGAACCAAAGCTTCTGTTTAACCATTTTCTGGGGGAGGCTGGTCATGGGCCCGGCTGGGGCAGCCTGCAGAGCTGCAACAGCACTGTGAGCGGGAGGTGCAGCTCTGCGGGCTGCCTGCTCCCAGACCTCGATGCCAGCGTGCCTGCTGCTGTGGTGCACTCAGAACTGGCTGAGGAGAGCTTGTTAATAAAGGCACCCTAA
Disp1 dispatched homolog 1 (Drosophila), transcript variant X3
>XM_004867426.1 ATGGCTCTGAGCAACGGGAGCCCCGATTTTGTGTTTCTGAGCAATGGCGGCATCGCAACCGGCGCTTCCAGTCGGAGTGCCCTGGCGCCCGGGGACGCAGACCTCGCCGCCCAGCAGCTCCTACCCAAAGGCGCGGCCCAAGCAAAAGTGAGTCCCAATGGCTGCGTGCACCGCAATGGCACGGTGAAGTCATCCTTCCTGCCTTCAGACAGCCGGAGAGTGCCTCCAGGTCTCCCCGCGTGTGGGCGTGGTCACTCGTGCTCGTTCCACCACCCGCTGGGCAGCCCCGAGGCGGGTCCCGCAGCGCCCTCGGCCTCGACCTCCTGTTGCACGCAGCCGCCCTCAGGGTACTCTGCGTCTCCGTGTGCAAACCATTCTCCCGCGTACCAGGCCGCATGCTGCCTGCAGCCCTCGACGCCCTTCTGCCTGCACCACCCATGGCTTGACCATTTCCAGCACCAGCCGGCGCAGCAGCGCATAGCCAGCCTCAGACCACCTAGACCTTTCAAGTTGCCGAAAAGCTATGCGGCCCTGCTCGCTGACTGGCCGGTGGTGGTCCTGGGACTATGCACCCTGCTCATCGCGGTCTGTGCACTCGTGGGTGTGTTGGTGCTGGAGCTGCCAGACTTCTCAGATCCGCTGCTGGGTTTTGAGCCAAGAGGGACGACGATAGGCCAGAGACTGGTGACGTGGAACAACATGGTCAAAAACACCGGGTACAAAGCCACGCTGGCAAATTACCCTTTTAAGTATGCAGATGAGCAGGCCAAGAGCCATCGGGACGATCGGTGGTCAGATGATCATTATGAAAGAGAAAAAAGAGAGGTGGACTGGAACTTCCACAAAGACAGCTTTTTCTGCGACGTCCCGAGTGAACGATATTCCAGAATAGTGTTTACCTCTGCGGGAGGGGAGACACTGTGGAATTTACCTGCAATTAAATCCATGTGCAGTGTAGATAACACCAGGATCAGGGCTCACCCCCAGTTCAGCGACCTCTGCCAGAGGACCACAGCCGCCTCCTGCTGCCCCAGCTGGACCCTGGGCAACTACATCGCCATTCTGAACAACAGGTCCTCCTGTCAGAGCATCGTCGAGCGAGATGTGTCTCACACCCTGAAGCTGTTGCGCACCTGTGCCAAACACTACCAGAACGGCACCCTGGGGCCGGACTGCTGGGATGCGACAGCCCGGAGGAAGGACCAGCTCAAGTGCAGCAGCGTGCCGCGCAAGTGCACCAAGTACAATGCCGTGTACCAGATCCTCCACTACCTGGTGGACAAGGACTTTCTGGCCCCGAGGACGGCTGAGCATGCCACGCCGGGGCTAAAGTACAGCATGCTCTTCTCGCCCACGGAGAAGGGGAAGAGCATGATGAGCATTTACCTGGACAACTTCGAGGGCTGGAACTCCTCCGATGGCGTGACAGCTGTCACCGGGATTGAGTTTGGCATCAAGCACAGCCTGTTTCAGGACTACCTTCTGATGGATACTGTGTATCCGGCCATAGCCATGGTCATCGTCCTGCTGGTCATGTGTGTCTACACCAAGTCCATGTTTATCACGCTGATGACAATGTTTGCCATCATCAGTTCCCTGATTGTCTCCTACTTCCTCTACCGTGTTGTGTTTAACTTCGAGTTTTTCCCTTTCATGAACCTCACCGCTCTCATCATTCTGGTTGGCATTGGGGCTGATGACGCGTTTGTGCTGTGTGACGTGTGGACCTACACCAAGTGTGACAAGCCACACGCCAAGACCTCAGAGACAGTGAGCACCACCCTGCAGCACGCCGCCCTCTCCATGTTTGTCACCAGCTTTACCACAGCCGCCGCCTTCTACGCCAACTACGTCAGCAACATCACGGCCATCAGGTGCTTCGGGGTGTACGCGGGCACTGCCATCCTGGTGAACTACATCCTCATGGTCACGTGGCTCCCAGCCGTAGTTGTGCTGCACGAACGCTACCTGCTCAACATCTTCAGCTGCTTCCGGAAGCCCCAGCAGCCACTGTATGAGGACAAGAGCTGCTGGACTGTGGCCCGCCAGAAGTGCCACCGCCTACTCTTTGCTGTTTCCGAGGTCTCTCGGATTTTCTTCGAGAAAGTGCTGCCATGCATCGTCATTAAGTTCCGCTACCTGTGGCTCTTGTGGTTCCTCGTGCTGACAGTGGGCGGAGCCTACATCGTGTGCGTGAACCCCAAGATGAAGCTGCCCTCACTGGAGCTGTCCGAGTTCCAGGTGTTCCGTGCATCCCACCCATTTGAGCGCTACGACGCTGAGTACAAGAAGCTGTTCATGTTTGAGCGCGTGCACCATGGCGAGGAGCTGCACATGCCCATCACTGTGGTCTGGGGCGTGTCCCCCGAGGACAACGGCAACCCGCTCAACCCCAAGAGCAAGGGCAAGCTGATGCTGGACAGCAGCTTCAACATCGCCAGCCCCGCGTCCCAGGCCTGGATTCTGCACTTCTGCCAGAAGCTGAGGAACCAGACGTTCTTCTACCAGACCGACGAGCAGGACTTCACCAGCTGCTTCATCGAGACCTTCAAGCAGTGGATGGAGAACCAGGACTGCGACGAGCCTGCCCTGTACCCGTGCTGCAGCCACTGGAGCTTCCCCTACAAGCAGGAGGTCTTCGAGCTGTGCATCAAGAGGGCCATCATGGAGCTGGAGAGGAGCACAGGCTACCACCTGGACAGCAGGACGCCGGGGCCGCGCTTCGACGTCAACGACACCATCCGGGCCGTGGTGCTGGAGTTCCAGAGCGCCCACCTCTTCACGCTGGCCTACGAGAAGATGCACCAGTTCTATAGTGAGGTGGACACATGGATCTCCCGGGAGCTGCGCTCTGCGCCCGAGGGCCTCAGCAACGGCTGGTTTGTGAGCAACCTCGAGTTCTACGACCTGCAGGACAGCCTCTCGGATGGCACCCTCATCGCCATGGGGCTGTCAGTGGCAGTGGCCTTCAGCGTGATGCTGCTGACCACGTGGAATGTCGTCATCAGCCTGTACGCCATCCTCTCTATTGCCGGCACCATCTTCGTCACCGTGGGGTCCCTGGTCCTGCTGGGCTGGGAGCTGAACGTTCTGGAATCCGTCACCATCTCAGTGGCCGTGGGGCTGTCCGTGGACTTTGCCGTCCACTACGGGGTTGCCTACCGCCTGGCCCCGGACCCCGACCGCGAGGGCAAGGTGATCTTCTCTCTGAGCCGCATGGGCTCGGCCATCGCCGTGGCTGCCCTGACCACCTTTGTGGCTGGGGCCATGATGATGCCGTCCACCGTGCTGGCCTACACGCAGCTGGGCACCTTCATGATGCTCGTCATGTGCGTCAGTTGGGCCTTCGCCACCTTCTTCTTCCAGTGCATGTGCCGGTGCCTCGGGCCGCAGGGCTCCTGTGGGCAGATCCCGCTGCCAAGGAAGCTCCAGTGCGGCGCCTTTGCCCACGCCTTTTCCTCAGGTCCTGGTGACAAAGGGCAGAGCAAAGCCTGTCCCTCGGATGCACATCACGTAGATCCCCAGGGCCAGAAGTCGGAACCGGAGCATGAGTTTTATGAGCTGGAACCGCTGGCATCCCGAGGCTGTACAGCCTCAGAGAGGACCACGCATGAGGAAAGCTGCCTCTGCGTCGACCTCCTTGGCAGCCCAGCCGGGGGCACGGGGGTGCCTGGGCACGCAGCACACACTGGGGAGCGCAGCCGGAGCTCCAGGGGTGACTCCAGCGCTGCCCTGCTCCCGCTCTGTCCTGAGCCACACCCTGCACGCCCCTTCTCCCTGAATCAGAGATGCCGCTGCCTGCTCACCTACAGACTCCTGATGTGCAGCCCACACTCCTGCCGGCAGGAAGGTGACTCTGTGTGTGGCCACTGCGCCCCTGCCACAGGTGGCTTCGTCCAGATCCAGAACGGGGTGGTGCCTCTGCAGGCAGCACATCCAGCCCCTGAGGGCTTCGTGCACCACCTCCCACACCCACACTTGCAGCCTTGTCCCTGCCTGCAGGGCTGGGGGAAGCCACCTGGAATCCAGAGCCCCCTGCCTCAGAACTGTCACCTCCAACAGACGCCGCCTGTGCAGGCCCCAGAGCCCCGGGGCAAGACTGGCGAGCATGGTGCACCGGGCTCCAACGCACGGCTTCCTGGGGCGGCAGAGTCGTCGCCGCTGGCCTGCAGGGTTGCTGCCTCTTCACGGCCCCCACACTGCGATCCTGAGCATGGTCGGAGGGGACTCCACAGAGACAGGGACACCGGACATGGGGAGGGGGCCGCCAGAAGCAAAGGCTCTGGTCTGCAGCATCGCAAGGACAGGCCTGAGAGGAGAGTGGAGCCGGGCTTGTCACAGGCTGGTGCAGTTTCGAACTCAGAACATTTCAGTCACAGCGAACCAAAGCTTCTGTTTAACCATTTTCTGGGGGAGGCTGGTCATGGGCCCGGCTGGGGCAGCCTGCAGAGCTGCAACAGCACTGTGAGCGGGAGGTGCAGCTCTGCGGGCTGCCTGCTCCCAGACCTCGATGCCAGCGTGCCTGCTGCTGTGGTGCACTCAGAACTGGCTGAGGAGAGCTTGTTAATAAAGGCACCCTAA
Tp53bp2 tumor protein p53 binding protein, 2, transcript variant X3
Length: 3369 bp Location: 5790525..5744973 Strand: ->XM_004867433.1 ATGCGGTCCGTGCCCAGCATGATGCCGATGTTCCTGACTGTGTACCTCAGCAACGACGAGCAGCACTTCACGGAGGTGCCCGTCACCCCGGAGACCACGTGCCGTGACCTGGTGGACCTGTGCAAGGAGCCCGGCGAGAGCGAGTGCTACCTGGCCGAGGTGTGGCACGGCTCCGAGCGCCCAGTTGCTGATAATGAACGAATGTTCGATGTTCTTCAGCGACTGGGAAGCCAGCGCAGTGAAGTTCGTTTCTTCCTCCGCCACGAGCGCCCGCCCGGCAGAGATGTAGTGAGTGGCCTGAGGTCTCAGGATCCAAGTCTGAGAAGAAATGGTGTGAAAGTCCCTGGAGAACACCGGAGAAAGGAGAATGGAGTGAGCAGTCCCCGCATGGACCCGACACTGGCTGAGCTCCAGGAAATGGCGTCTCGCCAGCAGCAGCAGATCGAGGCCCAGCAGCAGATGCTGGCCGCCAAGGAACAGCGCTTAAAATTTTTGAAGCAACAAGATCAGCGTCAGCAGCAACAGGCCGCCGAGCAGGAGAGGCTCAAGAGGCTGAGAGAACTGGCTGAGAGCCAGGAAGCCAAGCTGAAGAAAGTGCGGGCACTCAAGGGCCATGTGGAGCAGAAGCGGCTGAGCAACGGGAAGCTTGTGGAGGAAATTGAGCAGATGAATAGTTTGTTCCAGCAGAAGCAGAGGGAGCTAGTCCTGGCCGTGTCGAAAGTAGAGGAACTCACGAGGCAGCTGGAGATGCTGAAGAACGGCAGGATCGATGGCCAGCATGACAGCCAGTCCGCGGTGGCCGAGCTGGACTGGCTGTACAAGGAGCTGCAGCTGAGGAACAAGCTGAACCAGGAGCAGAACACCAGGCTGCAGCAGCAGAGGGAGTGTCTGAACAAGCGCAACTCTGAGGTGGCCGTCATGGACCGGCGTGTCAGTGAGCTCCGTGACCGGCTGTGGAAGAAGAAGGCGGCACTGCAGCAGAAGGAGAACCTGCCGGTTCTGTCCGATGGGAATCTCACCCAGCTGCCCGTGTCCGCTCCGAGCCGAGTGGCTGCCGTGGGTCCGTACATCCAGTCCTCCACCATGCCGCGGCTGCCCCCGAGGCCGGAGCTGCTGGTGAAGCCAGCGCTGCCTGAGGGTCCCCTGGCCCTGCAGGCCTCCGAGGTGAAGATTCAGACGCTGCCCAACACGAGGACCACTGCGGCCCCTCTGCAGGCCAAAGGGCCGAGAGTCCCTCCCGCTGGGCCTGACTGGGCCCCTTCGAGTGCGGACCTTTGCTCCCTGCCTCAGAGTGCTAGGCCTGCGCCAGACCAAGTTGCCGATGGGGAGGTTCCGCTGAGGGAAAAGGAGAAGAAAGTCCGGCCCTTCTCCATGCTTGATGCGGTGGACCAGGGGGCGGCCCCGCCCGGCTTCGGCATGCTGCGGAAGAACCAGAGCAGCGAGGACATCCTGCGCGATGCTCAGGCTGCAAATAAGAACGTGGCTAAAGTGCCGCCTCCTGTTCCTACAAAACCAAAACAGATGAACTTGCCTTATTTTGGACAAGCCAGCCCATCACCATCTGACACCAAGCCGGAGGGAGGCCCACAGCAGTTGCCTGAAGCCTCGACAGCCGTGGGCCCTAAGCCCAAGGCAGCAGGGCCACAGCCGAGGGCGGCGTTGTCCCCCAGCGTGCCTTCAGGTGGCCACGACCATGGCCTGTCTGCAGGGCCTAAGCAGGAGAGCCCACCCGCTGCTGCGGTCCGGCCCTTCACGCCCCAGCCTCCCAAAGATGCCGCCCTCCCCGCCTTCAGGAAGCCCCAGACAGTGGCTGCCAGCTCCATCTACTCCATGTACACGCAGCACCAGGCGCCGGGGAAGAGCTTCCAGCAGGCCGTGCAGAGCGTGCTGACCAAGGCACAGCCCCGCGGCCCGCACTTCGCAAGCGTGTATGGCAAGCCTGTGCTTGTGGCGGCCCAGAACCTGCAGCAGCAGCCGCCCGAGAGCGCGCACTGCAGCAGCCAGGGCCCGCCGGGCAGCCCGGAGCCCGACTCAGAGCCCGCGTCCTCGGCCCCCGAGAGCCAGGAGAACGAGCGCACCCCGCGCCCGCTCAGCCCCACCAAGCTGCTGCCTTTCCTGTCCAACCCCTACCGGAACCAGAGCGACGCCGACCTGGAGGCCCTGCGCAAGAAGCTCTCCAACGCCCCCCGGCCGCTGAAGAAGCGCAGCTCCATCACGGAGCCAGAGGGGCCCAGTGGGCCCAACATCCAGAAGCTGCTGTACCAGAGGACCACGCTGGCCGCCATGGAGACCATCTCAGTGCCCGCCCACCCCGGCAAGGCATCTGCACCTGCTGGCCCGGAGAGCCCAGGAGAGGTCCCCAACCCCTACTTACCCGTGGAGCCCGAGGAGGAGGCCGCCCGCGCCCCCGTGCCACTGTCCCCAGAGGATGCGGGGCCCCCTGGCGACGGGCCCGCTCCTTCCCCAGACCCGGACTCTGTGCCCGAATGGGCAGCGGACGGCAGCCCAGGCGCCCAGGGTGCCCAGGAGGAGCCCCATGCAGAGCGCCCCCCCCCGCCGGAGGTGTACCTGGAGGAGTACCCCCCGTACCCCCCGCCGCCCTACCCGTCCGGGGACCCCGAGGGGCCTGGAGAGGACCCCGCCAGCATGCGCCCCCCTGAGGTCACCGGGCAGGGCGCCCTGCCCCCTGGCAAAAGGACAAACTTGCGTAAGACAGGCTCGGAGCGGATTGCCCATGGAATGAGGGTCAAGTTCAACCCTCTGGCCTTGCTTCTGGATTCCTCGTTGGAGGGAGAATTCGACCTCGTGCAGAGAATCATTTATGAGGTGGAGGACCCCAGCCTGCCAAATGACGAGGGCATCACTGCACTGCACAACGCCGTGTGCGCGGGACACACAGAGATCGTGAAGTTCCTGGTGCAGTTTGGGGTGAATGTGAACGCTGCCGACAGCGACGGGTGGACCCCGCTGCACTGTGCAGCCTCGTGCAACAACGTGCAGGTCTGCAAGTTCCTGGTGGAGTGCGGGGCGGCCGTGTTCGCCATGACCTACAGCGACATGCAGACGGCGGCCGACAAGTGCGAGGAGATGGAGGAGGGCTACGCACAGTGCTCGCAGTTCCTCTACGGGGTTCAGGAGAAGATGGGGATCATGAACAAGGGAGTCATCTACGCGCTCTGGGACTACGAGCCTCAGAACACGGACGAGCTGCCCATGAAGGAAGGGGACTGCATGACCATCGTCCGCCGCGAGGACGAGGATGAGATCGAGTGGTGGTGGGCACGGCTGAGCGACCAGGAGGGTTACGTCCCACGCAACCTGCTGGGCCTGTACCCGAGAATCAAACCAAGACAAAGAAGCTTGGCCTGA
Tp53bp2 tumor protein p53 binding protein, 2, transcript variant X1
Length: 3426 bp Location: 5790525..5746499 Strand: ->XM_004867431.1 ATGCGGTCCGTGCCCAGCATGATGCCGATGTTCCTGACTGTGTACCTCAGCAACGACGAGCAGCACTTCACGGAGGTGCCCGTCACCCCGGAGACCACGTGCCGTGACCTGGTGGACCTGTGCAAGGAGCCCGGCGAGAGCGAGTGCTACCTGGCCGAGGTGTGGCACGGCTCCGAGCGCCCAGTTGCTGATAATGAACGAATGTTCGATGTTCTTCAGCGACTGGGAAGCCAGCGCAGTGAAGTTCGTTTCTTCCTCCGCCACGAGCGCCCGCCCGGCAGAGATGTAGTGAGTGGCCTGAGGTCTCAGGATCCAAGTCTGAGAAGAAATGGTGTGAAAGTCCCTGGAGAACACCGGAGAAAGGAGAATGGAGTGAGCAGTCCCCGCATGGACCCGACACTGGCTGAGCTCCAGGAAATGGCGTCTCGCCAGCAGCAGCAGATCGAGGCCCAGCAGCAGATGCTGGCCGCCAAGGAACAGCGCTTAAAATTTTTGAAGCAACAAGATCAGCGTCAGCAGCAACAGGCCGCCGAGCAGGAGAGGCTCAAGAGGCTGAGAGAACTGGCTGAGAGCCAGGAAGCCAAGCTGAAGAAAGTGCGGGCACTCAAGGGCCATGTGGAGCAGAAGCGGCTGAGCAACGGGAAGCTTGTGGAGGAAATTGAGCAGATGAATAGTTTGTTCCAGCAGAAGCAGAGGGAGCTAGTCCTGGCCGTGTCGAAAGTAGAGGAACTCACGAGGCAGCTGGAGATGCTGAAGAACGGCAGGATCGATGGCCAGCATGACAGCCAGTCCGCGGTGGCCGAGCTGGACTGGCTGTACAAGGAGCTGCAGCTGAGGAACAAGCTGAACCAGGAGCAGAACACCAGGCTGCAGCAGCAGAGGGAGTGTCTGAACAAGCGCAACTCTGAGGTGGCCGTCATGGACCGGCGTGTCAGTGAGCTCCGTGACCGGCTGTGGAAGAAGAAGGCGGCACTGCAGCAGAAGGAGAACCTGCCGGTTCTGTCCGATGGGAATCTCACCCAGCTGCCCGTGTCCGCTCCGAGCCGAGTGGCTGCCGTGGGTCCGTACATCCAGTCCTCCACCATGCCGCGGCTGCCCCCGAGGCCGGAGCTGCTGGTGAAGCCAGCGCTGCCTGAGGGTCCCCTGGCCCTGCAGGCCTCCGAGGTGAAGATTCAGACGCTGCCCAACACGAGGACCACTGCGGCCCCTCTGCAGGCCAAAGGGCCGAGAGTCCCTCCCGCTGGGCCTGACTGGGCCCCTTCGAGTGCGGACCTTTGCTCCCTGCCTCAGAGTGCTAGGCCTGCGCCAGACCAAGTTGCCGATGGGGAGGTTCCGCTGAGGGAAAAGGAGAAGAAAGTCCGGCCCTTCTCCATGCTTGATGCGGTGGACCAGGGGGCGGCCCCGCCCGGCTTCGGCATGCTGCGGAAGAACCAGAGCAGCGAGGACATCCTGCGCGATGCTCAGGCTGCAAATAAGAACGTGGCTAAAGTGCCGCCTCCTGTTCCTACAAAACCAAAACAGATGAACTTGCCTTATTTTGGACAAGCCAGCCCATCACCATCTGACACCAAGCCGGAGGGAGGCCCACAGCAGTTGCCTGAAGCCTCGACAGCCGTGGGCCCTAAGCCCAAGGCAGCAGGGCCACAGCCGAGGGCGGCGTTGTCCCCCAGCGTGCCTTCAGGTGGCCACGACCATGGCCTGTCTGCAGGGCCTAAGCAGGAGAGCCCACCCGCTGCTGCGGTCCGGCCCTTCACGCCCCAGCCTCCCAAAGATGCCGCCCTCCCCGCCTTCAGGAAGCCCCAGACAGTGGCTGCCAGCTCCATCTACTCCATGTACACGCAGCACCAGGCGCCGGGGAAGAGCTTCCAGCAGGCCGTGCAGAGCGTGCTGACCAAGGCACAGCCCCGCGGCCCGCACTTCGCAAGCGTGTATGGCAAGCCTGTGCTTGTGGCGGCCCAGAACCTGCAGCAGCAGCCGCCCGAGAGCGCGCACTGCAGCAGCCAGGGCCCGCCGGGCAGCCCGGAGCCCGACTCAGAGCCCGCGTCCTCGGCCCCCGAGAGCCAGGAGAACGAGCGCACCCCGCGCCCGCTCAGCCCCACCAAGCTGCTGCCTTTCCTGTCCAACCCCTACCGGAACCAGAGCGACGCCGACCTGGAGGCCCTGCGCAAGAAGCTCTCCAACGCCCCCCGGCCGCTGAAGAAGCGCAGCTCCATCACGGAGCCAGAGGGGCCCAGTGGGCCCAACATCCAGAAGCTGCTGTACCAGAGGACCACGCTGGCCGCCATGGAGACCATCTCAGTGCCCGCCCACCCCGGCAAGGCATCTGCACCTGCTGGCCCGGAGAGCCCAGGAGAGGTCCCCAACCCCTACTTACCCGTGGAGCCCGAGGAGGAGGCCGCCCGCGCCCCCGTGCCACTGTCCCCAGAGGATGCGGGGCCCCCTGGCGACGGGCCCGCTCCTTCCCCAGACCCGGACTCTGTGCCCGAATGGGCAGCGGACGGCAGCCCAGGCGCCCAGGGTGCCCAGGAGGAGCCCCATGCAGAGCGCCCCCCCCCGCCGGAGGTGTACCTGGAGGAGTACCCCCCGTACCCCCCGCCGCCCTACCCGTCCGGGGACCCCGAGGGGCCTGGAGAGGACCCCGCCAGCATGCGCCCCCCTGAGGTCACCGGGCAGGGCGCCCTGCCCCCTGGCAAAAGGACAAACTTGCGTAAGACAGGCTCGGAGCGGATTGCCCATGGAATGAGGGTCAAGTTCAACCCTCTGGCCTTGCTTCTGGATTCCTCGTTGGAGGGAGAATTCGACCTCGTGCAGAGAATCATTTATGAGGTGGAGGACCCCAGCCTGCCAAATGACGAGGGCATCACTGCACTGCACAACGCCGTGTGCGCGGGACACACAGAGATCGTGAAGTTCCTGGTGCAGTTTGGGGTGAATGTGAACGCTGCCGACAGCGACGGGTGGACCCCGCTGCACTGTGCAGCCTCGTGCAACAACGTGCAGGTCTGCAAGTTCCTGGTGGAGTGCGGGGCGGCCGTGTTCGCCATGACCTACAGCGACATGCAGACGGCGGCCGACAAGTGCGAGGAGATGGAGGAGGGCTACGCACAGTGCTCGCAGTTCCTCTACGGGGTTCAGGAGAAGATGGGGATCATGAACAAGGGAGTCATCTACGCGCTCTGGGACTACGAGCCTCAGAACACGGACGAGCTGCCCATGAAGGAAGGGGACTGCATGACCATCGTCCGCCGCGAGGACGAGGATGAGATCGAGTGGTGGTGGGCACGGCTGAGCGACCAGGAGGGTTACGTCCCACGCAACCTGCTGGGCGTGAGTGACCTGCCGTGCGCACTTGCGTGTGTGTGTGTGGGGGGGGCTTGGCGAGGTCCGTGTGTCGTGCACCCAGTGCAGCCCTCTTCCCTGTTATGA
Ephx1 epoxide hydrolase 1, microsomal (xenobiotic), transcript variant X3
Length: 1581 bp Location: 6171550..6161930 Strand: ->XM_004867447.1 ATGTGGCTGGAAATTCTCCTCGCCTCCGGGCTGGGCTTCCTCATCTACTGGTTTGTGTCCCGGGACAAGGAGGAGACTTTGCCGCTTGAAGATGGTTGGTGGGGCCCAGGGGCAAAGCCCACAGTCAGGGAGGACGAGAGCATCCTGCCTTTCAAGGTGGAGACCTCAGAGGAGGAGATCAGGGACTTACACCAGAGGATTGATAGGTTCCGCCCAACCCCGTCATTGGAGGGCAGCCGATTCCACTATGGCTTCAACTCCAAGTACCTGAAAAAGATCCTGTCCTACTGGCGGAATGAATTTGACTGGAGGAAGCAGGTAGAGATCCTCAACAAGTACCCTCACTTCAAGACAAAGATTGAAGGGCTGGACATCCACTTTGTCCATGTGAAGCCCACACAGCTGCCCTCAGGCTGTAGCCCAAAGCCCTTGCTGATGGTGCATGGCTGGCCCGGCTCCTTCTACGAGTTTTATAAGATCATCCCGCTCCTGACGGACCCAAAGAGCCACGGCCTAAGTGATGAACATGTGTTTGAAGTCATCTGCCCCTCCATCCCTGGCTACAGCTTCTCAGAGGCATCCAGCAAGAAAGGCCTGAATTCAGTGGCCACTGCCAGGATCTTTTACAAGCTGATGCTTCGGCTGGGCTTCCAGGAATTCTACATTCAGGGAGGAGACTGGGGGTCCCTGATCTGCACCAACATGGCCCAGCTGGTGCCCAGGTGCGGCCTGTCAGGGATGTATGGCCAAGAGGGTGTGGTGCTGGGCACAGCTTCCTGCACTGCCCCTGCCTGCCAGCAGCTCGCCTGGGCCCTCATTCCAGGGCCCCCGGGCGGGGAGGCCAGGGAGACCATCCCCCCGGGCTCTGGCCTCGCTGTGTCTGACCCCTCCCTTGACGCGAGCCCAGCCTCACTGGAACTGCTCTCTTCCCTCAGCCACGTGAAGGGCCTGCACTTGAACATGGCATTTGTTTTAAGAAGTACTCACACTCTGGCCCCTCTCCTGGGCCGGCGTATCGGGGGGCTTCTTGGCTACACCGAGAGAGATATGGAGCTGCTGTCCCCCTTCAAGGAAAAGGTTTTCTACAGCATCATGAGGGAGAGCGGCTACATGCACATCCAGGCCACCAAGCCAGACACTGTGGGGTGTGCTCTGAATGACTCTCCTGTGGGACTGGCTGCCTACATCCTGGAGAAGTTTTCCACCTGGACCAATGCAGATTTCCGAGACCTGGAGGACGGAGGCCTGGAGAGGAAGTTCTCCCTGGACGACCTGCTGACCAACATCATGCTCTACTGGACAACAGGGTCCATCGTCTCCTCCCAGCGCTACTATAAGGAGAACCTGGGCCAGGGCCTAATGACCCAGAAGCATGAGTGGATGAAGGTCTCTGTGCCCACTGGCTTTGCCGCCTTCCCCTGCGAGTTACTGCACCTCCCTGAGAGGTCGGTGAGAGCCAAGTACCCCAAGCTCCTCTCCTACTCCTACATGGCCCGTGGGGGCCACTTCGCTGCCCTGGAGGAGCCCGACCTGCTGGCCCAGGACATCCGCAAGTTTGTGACACTGGTGGAGCAGCAGTGA
Lbr lamin B receptor
>XM_004867456.1 ATGCCAAGTAGGAAATTTGCCGATGGTGAAGTGGTAAGAGGTCGATGGCCTGGGAGTTCCCTCTATTATGAAGTGGAAATTCTGAGCTTTGATGGCAAATCCCAGCTCTACGCCGTAAAGTACAAAGATGGAACTGAACTGGAGTTAAAAGAGAGCGATATCAAGCCTCTAACGTCCTTCAAGCAAAGGAAGAGCAGCTCAGCTTCCAGTTCTCCCTCCAGACGCCGAGGGAGCCGTGGAAGCCGCAGGTCTCGGTCACGCTCCCGGTCCCCCGGCCGGCCGCTCAGAGGTTCCCGGAGATCCACCTCCGCCTCCTGCCAGGCCGATGTGAAGGAGATGAGGAGGGAGATTCTGGAAGTTAAATTGACTCCGCTCGTATTGAAGCCATTTGGGAACAGCATCAGCACGTACAATGGAGGACCAGAGCCCAAGCAGAATGAGGGGAAGGACTCGCCTCACAGAACCATGCAGTCACATGGTGAAGGGAAGGACAAGCCTCACAGAAGACCTCAGGAAAGAGTCACCATGCCCCACAAAAGCAGTAATGTGTCTACTCAGTATAGCCTTCGACCAAGAAGAGAAGAGATCAAATTCAACGAAGTCAATTCTAAGGGAGAAAAGCCTCTTGCTGAAGAACCTGATTTGCTGAGAACATTTCATGTGGCCACCCCTCCCAGGAAGGAGATGGAGTTTGGGGGTGTCCCTGGTGCGTTGCTCATCATGCTGGGCCTGCCCGCCGTCGCCCTCCTGCTGCTGTCCCTGTGCCGGGAGGATGACCCGAGCCTCCTGCGTTTCCGGCCCACCTGGCCAGCACTGTGTGACCTGTGGGAGCCCCGGGCTGCAGCACTGTACCTCCTCTGGCTTTCCGTCCAAGCTCTGTTCTACCTGTTGCCAGTCGGGAAGGTTGTAGAAGGATTGCCTCTTGTTGATGGAAGAAGACTCAAGTATAGATTAAATGGATTCTCTGCTTTCGTCTTGACCGCTGCAGTCCTTGGTGCGGGTCTCCTCTGGGGTCTGCAGCTTCATTACCTGTTCGACCACTTCCTCCAGTTGGCTGTTGCAGCCATGGTGTTCACGGCTGTCCTGAGTGTTTACCTCTATGCACGAGCCCAGAGCGCGCCCAGGGATGAGCTGTCGCCGGCCAGCTGCGGAAACGCTATCTATGATTTCTTCATTGGCCGTGAGTTGAATCCAAGAGTTGGTTCTTTTGATCTCAAATACTTCTGTGAACTGCGCCCTGGCTTGATTGGATGGGTGGTGATTAACCTAGTGATGCTTTTGGCTGAAATGAAGGTGCAGAACCGGGCTACTCCATCCTTGGCAATGGTTTTGGTTAACAGCTTCCAGCTTCTGTACGTGGTGGATGCTCTCTGGAATGAGGAGGCGCTGCTGACAACCATGGACATTGTCCACGACGGGTTCGGGTTCATGCTGGCCTTTGGGGATCTGGTGTGGGTTCCTTTCACCTACAGCCTGCAGGCCTTTTACCTCGTCCACCATCCCCACGAGTTGTCCTGGCCACTGGCCGCACTGATCACCGCTCTGAAGCTTTGTGGATATGTAATCTTCCGATGTGCGAATTCTCAGAAAAATGCATTCCGGAAAAATCCCTCTGATCCAAAGCTTGCGCATTTGAAAACCATTCACACTTCCACGGGGAAGAACCTCCTGGTGTCTGGATGGTGGGGCTTTGTCCGCCACCCCAACTACCTGGGTGACCTCATCATGGCCCTGGCATGGTCCCTGCCGTGTGGTTTTGAGCACGCCTTGCCATACTTCTATGTGGCCTACTTTTCGGTGCTGCTGGTGCACCGGGAGGCACGGGACGAGCAGCAGTGCCGGAGGAAGTACGGGCTGGCCTGGGAGCGGTACTGCCAGTGCGTGCCGTATCGCCTGCTGCCCGGCGTGTACTGA