Gene Name | Heterocephalus glaber isolate NMR 29 unplaced genomic scaffold, HetGla_female_1.0 scaffold00155, whole genome shotgun sequence |
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Timm9 translocase of inner mitochondrial membrane 9 homolog (yeast), transcript variant X6
Length: 270 bp Location: 3477159..3467108 Strand: ->XM_004871112.1 ATGGCTGCACAGATATCAGAATCTGATCAGATAAAACAGTTTAGGGAATTCCTGGGAACCTACAATAAACTTACAGAAACCTGCTTTTTGGACTGTGTTAAAGACTTCACAACAAGAGAAGTAAAACCTGAAGAGATCACCTGTTCAGAACATTGCTTACAGAAATATTTAAAAATGACACAAAGAATATCCATGAGATTTCAGGAATACCATATTCAGCAGAATGAGGCCCTGGCAGCCAAAGCGGGACTTCTTGGCCAGCCCCGATAG
Timm9 translocase of inner mitochondrial membrane 9 homolog (yeast), transcript variant X5
Length: 270 bp Location: 3477159..3467108 Strand: ->XM_004871111.1 ATGGCTGCACAGATATCAGAATCTGATCAGATAAAACAGTTTAGGGAATTCCTGGGAACCTACAATAAACTTACAGAAACCTGCTTTTTGGACTGTGTTAAAGACTTCACAACAAGAGAAGTAAAACCTGAAGAGATCACCTGTTCAGAACATTGCTTACAGAAATATTTAAAAATGACACAAAGAATATCCATGAGATTTCAGGAATACCATATTCAGCAGAATGAGGCCCTGGCAGCCAAAGCGGGACTTCTTGGCCAGCCCCGATAG
Timm9 translocase of inner mitochondrial membrane 9 homolog (yeast), transcript variant X4
Length: 270 bp Location: 3477159..3467108 Strand: ->XM_004871110.1 ATGGCTGCACAGATATCAGAATCTGATCAGATAAAACAGTTTAGGGAATTCCTGGGAACCTACAATAAACTTACAGAAACCTGCTTTTTGGACTGTGTTAAAGACTTCACAACAAGAGAAGTAAAACCTGAAGAGATCACCTGTTCAGAACATTGCTTACAGAAATATTTAAAAATGACACAAAGAATATCCATGAGATTTCAGGAATACCATATTCAGCAGAATGAGGCCCTGGCAGCCAAAGCGGGACTTCTTGGCCAGCCCCGATAG
Timm9 translocase of inner mitochondrial membrane 9 homolog (yeast), transcript variant X3
Length: 270 bp Location: 3475215..3467108 Strand: ->XM_004871109.1 ATGGCTGCACAGATATCAGAATCTGATCAGATAAAACAGTTTAGGGAATTCCTGGGAACCTACAATAAACTTACAGAAACCTGCTTTTTGGACTGTGTTAAAGACTTCACAACAAGAGAAGTAAAACCTGAAGAGATCACCTGTTCAGAACATTGCTTACAGAAATATTTAAAAATGACACAAAGAATATCCATGAGATTTCAGGAATACCATATTCAGCAGAATGAGGCCCTGGCAGCCAAAGCGGGACTTCTTGGCCAGCCCCGATAG
Arid4a AT rich interactive domain 4A (RBP1-like), transcript variant X2
Length: 3783 bp Location: 3360410..3433582 Strand: +>XM_004871104.1 ATGAAGGCGGCTGACGAGCCTGCCTACCTGACCGTAGGCACGGACGTCAGTGCCAAGTACCGGGGTGCCTTCTGCGAGGCAAAGATCAAGACGGTGAAGAGGCTGGTGAAAGTCAAGGTACTCCTGAAACAGGATAATACAACCCAGTTGGTGCAAGATGACCAAATCAAGGGTCCTTTAAGAGTTGGAGCAATTGTTGAAACGAGAGCGCCTGACGGGTCCTTTCAGGAAGCCGTTATCAGCAAGTTGACAGATGCTAGCTGGTATACCGTGGTGTTTGATGATGGTGATGAGAGAACCCTGAGACGAACCTCTCTCTGCCTGAAAGGGGAGAGGCATTTTGCAGAGAGTGAGACACTTGATCAGCTTCCGTTAACAAATCCAGAGCATTTTGGAACTCCAGTAATTGCAAAGAAGACAAACAGAGGAAGGAGGTCCTCACTTCCTGTTAACGAGGATGAGAAGGAGGAAGAAAGTAGTGAAGAGGAAGATGAAGATAAGCAACGTCTCAATGATGAGTTGTTAGGAAAAATTGTGAGAGTGGTTTCTACACCTGAGAGGCCTGAATGGTACCCTGCTTTGGTGGTCTCTCCCAGCTGTAATGATGACATCACAGTGAAAAAGGATCAGTGTTTAGTTCGATCATTTATTGATTCTAAATTTTATGCTATAGCGAGGAAGGATATTAAAGAAGTAGACATTCTCAATCTGCCGGAATCTGAACTCTCTGCTAAACCAGAGCTGCAGAAAGCGAGTATCTTCTTAAAAGCTAGAGTTGTTCCTGACAATTGGAAAATGGATCTAAGTGAAATCCTGGAGTCGTCCAGTAGTGATGATGAAGACGGCCCAGCTGAAGAAAACGATGAAGAAAAGGAAAAGGAAACCAAAAAGGAAGAAGAGGAGGTGCCTGAGGAAGAACTTGATCCTGAAGAGAGGGACAACTTCCTCCAACAGCTTTATAAGTTTATGGAAGACAGAGGCACTCCAATCAACAAACCACCTGTTTTGGGATATAAAGATCTCAATCTCTTCAAACTTTTTAGACTGGTTTACCATCAGGGTGGATGTGACAATATTGATAGTGGTGCTGTATGGAAGCAAATTTATATGGACCTCGGCATTCCAATTTTGAATTCAGCTGCTTCCTACAATGTAAAAACTGCTTATAGAAAGTATCTCTATGGTTTTGAAGAGTACTGCCGTTCTGCAAATATTCAATTTAGAACCATTCACCACCATGAACCAAAAGTAAAAGTAGAAAAAAAAGACTTAGACGAATCCATGGAAGAGGCTCTAAAAGTAGATCAAGAAATGCCTTTGATAGAAGTAAAGAGTGAACTGGAGGAGACTACTGATTCAAACAGTGAGAGTGAAAGAGAAGAGCTCGAATTAAAGTCTCCACGGGGACGAAGGAGAATTGCTCGAGATGCAAATTCAATTAAAAAGGAAATTGAAGAAGAGAAAACAGAAGACAAATTAAGAGATAATGATTCAGAAAATAAGGATGTAGACGATGACTATGAAACTGCAGAGAAAGAAGAAAACGGGCTAATATTGGGGAGAAAAAATACACCAAAGCCAAAAGAGAAGAAAGTCAAAAAGCAAGAGGGCTCCGACCGAGACTCAGAGGGAGAGGAAGAGAAGAACCAAGAGAGGGAAGAAACAGAGAGCAAGTGTGACTCTGAAGGGGAAGAAGATGAGGAAGACACGGAACCCTGTCTAACAGGAACCAAAGTGAAAGTGAAATATGGACGAGGGAAAACTCAGAAAATCTACGAAGCCAGCATTAAAAGCACTGAAATCGATGATGGAGAAGTTTTATACTTAGTACATTATTATGGATGGAATGTCAGGTATGATGAGTGGGTGAAGGCTGACAGGATCATCTGGCCTTTGGACAAAGGTGGACCAAAGAAAAAACAAAAGAAGAAAGCTAAGAATAAAGAAGATAGTGAAAAGGATGAGAAGAGGGAGGAAGACAGGCAGAGGACGAAGCGTGGGCGGCCCCCTCTGAGATCCAGCCTGCCCTCGGGCGTGCCCTTTGGGCTGCCCACAGCAGTGCACAGCGAAGGGAAATCAGACTCTTGTTCATCTGATAGTGAAACAGAAGACCCTTTAGAAAAGAGTTTGATAAATGAAGAACTTTTTCCTGATAATAAAGAAGAATTAGAAAAAAATGAAAATTTAAATGATGACAAACTAGATGAAGAAAACCCAAAGATAGCTGGACATATGGTAAAAGAAAATGACAGAGTAGCAGTGCAGCCTTTAGAAACCCTGCAGCTGGAAGTTGGAGAGAATGAACAAATAGTACAGCTTTTTGGAAACAAAATGGAACAGGGGGAGGAAGTGAAAAAGGAGGCAGAAAAATCTCCAAAAGGCAAGGGAAGGCGAAGCAAAACAAAAGATATTTCTTTAGAAATTATAAAGATTTCATCATTCAGCCAGGGTGACACAGGAAGTGAGCCTCATGTAGAAGCTCATAGTCTTGAATTTTCTTCATTAGACAGTAAAAACTTCTCCTCTGCTGCCGGAGATGAAATCGACCAGTATGGGAAAGAAAGGAAGTTGAAACGGAAAATACTAGGACACTCATCACCTGAGAAGAAGCTAAGAATGGAGAATGGGATGGGAATGACGAACAGCGTTTCTCAGGAGAGGACCAGTGACTGTATTGGATCCGAGGGGATGAAGAGCTTGCGTTTGGAACAGCACTTTGAGCCGGAGAATGAAGGGATGCCGTCCTTGACAGCCGAGGCCGGCCAGTGCAGACAGGAGTTGGCCTGTGAGGAGCTCGAGCACCACACCAAAGAGACTGCCAGCACGCCCCTCAAGGAGGAGGACGCCATGCCGCTGATTGGCCCCGAGACCCTGGTTTGCCACGAGGTGGACCTGGATGACTTGGATGACAAGGACAAGCCGGGCACCGAGGACATGGCCGTGCAGAGCTCCGAGGTCAGCTCTCTGGTCTCTGTGCCCCACGCGCTCCTGCCCACCAGCCAGCACGACTTAGCAGCAGCATCGCCGCTGGGCCTGAGTCAGGATGAGTCCCGGAGCGTGCGGAGCGAGAGCGATGCCACCGTTGAGGTGGACAGCACGACCGAGGAGTCCCCGGAGGGTCCCAGTGAGCGAGAGCGCCCTGTGGCCAGCAGCTTCGAGGCCAGCTCAGGCCCTGCTGCCTGCAGTTTAAGTGCACAAGAGAGAGAGAGCAGAGAGAAGGGTCACAAAAGGCCAAGTGACGGAAATGGTGGATTAATGGCAAAAAAACAAAAGCGTACCCCGAAACGAACAAGTGCTGCGGCCAAAAGGGAAAAGAATGGAGCAGGACAGAGCAGTGATAGTGAAGATCTTCCTGCCGTAAACAATTCAAGTAAATGTACTCCAGTTAAGCATCTTAGTGTATCTAAGCCACCAAAGCTTGCTCGGTCTCCTGCCAGAATCTCTCCTCACATCAAAGATGGAGAGAAAGAGAAGCAAAGAGAAAAGCATCCCAATTCCTCCCCCAGGACGTATAAGTGGACCCTTCAACTCAATGAATTAGATAACATGAACAGTACAGAAAGAATCTCTTTTCTCCAAGAAAAACTACAGGAAATCAGGAAATACTACATGTCTTTGAAGTCTGAAGTTGCAACCATAGACAGGCGCAGAAAAAGATTAAAAAAGAAAGACAGAGAAGTGTCTCACGTTGGGGCCTCCATGTCATCAGCTTCATCAGACACTGGAATGAGTCCCTCATCATCATCCCCCCCCCAAAATGTCCTTGCTGTAGAATGCAGGTGA
Psma3 proteasome (prosome, macropain) subunit, alpha type, 3, transcript variant X2
Length: 747 bp Location: 3324412..3346128 Strand: +>XM_004871102.1 ATGAGCTCCATCGGAACTGGGTATGACCTGTCAGCCTCCACATTCTCTCCAGATGGAAGAGTTTTTCAAGTTGAATATGCCATGAAGGCTGTGGAAAATAGCAGTACAGCTATTGGGATCAGATGTAAAGATGGTGTTGTCTTTGGGGTAGAAAAATTAGTTCTTTCTAAACTTTATGAAGAAGGTTCCAACAAACGGCTTTTTAATGTTGATCGGCATGTTGGAATGGCAGTAGCAGGTTTGCTGGCAGATGCTCGTTCTTTAGCAGACATAGCAAGAGAAGAAGCTTCCAACTTCAGATCTAACTTTGGCTATAACATTCCACTCAAACATCTTGCAGACAGAGTGGCGATGTACGTACATGCTTACACACTCTACAGTGCTGTTAGACCATTCGGCTGCAGTGTGAATGATGGTGCACAGCTGTACATGATCGACCCATCAGGTGTTTCATACGGTTATTGGGGCTGTGCTATTGGCAAAGCCAAGCAGGCTGCAAAGACAGAAATAGAAAAGCTTCAGATGAAAGAAATGACCTGCCGTGATGTTGTTAAAGAAGTTGCAAAAATAATTTACATAGTACATGATGAAGTTAAGGATAAAGCTTTTGAACTAGAGCTCAGCTGGGTTGGTGAATTAACTAAAGGCAGACATGAAATTGTTCCAAAAGATATAAGGGAAGAAGCAGAGAAATATGCTAAGGAATCACTGAAGGAAGAAGATGAATCCGATGATGATAATATGTAA
LOC101701510 chromosome unknown open reading frame, human C14orf37, transcript variant X2
Length: 2205 bp Location: 3225859..3034349 Strand: ->XM_004871096.1 ATGAGCAGATCAATTGTCTTGCACCTTTGTCTGGCTTTTGGTAGCTTTTTTTTTCTTAACTTTGCCATACAATGTCTGGCCTTCCCCAAAAAAGAACAAGAGCAGCCTGAGAGGATCAGCACAGATGACCTGGAAAATAGCTCTGTGACTCCAAAGCCAACTCCTCAACTGGTGTCCTCCGAAGATGCAAGACCAGCCTCAGCAGAACCATCAGCAATGTCATTAAATGAAATCCTCTTGGATAACAAAGAAACCCATCCTGGAGGAGCTGGGCTCTTGCAGTCTAGCAGTGCTGGTCTTTATATGGCATCTGAGCCAGCGGTCCCGACAGGTGAGGACATGCCTGGTTCCAGCCAGCCAGGGGGCCTGTCTGCTGAGAGCAAGCCTTCAGAGCCCACGCTAACCATCGCCCTCCCTGCAGCTGCTTCTCTGAGTACTGATGGGGAAGAGGAGCCCTGGAGCAGTACCAGCAGTCAGCCCACTGTGGAAGGGACCACAGAAACAACACAAAGTTTTCTGACATATGTGGTCAATCAGCTGTTCGCAACTGAAAATCAGGAAGAAGTTAGTTTGGGACATACACCTTCATCCTATATGAACACCGAAGAAATGATAACCACCAGTCCAAGGATGGAGCAACTCAAAGCAGCCACAGAGCAGAGGACAACTTCTTTTCCTGGTGCTGAGTCCACAACAGACACTGTACCCGGAAGCCTCCTGCCTAATGGGGAGAAGCCCTCCCAGATGACAGCTGATGATACCCAGGCCACTGGCACCAAGCACTTATTGGTGGCAACTTCTGCGTATACCCTGGGTTTTGAGCCGGAAACCTACAGCTTGCTGGAAGCCCCAGAAATCACAGTGAGTGTCAGCTCAGCTGTTCCAGCCACCTCTGTCTTAAGTGAGGAATGGGATGACACCAAACCAGGGGGTGGAAACCAGATAAGGACCCCACAGCCTGAAGGCAATCCAGCGGCAGCGGAGGTAGCTCTGGGGCTGCCAGAAGGAGAAGCACATGTGGGCACAGCCCTGGAAATGTCACAGGGGGACGAGGGATTACCTGCCTCCGCTCGCCTCAGTTCCTTTGCTCCCACGAGCCTGTTGGAAGGTACAGAGTTTTCCATGAGCCTATTCCGAGGTGTAGGAGGTGTCACGGATTCCACCAAGGGAGACAGCACAGCGTTCCTCTCAGAGACGACCGAGTCTGGGTCAGAATCTCAGTCAGAGGCGTATCAACTGCTGGGACAGGCACTGAAAGACACCATCACTCAAGAAATGACAACGGCTGCCCAGGAACCAGAGGCCACTCTACCCTTCATGACACGAGAGCAGGTTGCTACCCTGGATGTTCCCAGAGACAGTGGAGACCCCGAGGAAGGCGAGGAGTCCCCCTCTGCTGGGACTGATGCTTCTGCTGCTACTCAGCTGTCCAGAAGATGGGAGCCTCTGGCCACGACAGCTTCAACCACAGCGGCCCCATTGACTCCTGCAGTCATCCCTGGTGCGGAAGGCTGCACGGACACAGTCACATTGTCCAGTGAGGAGTTCACACCGGTTTTGGGCTCCCCTGTGACAACCCCTGGAGTAATGATGGAGGTGATTAGCTCTTCCCCAGCAATTCCTGCTTCTGAGGCCCCCTCTGAGAGAACAGTTCCATCCAGTAGCAGCACAAATACAGCCGCTTCCTACGGCCTGGAACAGCTCGAATCTGAAGAGGGAGAAGATGACGAGGATGAAGAGGATGAAGAAGATGAGGATGAAGAGGAGGAAGAGGAGGAGGAAGAAGAGGAAGATAAAGATGCAGACTCCCTAGATGAGAGCTTCGATGGTGACAGTGACCTGCCAGGCTTTACTCTCGCTGGTGACACATCGCAGGAGCCTGGCTTGGAGCAGGGAAATAGGGACCCATTGGCGGGAGCCACCTACCAGGTGCCAGATGCCATCGAGTGGGAGCAACAGAATCAAGGCCTGGTGAGAAGCTGGATGGAAAAACTCAAAGACAAGGCTGGCTACATGTCTGGGATGCTGGTGCCTATAGGAGTGGGGATAGCTGGAGCCTTGTTCATCTTGGGAGCACTCTACAGCATTAAGGTTATGAATCGCCGAAGGAGAAATGGCTTCAAAAGGCATAAAAGAAAGAGAGAATTCAGCAGCATGCAAGATCGAGTAATGCTCTTAGCCGACAGCTCTGAAGATGAATTTTGA
LOC101701510 chromosome unknown open reading frame, human C14orf37, transcript variant X4
Length: 2205 bp Location: 3225821..3034349 Strand: ->XM_004871098.1 ATGAGCAGATCAATTGTCTTGCACCTTTGTCTGGCTTTTGGTAGCTTTTTTTTTCTTAACTTTGCCATACAATGTCTGGCCTTCCCCAAAAAAGAACAAGAGCAGCCTGAGAGGATCAGCACAGATGACCTGGAAAATAGCTCTGTGACTCCAAAGCCAACTCCTCAACTGGTGTCCTCCGAAGATGCAAGACCAGCCTCAGCAGAACCATCAGCAATGTCATTAAATGAAATCCTCTTGGATAACAAAGAAACCCATCCTGGAGGAGCTGGGCTCTTGCAGTCTAGCAGTGCTGGTCTTTATATGGCATCTGAGCCAGCGGTCCCGACAGGTGAGGACATGCCTGGTTCCAGCCAGCCAGGGGGCCTGTCTGCTGAGAGCAAGCCTTCAGAGCCCACGCTAACCATCGCCCTCCCTGCAGCTGCTTCTCTGAGTACTGATGGGGAAGAGGAGCCCTGGAGCAGTACCAGCAGTCAGCCCACTGTGGAAGGGACCACAGAAACAACACAAAGTTTTCTGACATATGTGGTCAATCAGCTGTTCGCAACTGAAAATCAGGAAGAAGTTAGTTTGGGACATACACCTTCATCCTATATGAACACCGAAGAAATGATAACCACCAGTCCAAGGATGGAGCAACTCAAAGCAGCCACAGAGCAGAGGACAACTTCTTTTCCTGGTGCTGAGTCCACAACAGACACTGTACCCGGAAGCCTCCTGCCTAATGGGGAGAAGCCCTCCCAGATGACAGCTGATGATACCCAGGCCACTGGCACCAAGCACTTATTGGTGGCAACTTCTGCGTATACCCTGGGTTTTGAGCCGGAAACCTACAGCTTGCTGGAAGCCCCAGAAATCACAGTGAGTGTCAGCTCAGCTGTTCCAGCCACCTCTGTCTTAAGTGAGGAATGGGATGACACCAAACCAGGGGGTGGAAACCAGATAAGGACCCCACAGCCTGAAGGCAATCCAGCGGCAGCGGAGGTAGCTCTGGGGCTGCCAGAAGGAGAAGCACATGTGGGCACAGCCCTGGAAATGTCACAGGGGGACGAGGGATTACCTGCCTCCGCTCGCCTCAGTTCCTTTGCTCCCACGAGCCTGTTGGAAGGTACAGAGTTTTCCATGAGCCTATTCCGAGGTGTAGGAGGTGTCACGGATTCCACCAAGGGAGACAGCACAGCGTTCCTCTCAGAGACGACCGAGTCTGGGTCAGAATCTCAGTCAGAGGCGTATCAACTGCTGGGACAGGCACTGAAAGACACCATCACTCAAGAAATGACAACGGCTGCCCAGGAACCAGAGGCCACTCTACCCTTCATGACACGAGAGCAGGTTGCTACCCTGGATGTTCCCAGAGACAGTGGAGACCCCGAGGAAGGCGAGGAGTCCCCCTCTGCTGGGACTGATGCTTCTGCTGCTACTCAGCTGTCCAGAAGATGGGAGCCTCTGGCCACGACAGCTTCAACCACAGCGGCCCCATTGACTCCTGCAGTCATCCCTGGTGCGGAAGGCTGCACGGACACAGTCACATTGTCCAGTGAGGAGTTCACACCGGTTTTGGGCTCCCCTGTGACAACCCCTGGAGTAATGATGGAGGTGATTAGCTCTTCCCCAGCAATTCCTGCTTCTGAGGCCCCCTCTGAGAGAACAGTTCCATCCAGTAGCAGCACAAATACAGCCGCTTCCTACGGCCTGGAACAGCTCGAATCTGAAGAGGGAGAAGATGACGAGGATGAAGAGGATGAAGAAGATGAGGATGAAGAGGAGGAAGAGGAGGAGGAAGAAGAGGAAGATAAAGATGCAGACTCCCTAGATGAGAGCTTCGATGGTGACAGTGACCTGCCAGGCTTTACTCTCGCTGGTGACACATCGCAGGAGCCTGGCTTGGAGCAGGGAAATAGGGACCCATTGGCGGGAGCCACCTACCAGGTGCCAGATGCCATCGAGTGGGAGCAACAGAATCAAGGCCTGGTGAGAAGCTGGATGGAAAAACTCAAAGACAAGGCTGGCTACATGTCTGGGATGCTGGTGCCTATAGGAGTGGGGATAGCTGGAGCCTTGTTCATCTTGGGAGCACTCTACAGCATTAAGGTTATGAATCGCCGAAGGAGAAATGGCTTCAAAAGGCATAAAAGAAAGAGAGAATTCAGCAGCATGCAAGATCGAGTAATGCTCTTAGCCGACAGCTCTGAAGATGAATTTTGA
LOC101701510 chromosome unknown open reading frame, human C14orf37, transcript variant X3
Length: 2205 bp Location: 3224924..3034349 Strand: ->XM_004871097.1 ATGAGCAGATCAATTGTCTTGCACCTTTGTCTGGCTTTTGGTAGCTTTTTTTTTCTTAACTTTGCCATACAATGTCTGGCCTTCCCCAAAAAAGAACAAGAGCAGCCTGAGAGGATCAGCACAGATGACCTGGAAAATAGCTCTGTGACTCCAAAGCCAACTCCTCAACTGGTGTCCTCCGAAGATGCAAGACCAGCCTCAGCAGAACCATCAGCAATGTCATTAAATGAAATCCTCTTGGATAACAAAGAAACCCATCCTGGAGGAGCTGGGCTCTTGCAGTCTAGCAGTGCTGGTCTTTATATGGCATCTGAGCCAGCGGTCCCGACAGGTGAGGACATGCCTGGTTCCAGCCAGCCAGGGGGCCTGTCTGCTGAGAGCAAGCCTTCAGAGCCCACGCTAACCATCGCCCTCCCTGCAGCTGCTTCTCTGAGTACTGATGGGGAAGAGGAGCCCTGGAGCAGTACCAGCAGTCAGCCCACTGTGGAAGGGACCACAGAAACAACACAAAGTTTTCTGACATATGTGGTCAATCAGCTGTTCGCAACTGAAAATCAGGAAGAAGTTAGTTTGGGACATACACCTTCATCCTATATGAACACCGAAGAAATGATAACCACCAGTCCAAGGATGGAGCAACTCAAAGCAGCCACAGAGCAGAGGACAACTTCTTTTCCTGGTGCTGAGTCCACAACAGACACTGTACCCGGAAGCCTCCTGCCTAATGGGGAGAAGCCCTCCCAGATGACAGCTGATGATACCCAGGCCACTGGCACCAAGCACTTATTGGTGGCAACTTCTGCGTATACCCTGGGTTTTGAGCCGGAAACCTACAGCTTGCTGGAAGCCCCAGAAATCACAGTGAGTGTCAGCTCAGCTGTTCCAGCCACCTCTGTCTTAAGTGAGGAATGGGATGACACCAAACCAGGGGGTGGAAACCAGATAAGGACCCCACAGCCTGAAGGCAATCCAGCGGCAGCGGAGGTAGCTCTGGGGCTGCCAGAAGGAGAAGCACATGTGGGCACAGCCCTGGAAATGTCACAGGGGGACGAGGGATTACCTGCCTCCGCTCGCCTCAGTTCCTTTGCTCCCACGAGCCTGTTGGAAGGTACAGAGTTTTCCATGAGCCTATTCCGAGGTGTAGGAGGTGTCACGGATTCCACCAAGGGAGACAGCACAGCGTTCCTCTCAGAGACGACCGAGTCTGGGTCAGAATCTCAGTCAGAGGCGTATCAACTGCTGGGACAGGCACTGAAAGACACCATCACTCAAGAAATGACAACGGCTGCCCAGGAACCAGAGGCCACTCTACCCTTCATGACACGAGAGCAGGTTGCTACCCTGGATGTTCCCAGAGACAGTGGAGACCCCGAGGAAGGCGAGGAGTCCCCCTCTGCTGGGACTGATGCTTCTGCTGCTACTCAGCTGTCCAGAAGATGGGAGCCTCTGGCCACGACAGCTTCAACCACAGCGGCCCCATTGACTCCTGCAGTCATCCCTGGTGCGGAAGGCTGCACGGACACAGTCACATTGTCCAGTGAGGAGTTCACACCGGTTTTGGGCTCCCCTGTGACAACCCCTGGAGTAATGATGGAGGTGATTAGCTCTTCCCCAGCAATTCCTGCTTCTGAGGCCCCCTCTGAGAGAACAGTTCCATCCAGTAGCAGCACAAATACAGCCGCTTCCTACGGCCTGGAACAGCTCGAATCTGAAGAGGGAGAAGATGACGAGGATGAAGAGGATGAAGAAGATGAGGATGAAGAGGAGGAAGAGGAGGAGGAAGAAGAGGAAGATAAAGATGCAGACTCCCTAGATGAGAGCTTCGATGGTGACAGTGACCTGCCAGGCTTTACTCTCGCTGGTGACACATCGCAGGAGCCTGGCTTGGAGCAGGGAAATAGGGACCCATTGGCGGGAGCCACCTACCAGGTGCCAGATGCCATCGAGTGGGAGCAACAGAATCAAGGCCTGGTGAGAAGCTGGATGGAAAAACTCAAAGACAAGGCTGGCTACATGTCTGGGATGCTGGTGCCTATAGGAGTGGGGATAGCTGGAGCCTTGTTCATCTTGGGAGCACTCTACAGCATTAAGGTTATGAATCGCCGAAGGAGAAATGGCTTCAAAAGGCATAAAAGAAAGAGAGAATTCAGCAGCATGCAAGATCGAGTAATGCTCTTAGCCGACAGCTCTGAAGATGAATTTTGA
LOC101701510 chromosome unknown open reading frame, human C14orf37, transcript variant X1
Length: 2283 bp Location: 3217242..3034349 Strand: ->XM_004871095.1 ATGTGCTTTATTTTTCTGCAGGACTCAGTTGCTGGAATTGTCAGCTCTGCCAATTTCTATGCACATTTCTCTTCCACTATGAGCAGATCAATTGTCTTGCACCTTTGTCTGGCTTTTGGTAGCTTTTTTTTTCTTAACTTTGCCATACAATGTCTGGCCTTCCCCAAAAAAGAACAAGAGCAGCCTGAGAGGATCAGCACAGATGACCTGGAAAATAGCTCTGTGACTCCAAAGCCAACTCCTCAACTGGTGTCCTCCGAAGATGCAAGACCAGCCTCAGCAGAACCATCAGCAATGTCATTAAATGAAATCCTCTTGGATAACAAAGAAACCCATCCTGGAGGAGCTGGGCTCTTGCAGTCTAGCAGTGCTGGTCTTTATATGGCATCTGAGCCAGCGGTCCCGACAGGTGAGGACATGCCTGGTTCCAGCCAGCCAGGGGGCCTGTCTGCTGAGAGCAAGCCTTCAGAGCCCACGCTAACCATCGCCCTCCCTGCAGCTGCTTCTCTGAGTACTGATGGGGAAGAGGAGCCCTGGAGCAGTACCAGCAGTCAGCCCACTGTGGAAGGGACCACAGAAACAACACAAAGTTTTCTGACATATGTGGTCAATCAGCTGTTCGCAACTGAAAATCAGGAAGAAGTTAGTTTGGGACATACACCTTCATCCTATATGAACACCGAAGAAATGATAACCACCAGTCCAAGGATGGAGCAACTCAAAGCAGCCACAGAGCAGAGGACAACTTCTTTTCCTGGTGCTGAGTCCACAACAGACACTGTACCCGGAAGCCTCCTGCCTAATGGGGAGAAGCCCTCCCAGATGACAGCTGATGATACCCAGGCCACTGGCACCAAGCACTTATTGGTGGCAACTTCTGCGTATACCCTGGGTTTTGAGCCGGAAACCTACAGCTTGCTGGAAGCCCCAGAAATCACAGTGAGTGTCAGCTCAGCTGTTCCAGCCACCTCTGTCTTAAGTGAGGAATGGGATGACACCAAACCAGGGGGTGGAAACCAGATAAGGACCCCACAGCCTGAAGGCAATCCAGCGGCAGCGGAGGTAGCTCTGGGGCTGCCAGAAGGAGAAGCACATGTGGGCACAGCCCTGGAAATGTCACAGGGGGACGAGGGATTACCTGCCTCCGCTCGCCTCAGTTCCTTTGCTCCCACGAGCCTGTTGGAAGGTACAGAGTTTTCCATGAGCCTATTCCGAGGTGTAGGAGGTGTCACGGATTCCACCAAGGGAGACAGCACAGCGTTCCTCTCAGAGACGACCGAGTCTGGGTCAGAATCTCAGTCAGAGGCGTATCAACTGCTGGGACAGGCACTGAAAGACACCATCACTCAAGAAATGACAACGGCTGCCCAGGAACCAGAGGCCACTCTACCCTTCATGACACGAGAGCAGGTTGCTACCCTGGATGTTCCCAGAGACAGTGGAGACCCCGAGGAAGGCGAGGAGTCCCCCTCTGCTGGGACTGATGCTTCTGCTGCTACTCAGCTGTCCAGAAGATGGGAGCCTCTGGCCACGACAGCTTCAACCACAGCGGCCCCATTGACTCCTGCAGTCATCCCTGGTGCGGAAGGCTGCACGGACACAGTCACATTGTCCAGTGAGGAGTTCACACCGGTTTTGGGCTCCCCTGTGACAACCCCTGGAGTAATGATGGAGGTGATTAGCTCTTCCCCAGCAATTCCTGCTTCTGAGGCCCCCTCTGAGAGAACAGTTCCATCCAGTAGCAGCACAAATACAGCCGCTTCCTACGGCCTGGAACAGCTCGAATCTGAAGAGGGAGAAGATGACGAGGATGAAGAGGATGAAGAAGATGAGGATGAAGAGGAGGAAGAGGAGGAGGAAGAAGAGGAAGATAAAGATGCAGACTCCCTAGATGAGAGCTTCGATGGTGACAGTGACCTGCCAGGCTTTACTCTCGCTGGTGACACATCGCAGGAGCCTGGCTTGGAGCAGGGAAATAGGGACCCATTGGCGGGAGCCACCTACCAGGTGCCAGATGCCATCGAGTGGGAGCAACAGAATCAAGGCCTGGTGAGAAGCTGGATGGAAAAACTCAAAGACAAGGCTGGCTACATGTCTGGGATGCTGGTGCCTATAGGAGTGGGGATAGCTGGAGCCTTGTTCATCTTGGGAGCACTCTACAGCATTAAGGTTATGAATCGCCGAAGGAGAAATGGCTTCAAAAGGCATAAAAGAAAGAGAGAATTCAGCAGCATGCAAGATCGAGTAATGCTCTTAGCCGACAGCTCTGAAGATGAATTTTGA
LOC101701510 chromosome unknown open reading frame, human C14orf37, transcript variant X5
Length: 2133 bp Location: 3217242..3127835 Strand: ->XM_004871099.1 ATGTGCTTTATTTTTCTGCAGGACTCAGTTGCTGGAATTGTCAGCTCTGCCAATTTCTATGCACATTTCTCTTCCACTATGAGCAGATCAATTGTCTTGCACCTTTGTCTGGCTTTTGGTAGCTTTTTTTTTCTTAACTTTGCCATACAATGTCTGGCCTTCCCCAAAAAAGAACAAGAGCAGCCTGAGAGGATCAGCACAGATGACCTGGAAAATAGCTCTGTGACTCCAAAGCCAACTCCTCAACTGGTGTCCTCCGAAGATGCAAGACCAGCCTCAGCAGAACCATCAGCAATGTCATTAAATGAAATCCTCTTGGATAACAAAGAAACCCATCCTGGAGGAGCTGGGCTCTTGCAGTCTAGCAGTGCTGGTCTTTATATGGCATCTGAGCCAGCGGTCCCGACAGGTGAGGACATGCCTGGTTCCAGCCAGCCAGGGGGCCTGTCTGCTGAGAGCAAGCCTTCAGAGCCCACGCTAACCATCGCCCTCCCTGCAGCTGCTTCTCTGAGTACTGATGGGGAAGAGGAGCCCTGGAGCAGTACCAGCAGTCAGCCCACTGTGGAAGGGACCACAGAAACAACACAAAGTTTTCTGACATATGTGGTCAATCAGCTGTTCGCAACTGAAAATCAGGAAGAAGTTAGTTTGGGACATACACCTTCATCCTATATGAACACCGAAGAAATGATAACCACCAGTCCAAGGATGGAGCAACTCAAAGCAGCCACAGAGCAGAGGACAACTTCTTTTCCTGGTGCTGAGTCCACAACAGACACTGTACCCGGAAGCCTCCTGCCTAATGGGGAGAAGCCCTCCCAGATGACAGCTGATGATACCCAGGCCACTGGCACCAAGCACTTATTGGTGGCAACTTCTGCGTATACCCTGGGTTTTGAGCCGGAAACCTACAGCTTGCTGGAAGCCCCAGAAATCACAGTGAGTGTCAGCTCAGCTGTTCCAGCCACCTCTGTCTTAAGTGAGGAATGGGATGACACCAAACCAGGGGGTGGAAACCAGATAAGGACCCCACAGCCTGAAGGCAATCCAGCGGCAGCGGAGGTAGCTCTGGGGCTGCCAGAAGGAGAAGCACATGTGGGCACAGCCCTGGAAATGTCACAGGGGGACGAGGGATTACCTGCCTCCGCTCGCCTCAGTTCCTTTGCTCCCACGAGCCTGTTGGAAGGTACAGAGTTTTCCATGAGCCTATTCCGAGGTGTAGGAGGTGTCACGGATTCCACCAAGGGAGACAGCACAGCGTTCCTCTCAGAGACGACCGAGTCTGGGTCAGAATCTCAGTCAGAGGCGTATCAACTGCTGGGACAGGCACTGAAAGACACCATCACTCAAGAAATGACAACGGCTGCCCAGGAACCAGAGGCCACTCTACCCTTCATGACACGAGAGCAGGTTGCTACCCTGGATGTTCCCAGAGACAGTGGAGACCCCGAGGAAGGCGAGGAGTCCCCCTCTGCTGGGACTGATGCTTCTGCTGCTACTCAGCTGTCCAGAAGATGGGAGCCTCTGGCCACGACAGCTTCAACCACAGCGGCCCCATTGACTCCTGCAGTCATCCCTGGTGCGGAAGGCTGCACGGACACAGTCACATTGTCCAGTGAGGAGTTCACACCGGTTTTGGGCTCCCCTGTGACAACCCCTGGAGTAATGATGGAGGTGATTAGCTCTTCCCCAGCAATTCCTGCTTCTGAGGCCCCCTCTGAGAGAACAGTTCCATCCAGTAGCAGCACAAATACAGCCGCTTCCTACGGCCTGGAACAGCTCGAATCTGAAGAGGGAGAAGATGACGAGGATGAAGAGGATGAAGAAGATGAGGATGAAGAGGAGGAAGAGGAGGAGGAAGAAGAGGAAGATAAAGATGCAGACTCCCTAGATGAGAGCTTCGATGGTGACAGTGACCTGCCAGGCTTTACTCTCGCTGGTGACACATCGCAGGAGCCTGGCTTGGAGCAGGGAAATAGGGACCCATTGGCGGGAGCCACCTACCAGGTGCCAGATGCCATCGAGTGGGAGCAACAGAATCAAGGCCTGGCCACGTGGGCATCTGCAACAAACCACAAGCTTCCAGAGCAGAAGACTTGGTCACCTACTCTGAAAACTCAGTCCACTGCTTAA
LOC101698997 chromosome unknown open reading frame, human C14orf105, transcript variant X3
Length: 888 bp Location: 2501466..2471950 Strand: ->XM_004871091.1 ATGGGTCTGAGCTACGCCAAGGCTCACCCTGGGGTGACTAAAGTGGCACCTTTCCAAAGCAAAGAAGCAGAGACTCCCTCGGCTGGCCCTCTGAACTTTGCAGTTCATCAGAACCTGGAAGAAAATAATTTGTATTTATTCACAAGACTGCAGGACCAGAATAGGGCTTTGGAAGGGCAGCTACCTCCTCTTCGAGAAAACTGGTATGGAAGGTATTCGGCAGCACCCAGGGACATGTATTTTGACATCCCACTGGAACCTGGAGAAACAAGTATTATTAAAAGGCATCCACCACAAAGACTTCAAAAGCTTCAGCCCATTGACCTGCCACAAGTAAGGACCTCTGAAAGGCTCCCAAGCCAGCAAGCAGCCAGGATGAGGCCCAGAGCAAAGCAGGAACTGGAAAAGAAAATGCAAACTCCAATGTATACTTCTGGAAAAAGACAGTATTTACATAAGATGCAAATGCTGGAAATGAACCGTAAAAGACAAGAGGCCCAAATGGAATTGAAGAAAAGTCTTCACAGGGAAGCAAAAATTAATGAGCAAAAACCGAGAGACCATAAAGCAAAAAAAACACTTCAAAGTGTCCCAAGGAATGATGACTATGACATTGTAACCATGCTGCCTGAGGAAACCATGAACAGAGGTCCAGGAAATTCACAGGATGCAGAATTTTTGCAATATCAAGCAAGGAATTACTATTGTCCTTGGAAAATGGGCAAAATGGAAACATGGTTCCATGAACAAGAGGCCCGTGGACAGCTCCTCTGGGATAGTTCTAGCTCTGACTCAGAACTGGGCAGAGATGAGAAAAAACCTCAGCCACTCGTGAGGACCAGGACAGAGAGAATCCCACTTTTTGATGAGTTTCTTGATCAGGAATAA
LOC101698997 chromosome unknown open reading frame, human C14orf105, transcript variant X4
Length: 888 bp Location: 2501466..2471950 Strand: ->XM_004871092.1 ATGGGTCTGAGCTACGCCAAGGCTCACCCTGGGGTGACTAAAGTGGCACCTTTCCAAAGCAAAGAAGCAGAGACTCCCTCGGCTGGCCCTCTGAACTTTGCAGTTCATCAGAACCTGGAAGAAAATAATTTGTATTTATTCACAAGACTGCAGGACCAGAATAGGGCTTTGGAAGGGCAGCTACCTCCTCTTCGAGAAAACTGGTATGGAAGGTATTCGGCAGCACCCAGGGACATGTATTTTGACATCCCACTGGAACCTGGAGAAACAAGTATTATTAAAAGGCATCCACCACAAAGACTTCAAAAGCTTCAGCCCATTGACCTGCCACAAGTAAGGACCTCTGAAAGGCTCCCAAGCCAGCAAGCAGCCAGGATGAGGCCCAGAGCAAAGCAGGAACTGGAAAAGAAAATGCAAACTCCAATGTATACTTCTGGAAAAAGACAGTATTTACATAAGATGCAAATGCTGGAAATGAACCGTAAAAGACAAGAGGCCCAAATGGAATTGAAGAAAAGTCTTCACAGGGAAGCAAAAATTAATGAGCAAAAACCGAGAGACCATAAAGCAAAAAAAACACTTCAAAGTGTCCCAAGGAATGATGACTATGACATTGTAACCATGCTGCCTGAGGAAACCATGAACAGAGGTCCAGGAAATTCACAGGATGCAGAATTTTTGCAATATCAAGCAAGGAATTACTATTGTCCTTGGAAAATGGGCAAAATGGAAACATGGTTCCATGAACAAGAGGCCCGTGGACAGCTCCTCTGGGATAGTTCTAGCTCTGACTCAGAACTGGGCAGAGATGAGAAAAAACCTCAGCCACTCGTGAGGACCAGGACAGAGAGAATCCCACTTTTTGATGAGTTTCTTGATCAGGAATAA
LOC101698997 chromosome unknown open reading frame, human C14orf105, transcript variant X5
Length: 840 bp Location: 2501466..2474879 Strand: ->XM_004871093.1 ATGGGTCTGAGCTACGCCAAGGCTCACCCTGGGGTGACTAAAGTGGCACCTTTCCAAAGCAAAGAAGCAGAGACTCCCTCGGCTGGCCCTCTGAACTTTGCAGTTCATCAGAACCTGGAAGAAAATAATTTGTATTTATTCACAAGACTGCAGGACCAGAATAGGGCTTTGGAAGGGCAGCTACCTCCTCTTCGAGAAAACTGGTATGGAAGGTATTCGGCAGCACCCAGGGACATGTATTTTGACATCCCACTGGAACCTGGAGAAACAAGTATTATTAAAAGGCATCCACCACAAAGACTTCAAAAGCTTCAGCCCATTGACCTGCCACAAGTAAGGACCTCTGAAAGGCTCCCAAGCCAGCAAGCAGCCAGGATGAGGCCCAGAGCAAAGGCCCAAATGGAATTGAAGAAAAGTCTTCACAGGGAAGCAAAAATTAATGAGCAAAAACCGAGAGACCATAAAGCAAAAAAAACACTTCAAAGTGTCCCAAGGAATGATGACTATGACATTGTAACCATGCTGCCTGAGGAAACCATGAACAGAGGTCCAGAGGAAGAGACTAGATCTGCTGAGGACCAGGTTCATGCGCAAGGTCACACAGAGAGAGGTCCCGCTGGCGAGGGGATGCATGTCTGGGGGCTGACTCTGACCTTGCACACGTCCCTATGCGGGGCGGATGTTCTAGCAATGACTCCTTCCTCCTCCCCGCCTCAGAGCATCTTTGCTTCTCTGCCTTTCTCCCACAAGAAATTCACAGGATGCAGAATTTTTGCAATATCAAGCAAGGAATTACTATTGTCCTTGGAAAATGGGCAAAATGGAAACATGGTTCCATGA
LOC101698997 chromosome unknown open reading frame, human C14orf105, transcript variant X2
Length: 939 bp Location: 2501466..2474879 Strand: ->XM_004871090.1 ATGGGTCTGAGCTACGCCAAGGCTCACCCTGGGGTGACTAAAGTGGCACCTTTCCAAAGCAAAGAAGCAGAGACTCCCTCGGCTGGCCCTCTGAACTTTGCAGTTCATCAGAACCTGGAAGAAAATAATTTGTATTTATTCACAAGACTGCAGGACCAGAATAGGGCTTTGGAAGGGCAGCTACCTCCTCTTCGAGAAAACTGGTATGGAAGGTATTCGGCAGCACCCAGGGACATGTATTTTGACATCCCACTGGAACCTGGAGAAACAAGTATTATTAAAAGGCATCCACCACAAAGACTTCAAAAGCTTCAGCCCATTGACCTGCCACAAGTAAGGACCTCTGAAAGGCTCCCAAGCCAGCAAGCAGCCAGGATGAGGCCCAGAGCAAAGGAACTGGAAAAGAAAATGCAAACTCCAATGTATACTTCTGGAAAAAGACAGTATTTACATAAGATGCAAATGCTGGAAATGAACCGTAAAAGACAAGAGGCCCAAATGGAATTGAAGAAAAGTCTTCACAGGGAAGCAAAAATTAATGAGCAAAAACCGAGAGACCATAAAGCAAAAAAAACACTTCAAAGTGTCCCAAGGAATGATGACTATGACATTGTAACCATGCTGCCTGAGGAAACCATGAACAGAGGTCCAGAGGAAGAGACTAGATCTGCTGAGGACCAGGTTCATGCGCAAGGTCACACAGAGAGAGGTCCCGCTGGCGAGGGGATGCATGTCTGGGGGCTGACTCTGACCTTGCACACGTCCCTATGCGGGGCGGATGTTCTAGCAATGACTCCTTCCTCCTCCCCGCCTCAGAGCATCTTTGCTTCTCTGCCTTTCTCCCACAAGAAATTCACAGGATGCAGAATTTTTGCAATATCAAGCAAGGAATTACTATTGTCCTTGGAAAATGGGCAAAATGGAAACATGGTTCCATGA
LOC101698997 chromosome unknown open reading frame, human C14orf105, transcript variant X1
Length: 942 bp Location: 2501466..2474879 Strand: ->XM_004871089.1 ATGGGTCTGAGCTACGCCAAGGCTCACCCTGGGGTGACTAAAGTGGCACCTTTCCAAAGCAAAGAAGCAGAGACTCCCTCGGCTGGCCCTCTGAACTTTGCAGTTCATCAGAACCTGGAAGAAAATAATTTGTATTTATTCACAAGACTGCAGGACCAGAATAGGGCTTTGGAAGGGCAGCTACCTCCTCTTCGAGAAAACTGGTATGGAAGGTATTCGGCAGCACCCAGGGACATGTATTTTGACATCCCACTGGAACCTGGAGAAACAAGTATTATTAAAAGGCATCCACCACAAAGACTTCAAAAGCTTCAGCCCATTGACCTGCCACAAGTAAGGACCTCTGAAAGGCTCCCAAGCCAGCAAGCAGCCAGGATGAGGCCCAGAGCAAAGCAGGAACTGGAAAAGAAAATGCAAACTCCAATGTATACTTCTGGAAAAAGACAGTATTTACATAAGATGCAAATGCTGGAAATGAACCGTAAAAGACAAGAGGCCCAAATGGAATTGAAGAAAAGTCTTCACAGGGAAGCAAAAATTAATGAGCAAAAACCGAGAGACCATAAAGCAAAAAAAACACTTCAAAGTGTCCCAAGGAATGATGACTATGACATTGTAACCATGCTGCCTGAGGAAACCATGAACAGAGGTCCAGAGGAAGAGACTAGATCTGCTGAGGACCAGGTTCATGCGCAAGGTCACACAGAGAGAGGTCCCGCTGGCGAGGGGATGCATGTCTGGGGGCTGACTCTGACCTTGCACACGTCCCTATGCGGGGCGGATGTTCTAGCAATGACTCCTTCCTCCTCCCCGCCTCAGAGCATCTTTGCTTCTCTGCCTTTCTCCCACAAGAAATTCACAGGATGCAGAATTTTTGCAATATCAAGCAAGGAATTACTATTGTCCTTGGAAAATGGGCAAAATGGAAACATGGTTCCATGA
Otx2 orthodenticle homeobox 2
>XM_004871085.1 ATGATGTCTTATCTAAAGCAACCGCCTTATGCAGTCAATGGGCTGAGTCTGACCACTTCGGGCATGGATTTGCTGCACCCCTCCGTGGGCTACCCGGCCACCCCCCGGAAACAGCGGCGGGAGAGGACGACCTTCACCCGGGCACAGCTAGATGTGCTGGAAGCACTGTTTGCCAAGACTCGGTACCCAGACATCTTCATGCGTGAGGAGGTGGCCCTGAAAATCAACTTGCCTGAGTCCAGGGTGCAGGTGTGGTTTAAGAATCGAAGAGCTAAGTGCCGCCAACAGCAGCAGCAACAGCAGAATGGAGGTCAAAACAAAGTGAGACCTGCCAAAAAGAAGACTTCTCCAGCCCGGGAAGTGAGTTCAGAGAGTGGAACAAGTGGCCAGTTCACTCCCTCCTCTAGCACCTCAGTCCCGACCATTGCCAGCAGCAGTGCTCCTGTGTCTATCTGGAGCCCAGCCTCCATCTCCCCACTATCAGATCCCTTGTCCACCTCCTCCTCCTGCATGCAGAGGTCCTATCCCATGACCTACACTCAGGCTTCAGGTTATAGTCAAGGATATGCTGGCTCAACTTCCTACTTTGGGGGCATGGACTGTGGATCTTACTTGACCCCTATGCACCACCAGCTTCCTGGACCAGGGGCCACACTCAGTCCCATGGGTACCAATGCAGTCACCAGCCATCTCAATCAGTCCCCAGCTTCTCTTTCCACCCAGGGATATGGAGCTTCAAGCTTGGGTTTTAACTCCACTACTGATTGCTTGGATTATAAGGACCAAACTGCCTCCTGGAAGCTTAACTTCAATGCTGACTGCTTGGATTATAAAGACCAGACATCCTCATGGAAATTCCAGGTTTTGTGA
Tbpl2 TATA box binding protein like 2
>XM_004871079.1 ATGGAGGGGCCGCCCTACCTGGAGTTCTACCTGGACCAGTGCGCCGCCCAGGATGACTGTGTTCCAGCCTTGTCTCCTCTGTTCAGCCCAATTGTTCCTTATGACGTCTACACACCTAACCCATCCAGCCCAGATACTACGTCGGAGTCACATCTTGAAGTCAAAGACATACCCAGTGATTTCTCGTCTGTGGATCTTAGCTTCCTACCAGATGAACTTACTCAAGAAAATAGAGACCAGACTGCTGTCAGAAGCCAGCATGAAATTGAAGAAAATCGCAACACTCAAAGTCATCAAAATAAGTTGCCATTACCTAGTGAACAGGATGATGAGCTGGGCTTACACAGCAGCATTTTATCAAATTCCTGTGCACATCTGCACCCTGGTGCTGCTGACTCAGCCCAGCCCTCAGCTGAGAAACCGAGCCCCGATGCCTTGCCTCTGGTGGCCATGACTCCCATGACTCCAGTGACCCCAGCCTTGGAACGCTCAGGCATTGTGCCTCAACTCCAGAACATAGTTTCCACTGTAAACCTGGCCTGTAAATTAGATCTGAAGAAAATCGCCTTGCATGCCAAAAATGCAGAATATAATCCAAAGAGGTTCGCTGCTGTCATCATGAGGATCCGAGAACCCAGGACGACAGCTCTCATCTTCAGCTCTGGGAAGATGGTCTGCACGGGAGCCAAAAGCGAAGAGCAGTCTCGACTGGCAGCGAGAAAGTATGCTCGTGTGGTGCAGAAGCTGGGCTTCCCTGCAAAGTTCCTCGATTTTAAAATTCAGAACATGGTTGGAAGCTGCGATGTGAGATTTTCCATCAGGCTGGAGGGTCTGGTGCTCACGCATCAGCAGTTCAGTAGTAGTTATGAACCTGAACTGTTTCCTGGCCTTATTTATAGAATGGTAAAACCACGAATTGTGTTGCTTATCTTTGTATCTGGAAAAGTTGTGTTGACAGGTGCCAAAGAACGTTCTGAGATCTATGAAGCATTTGAAAACATCTATCCTATTCTAAAAGGTTTTAAAAAAGCTTGA
Ktn1 kinectin 1 (kinesin receptor)
>XM_004871080.1 ATGGAGTTTTATGAGTCAACATATTTTGTTGTCCTTATTCCTTTAGTAGTTATTACAGTAATTTTCCTCTTCTTCTGGCTTTTCATGAAAGAAACATTGTATGATGATGTTCTTGCAAAGCACAAAAGAGAACAAAAGCTTGTTCCTACAAAAACAGACAAAAAGAAGGCAGAAAAGAAAAAGAATAAAAAGAAAGAAATCCAGAATGGATTTCATGGAATGCATGAATCTGATTCTGAAAATGTACCTCGAGACTTTAAATTATCTGATGCTTTGGTTATAGAAGATGACCAAGTTGTACCTGTTCCATTGAATGGGGTTGAAACTTCAAGTAGTATGAGGGAAAGAAAGAAGAAGGAAAAGAAACAAAAACCTTTTCTTGAAGAGCAGTTCATCAAAGAAAGTGATGTGTCAAAGATTCCTGGCAAAAAAGTAGAACCTGTCCCAGTTACAAAACAGCCCACCCCGCCCTTTGAATCAGCCATCTCAAAGAAGAAAGCAGGGCAGAAGAAATCTAAAAATGGAAACGATGACCAAGATAAAAAGGTGGAGACTCTGATTGCACCACTGAAAAAGCAAGAAGTACTACCATTCCACCAAGAGACTAAACATGAAAGTGGATCAGGAAAAAAGAAAGTTTCATCAAAGAAGCAGAAGACAGAAAATGTTGCAGTCTTGGTAGATGAACCCCTTCTTCGTGCAAGTACTTATATTCCTTTGATGGATAATGCTAACTCAAGTCTTGTGGTGGATAAGAGAGAAGTTATTGATCTCAGTAAACCTAACCAAATAGAAGGGATCCAGAAATCTGGGTCTAAAAAACTGAAGATGGAAACTGTCAAAGAAAATGCTGAAGTGAAATTTAAAGATTTTCTTCTGTCCTTGAAGACCATGATGTTTTCTGAAGATGAGGCCCTTTGTGTGGTAGACCTGCTGAAGGAAAAGTCTGGTGTGATACAAGAGGTTTTAAAGAAGTCAAATAAAGGAGAATTGACTGCACTTCTGCATCAGCTTCAGGAAAAGGACAAATTGCTTGCTGGTGTGAAGGAAGATGCTGCTGCTATGAAAGAGCGGTGTAAGCAGTTAACCCAGGAAATGATGACAGAGAAAGAAAGAAGCAATGTAGTTATAGCAAAGATGAAAGATCGGATTGGAACGTTAGAAAAGGAACAAAATGTATTTCAAAACAAAATACATGCCAGTTATCAAGAGGCTCAACAGATGCAGATGAAGTTTCAGCAAGTTCGTGAGCAGATGGAAGCAGAGATAGCTCACTTGAAGCAGGAGAATGGTATACTGAGAGATGCTGTCAGCAACACTACAAATCAACTGGAAAGCAAGCAGTCTGCAGAACTAAATAAACTGCGCCAGGATTATGCTAGGTTGGTGAATGAGCTGACTGAAAAAACAGGGAAGCTCCAACAGGAGGAGGGCCAAAGGAAGAATGCTGAGCAAGCAGTTACTCAGTTGAAGGTTCAACTCCAAGAAGCTGAGAGCAAGTGGGAAGAAGTTCAAACCTACATCAGGAAAAGAACGGCAGAACATGAGACAGCACAGCAAGATTTACAGAGTAAATGTGTGGCCAAAGAAAATGAAGTGCAGAGCCTGCATAGTAAACTTACAGATGCCTTGGTATCCAAACAACAGTTGGAGCAAAGATTAATGCAGTTCATGGAATCAGAGCAAAAAAGGGTGAACAAGGAAGAGTCCCTACAAATGCAAGTTCAGGATGTTTTGGAGCAGAATGAGGCCCTGAAAGCACAAATTCAACAGTTTCATTCCCAGATAGCTGCCCAGACCTCCGCTTCAGTTCTAGCAGAAGAATTACATAAAGTGATTGCAGAAAAGGATAAGCAGATAAAACAAACTGAAGATTCCCTAGCAAGTGAACATGATCATTTAACTAGTAAAGAGGAGGAACTTAAGGATATACAGAATATGAATTTCTTATTAAAAGCTGAAGTGCAAAAATTACAGGCTCTGGCAAATGAGAAGGCTGCTGCAGCACATGAATTGGAGAAGATACAAAAAAGTATTCATGTTAAGGATGATAAAATAAGATTGCTCGAAGATAAGTTACAATGTGAAATTTCAAACAAAATGGAGGAATTTAAGATTCTACATGACCAAAACAAAGCATTAAAATTAGAAGTTCAAAGACTGCAGACTTTTATATCTGAACAGCCCAGTAAAGATACTGTGGAACAAATGGAAAAATGCATTCAAGAAAAAGAGGAGAAGTTAAAGACTGTCGAAGAATTACTTGAAACTGGACTTATTCAGGTGGCCAACAGAGAGGAGGAACTGAATGCCATAAGAACAGAAAATTCGTCTCTGACAAAAGAAGTTCAAGACTTAAAGGCTAAGCAAAATGATCAAGTTTCTTTTGCTTCTCTAGTTGAAGAACTGAAGAAAGTGATCCATGAGAAAGATGGAAAGATCAAATCTATAGAAGAACTTTTGGAAGTTGAACTTCTCAAAGTTGCTAATAAGGAGAAAACTGTTCAGGATTTGAAACAGGAAATAGAGGCTCTAAAAGAAGAACTAGGAAATGTCCAGCTTGAAAAGGCTCAACAGTTATCGATCACTTCTCAAGTTCAGGAGCTTCAGAACTTAGTAAAAGGAAAGGAGGAACAGATGAATACCATGAAGGCTGTTTTAGAAGAGAAGGAGAAAGACCTAGCCAATAGAGAGAAATGGTTACAGGCACATTCTGCATCACAATTTGAAGAACTTGAAATTGTGATGAAAGAAAAGGAAAATGAAATGAAGATAGTAGAAGCTATGCTAAAAGAGAGGGAGAGTGATCTTTCTAGCAAAACAAAGCTGTTACAGGAGGTGCAAGATGAAAATAAATTATTTAAATCCCAGATTGAGCAGTTTAAGCAACAGAATTACCAACAGGCATCTTTTCCTTCTCATGAAGAATTATTAAAAGTAATTTCAGAAAGAGAGAAAGAAATAACTGGTCTCCAGAATGAATTAGATTCTTTGAAGGATGCTGTTGAACATCAGAGGAAGAAAAACAATGACCTTCGGGAGAAAAACTGGGAAGCAATGGAAGCATTGGCATCAACTGAAAAAATGCTGCAGGACAAAGTGAACACGACTTCCAAGGTTGAAAGACAATGTGTGGAAGCAGTTGAGTTGGAGGCTAAAGAAGTTCTTAAAAAATTATTTCCAAAGGTGTCTATCCCTTCTAATTTGAGTTACAGTGAATGGTTGCATGGATTTGAAAAGAAAGCAAAAGAGTGTATAGCTGGAAGTTCAGGTTCAGAAGAAGTTAAGGTTTTAGAGTATAAGTTGAAAGAAGCTGATGAAACACACACGCTATTACAGCTGGAGTGTGATACGTATAAATCAGTCCTTGCAGAAACAGAAGGAATTTTACAGAAGCTACAGAAAAGTGTGGAGGAAGAGGAAAATAAATGGAAAGTTAAGGTGGATGAATTACAAAAGACAATTAAGCAGATGCTATTATCAATTACGTCTTCAGAGCAAGAGTTAGAGCAATTAAGAAGAGAAAATAAAGATATTGAAAATCTGAGAAGAGAGCGAGAGCATTTGGAAATGGAACTAGAGAAGGCAGAAATTGAGCGATCTACTTACGTTACAGAAGTGAGAGAGCTGAAAGATCTGTTGACTGAATTGCAGAAAAAACTTGATGATTCATATTCTGAAGCAGTAAGACAGAATGAAGAGCTAAATTTGTTGAAGACACAGTTAAATGAAACACTCACAAAACTTAAAACTGAACAAAGTGAAAGACAGAAGGTAGCTGGTGATTTGGATAAGGCGCAAGAGTCACTGGATCTTATCCAGTCAAAAATAGTACAAGCTGCCGGAGATACTACTGTTATTGAAAATAGTGATGTTTCCCCAGAAATGGAGTCTTCTGAAAAGGAGACAATGTCTGTAAGTCTAAATCAGACTATAGCACAGTTACAGCAGTTGCTTCAGGCTGTAAACAAACAGCTCACAAAGGAGAAATAA
Tmem260 transmembrane protein 260, transcript variant X2
Length: 1881 bp Location: 1611933..1663749 Strand: +>XM_004871083.1 ATGCCTGCCCGTGCCCGATGCAGAATTTCATCGTGTGCATTACGGGCTGGAATTTCAAATCCTTGCCTGGTGTCTTCCTACTCTTGGCTTTCTGGCTCACGCGCCGGAGGAATCCTTGCTGCGGGGGTGTTTTCATTTTCTCGTCTAACATGGCAGTGGTCCATTGCAGCAGAAGTTTTTAGCTTAAATAATCTGTTTGTGGGGCTGCTTATGGCTCTTACTGTACATTTTGAGGAGGCAGAAACTGCAAAGGAAAGATCAAAGATAGCTAAAATTGGTGCTTTCTGCTGTGGCCTTAGTTTATGTAATCAGCACACAATAGTAATCTATGTTCTATGCATAATACCTTGGATTCTCATTCGACTTTTAAAAGAGAAGGAGCTGTCCCTGGGATCCGTGGTAAAGCTGGGCCTGGCCTTCTCAGCTGGCTTGCTGCCGTACCTCTACCTCCCTGTCTCGTCCTACCTCAACGAGGCCCGCTGGACCTGGGGAGACCAGACCACTCTGCGAGGCTTTCTGACACACTTGCTCAGGGAAGAGTATGGAACATTCAGCCTAGCCAAATCTGAAACAGGATCCAGTATGTCTAAAATACTGCTTTCTCAAGTAACAAGTATGAGGATGGAACTCTCACTCAACATTCAAGCTCTTGCAGTGTGGGCAAATATATGTTCAGCAAGAAAGAACAGACAGAATTCGCCATTAGTTTGGCTTTTTACTGGAATGTTTTACATTTACTCATTGTTCTTTGCCTGGAGGGCAAATTTAGATATTTCTAAACCACTTTTCATGGGTGTGGTGGAACGGTTCTGGATGCAGAGCAATGCAGTGGTAGCCGTCCTCGCTGGCCTTGGCTTGGCCACACTTGCATCCCAGACGAGTCGAGCTCTAAACAGCGGTGGGCTTCAGCGTCTGGAATGGCTCTCAGCAGCTCTGTTTGTGGTTTACCAAATGTATTCTAATTATAGCATTTGTGACCAAAGGAGCAACAATGTGATCGATATGTTTGCAAAGAACCTTCTAGACTCTATGCCCCATGATGCAATCATCTTACTCAGAGGCGATTTGCCGGGGAATGCTCTCCGTTACATGCACTACTGCGAGGGCTTAAGGCCAGATATTTCATTAGTGGATCAGGAGATGATGACTTATGAGTGGTATTTACCCAAGATGGCAAAACATTTGCCAGGTGTCCACTTTCCTGGGGACCGGTGGAATCCTGTGGAAGGAGTATTACCTACTGGAATGGTCACATTTAATCTTTATCGTTTTCTTGAAATAAATAAACAGAAGGACACATTTGTTTGCATAGGGATTCATGAAGGTGACCCAACCTGGAGGAAGACGTACTCACTGTGGCCTTGGGGGTCCTGTGACAAGTTAGTTCCCCTGGAGATTGCATTCAACCCCGAGGAGTGGGTTAAACGCACAAAAAATATCTATAACTGGACTGAAGAATACGGGAGGTTTGACCCATCTTCCTGGGAGTCTGTGGCCAATGAGGAGATGTGGCAGGCAAGGATGAAGACACCGTTTTTTATCTTCAACCTGGCAGAAACTGTGAATGTGCCTTCAGATGTGAAAGCTCAGCTCTACGCTCATGCATATAACCTTTATAAGGAGATTGTCTATTTACAAAAGGAACACCCAGTGAATTGGCACAAAAACTATGCCATCGCCTGTGAGAGGATGCTGCACTTTCAGGAGAGAGATGCAGATGCCGAAGTCCTGTTGTCTGAAACCATCAGACATTTTCATCTCTACACTCAGAAAGCACAGAATGATCCACAGCTCGCTGATATTTTAGCTGCTCTCAAGGACCTGAGAAAAAAACTGCAAAGTCTGAGAAATATTAAAAATGTCAGAGACAGCAAAATGTGA
Ap5m1 adaptor-related protein complex 5, mu 1 subunit
>XM_004871086.1 ATGCTTCAGCCGCTCACCATGGCCCTGCGGGCGGTGTGGCTCATACGCCACGAGCCGGGAACTCCACTTTGTGGCTCCGTGAGATTCTCCAGACGGTATCCAACTGTTGAAAAGCGAGCTAAAATCTTCAATGGAGTGAGTTATGTGCCTGTTCCTGAAGATGGTCCTTTTCTTAAAGCACTACTCTTTGAACTTAGATTATTGGATGATGATAAAGACTTCGTGGAAAGTCGTGACAGTTGTTCACACATCAATAAAACATCCATCTATGGGCTTCCAATAGGAGGCAAAGAACTCTGGCCAGTTGTTGCATTTCTAAGGAATGGCATGATATATGCGAGTGTTCCACTAGTTGAACAGACTCTGTCCCCTCATCCACCACTAATTAGCATTAGTGGAATTTCACAAGGCTTACAGCTCCTTTTCAGTATACAGGATTTTCTGTACTTAGGTCAAAAAACTGACAGTGAGCTAAATACAAAATTGAGCCAGTTGCCTGACTTGCTTCTACAGGCTTGTCCGTTTGGTACTTTACTGAATGCCAACATACAGAATTTGCTAGATAACAGTAACTTTGCTTCTGTGACTCAACCACAAAAACAGCCAGCCTGGAAAGCTGGGACATACAAAGGAAAACCGCAAGTCTCCATTTCTATCACTGAAAAGGTAAAATCCATGCAGTATGATAAACAAGATATAGGAGATACGTGGCAAGTTGTTGGAGCAGTCACTTGCAAGTGTGATTTGGAAGGAATCATGCCAAATGTTACCATTAGCTTGAGTCTCCCCACCAATGGATCACCACTTCAAGATATTCTTGTTCATCCTTGTGTGACTTCTCTTGATTCTGCCATTCTGACCTCGAGTAGCATTGATGCAATGGATGATTCTGCATTTAGTGGGCCTTACAAATTTCCATTTACTCCACCTTTAGAGTCATTCAACTTATGTTACTACACATCCCAGGTCCCTGTCCCACCAATTTTGGGTTTTTATCAAATGAAAGAAGAAGAAGTACAACTAAAAATAGCAGTTAATTTAAAACTTCATGAAAGTGTAAAAAATAATTTTGAATTCTGTGAAGCTCACATACCTTTTTATAATAGAGGTCCAATAACACATTTGGAATACAAAGTTAGTTTTGGCCAGCTTGAGGTCTTTCGAGAGAAAGGATTATTGGTCTGGATTATTGGCCAAAAGTTTCCAAAATCAATGGAAATCAGTCTTTCTGGAACTGTAACTTTTGGAGCCAAGAGCCATGACAAGCAGCCATTTGACCAGATTTGTATTGGCGGCACAGCATATGTAAAGCTTCATTTCAAGATCTTAGATTACACACTCACTGGGTGTTATGCAGATCAGCATTCAGTTCAAGTTTTTGCATCAGGAAAACCAAAAATAAACACACATCGGAAACTAATTTCATCTGATTTTTACATCTGGAATTCTAAAGCCCCGGCTCCAGTAACATATGGATCATTATTTTTGTAA
Naa30 N(alpha)-acetyltransferase 30, NatC catalytic subunit
>XM_004871088.1 ATGGCGGAGGTACCGCCCGGGCCTAGCAGCCTCCTCCCTCCACCCGCACCTCCGGCCCCGGCGGCGGCCGAGCCCCGCTGCCCGTTCCCGGCGGGGGCCGCCCCCGCCTGCTGTGGCGAGGACGAGGACGACGACGAGGAGCGCGAAGGCGGCCCGGGCCCGGCGGCGACCCGGGGGCGTCCGTGCCCCCTCTGCCCGCCGCCACCGCCGCAGGACCCGCCGCAGCTCAACGGATTGCTCGGCCCGGACCTGCGACACCTCCGGGCGGCCGCCTCCCGCAAGAGCAAGGTGCTGGCTGCAGCCGAGGCGGCCGGCGCCACGGCCACTCCCGATGGGCCCCCCCCAGCGACTGCCTCGACTGGGCCCGGGGCGCGTGCGGGCGACAGACCCGCTCACCCGCCGCCCCCCCATGCGAGAACTGCGCTTCCCAGCCCGGCGGCGGCGAGCGACCCCGCGGCGGCCCGCAACGGACTGGCCGAGGGCACGGAGCAGGAGGACGAGGACGAGCAGGTGCGGTTGCTGTCTTCGTCCCTGAGCGCCGGCTGCAGCTTGAGGAGCCCCTCGGGCAGGGAGGTCGAGCCCGGGGAGGATCGGACGATACGATACGTCCGATACGAATCCGAGCTCCAAATGCCCGATATCATGAGACTGATCACCAAAGATCTGTCTGAACCTTACTCCATTTATACGTATAGATATTTTATCCACAACTGGCCACAGCTGTGCTTCTTGGCCATGGTAGGGGAGGAATGTGTAGGTGCCATCGTTTGCAAGTTGGATATGCACAAAAAGATGTTCCGCCGAGGTTATATAGCCATGTTAGCCGTGGATTCCAAATACAGGAGAAATGGCATTGGTACTAACTTGGTTAAGAAAGCTATATATGCTATGGTTGAAGGAGACTGTGATGAGGTTGTTTTGGAAACCGAAATAACAAATAAGTCTGCTTTGAACCTTTATGAACATCTTGGTCTTGTTCGAGACAAGAGGCTGTTCAGATACTATTTAAATGGAGTTGATGCACTGCGACTCAAACTGTGGCTGCGTTGA
Slc35f4 solute carrier family 35, member F4
>XM_004871094.1 ATGGACGTCAAGGCGGCCCCCAACGGGGTGGCCACCATCGAGGACCGGATCCTGCGGATCACAGGCTACTATGGCTACTACCCAGGCTACTCCAGCCAGAAAAGCACCTCCAGGTCATCAGTCACTCGATGTAAGCCAGGCACCAACTGCCCCAGCTCACACACTGGCATCAGCAGACAACTCTCCCCTCTGTCTGTCACTGAAGATTCTTCTGCTCCTATTCTTGAGCTTCAGAGCCGAGGATCTTCTGGAGTGTGTGGACACAGAGTCGAGAGACAGAACAGATCAGGGGATGATGGGATGCAGACTCATCCTGAGAACAGCAGTCAAGGAAACAGACTCAAGGCTCGCTGCCTGTCCTGCACAGCTGTGCTTCTGAAGGCTGTCTGGGGACTCTTGATCATCTTGTCAGTGTCATCGTCTTGGGTTGGAACCACACAGATTGTAAAAATCACTTATAAGAACTTCTACTGTCCATTTTTCATGACATGGTTTTCAACAAACTGGAACATTATGTTTTTCCCGGTCTATTATTCTGGGCATCTGGCCACTGCTCAAGAAAAACAATCTCCAATGAAAAAATTCAGGGAATGCAGTCGGATTTTTGGTGAAGATGGTCTGACATTGAAGCTCTTTCTTAAAAGAACTGCTCCCTTTTCTATTCTATGGACTTTGACAAATTACCTGTATTTACTGGCTTTAAAGAAGCTGACGGCCACGGATGTCTCTGCTCTGTTCTGTTGTAACAAAGCCTTTGTCTTCTTGCTGTCCTGGATTGTGCTGAAAGACAGGTTCATGGGAGTGAGGATAGTCGCTGCAATAATGGCCATAACTGGCATCGTCATGATGGCCTACGCGGACAACTTCCACGCGGACTCCATCATAGGCGTGGCCTTCGCAGTGGGCTCCGCCTCTACATCCGCACTGTACAAGGTTCTCTTTAAGATGTTTCTCGGAAGTGCCAACTTTGGTGAAGCCGCACACTTTGTCTCCACCTTGGGTTTCTTCAATTTGATCTTCATCTCCTTCACTCCAGTCGTCTTGTACTTCACCAAGGTGGAGCATTGGTCCTCTTTTGCAGCTCTGCCATGGGGCTGTCTCTGTGGCATGGCAGGGCTGTGGCTGGCCTTCAACATCCTGGTGAATGTTGGTGTGGTGCTGACATACCCAATCCTGATCTCCATTGGGACAGTGCTCAGCGTCCCTGGAAATGCAGCTGTGGATCTCCTGAAGCAGGAGGTGATATTCAATGTTGTCCGCCTGGCTGCAACGATCATCATCTGCATTGGGTTCCTGCTGATGCTGTTGCCTGAGGAGTGGGATGAAATCACTCTGAGATTCATCAACAGCCTGAAGGAGAAGAAGAGTGAGGAACACGTGGAGGAAATGACAGATTCCAGTGTGCACCTGCGGAGCAGAAGCAGGGTCAATGGGACCGTGTCCATACCACTGACTTAG
Psma3 proteasome (prosome, macropain) subunit, alpha type, 3, transcript variant X1
>XM_004871101.1 ATGAGCTCCATCGGAACTGGGTATGACCTGTCAGCCTCCACATTCTCTCCAGATGGAAGAGTTTTTCAAGTTGAATATGCCATGAAGGCTGTGGAAAATAGCAGTACAGCTATTGGGATCAGATGTAAAGATGGTGTTGTCTTTGGGGTAGAAAAATTAGTTCTTTCTAAACTTTATGAAGAAGGTTCCAACAAACGGCTTTTTAATGTTGATCGGCATGTTGGAATGGCAGTAGCAGGTTTGCTGGCAGATGCTCGTTCTTTAGCAGACATAGCAAGAGAAGAAGCTTCCAACTTCAGATCTAACTTTGGCTATAACATTCCACTCAAACATCTTGCAGACAGAGTGGCGATGTACGTACATGCTTACACACTCTACAGTGCTGTTAGACCATTCGGCTGCAGTTTCATGCTTGGGTCTTACAGTGTGAATGATGGTGCACAGCTGTACATGATCGACCCATCAGGTGTTTCATACGGTTATTGGGGCTGTGCTATTGGCAAAGCCAAGCAGGCTGCAAAGACAGAAATAGAAAAGCTTCAGATGAAAGAAATGACCTGCCGTGATGTTGTTAAAGAAGTTGCAAAAATAATTTACATAGTACATGATGAAGTTAAGGATAAAGCTTTTGAACTAGAGCTCAGCTGGGTTGGTGAATTAACTAAAGGCAGACATGAAATTGTTCCAAAAGATATAAGGGAAGAAGCAGAGAAATATGCTAAGGAATCACTGAAGGAAGAAGATGAATCCGATGATGATAATATGTAA
Arid4a AT rich interactive domain 4A (RBP1-like), transcript variant X1
Length: 3783 bp Location: 3360410..3433582 Strand: +>XM_004871103.1 ATGAAGGCGGCTGACGAGCCTGCCTACCTGACCGTAGGCACGGACGTCAGTGCCAAGTACCGGGGTGCCTTCTGCGAGGCAAAGATCAAGACGGTGAAGAGGCTGGTGAAAGTCAAGGTACTCCTGAAACAGGATAATACAACCCAGTTGGTGCAAGATGACCAAATCAAGGGTCCTTTAAGAGTTGGAGCAATTGTTGAAACGAGAGCGCCTGACGGGTCCTTTCAGGAAGCCGTTATCAGCAAGTTGACAGATGCTAGCTGGTATACCGTGGTGTTTGATGATGGTGATGAGAGAACCCTGAGACGAACCTCTCTCTGCCTGAAAGGGGAGAGGCATTTTGCAGAGAGTGAGACACTTGATCAGCTTCCGTTAACAAATCCAGAGCATTTTGGAACTCCAGTAATTGCAAAGAAGACAAACAGAGGAAGGAGGTCCTCACTTCCTGTTAACGAGGATGAGAAGGAGGAAGAAAGTAGTGAAGAGGAAGATGAAGATAAGCAACGTCTCAATGATGAGTTGTTAGGAAAAATTGTGAGAGTGGTTTCTACACCTGAGAGGCCTGAATGGTACCCTGCTTTGGTGGTCTCTCCCAGCTGTAATGATGACATCACAGTGAAAAAGGATCAGTGTTTAGTTCGATCATTTATTGATTCTAAATTTTATGCTATAGCGAGGAAGGATATTAAAGAAGTAGACATTCTCAATCTGCCGGAATCTGAACTCTCTGCTAAACCAGAGCTGCAGAAAGCGAGTATCTTCTTAAAAGCTAGAGTTGTTCCTGACAATTGGAAAATGGATCTAAGTGAAATCCTGGAGTCGTCCAGTAGTGATGATGAAGACGGCCCAGCTGAAGAAAACGATGAAGAAAAGGAAAAGGAAACCAAAAAGGAAGAAGAGGAGGTGCCTGAGGAAGAACTTGATCCTGAAGAGAGGGACAACTTCCTCCAACAGCTTTATAAGTTTATGGAAGACAGAGGCACTCCAATCAACAAACCACCTGTTTTGGGATATAAAGATCTCAATCTCTTCAAACTTTTTAGACTGGTTTACCATCAGGGTGGATGTGACAATATTGATAGTGGTGCTGTATGGAAGCAAATTTATATGGACCTCGGCATTCCAATTTTGAATTCAGCTGCTTCCTACAATGTAAAAACTGCTTATAGAAAGTATCTCTATGGTTTTGAAGAGTACTGCCGTTCTGCAAATATTCAATTTAGAACCATTCACCACCATGAACCAAAAGTAAAAGTAGAAAAAAAAGACTTAGACGAATCCATGGAAGAGGCTCTAAAAGTAGATCAAGAAATGCCTTTGATAGAAGTAAAGAGTGAACTGGAGGAGACTACTGATTCAAACAGTGAGAGTGAAAGAGAAGAGCTCGAATTAAAGTCTCCACGGGGACGAAGGAGAATTGCTCGAGATGCAAATTCAATTAAAAAGGAAATTGAAGAAGAGAAAACAGAAGACAAATTAAGAGATAATGATTCAGAAAATAAGGATGTAGACGATGACTATGAAACTGCAGAGAAAGAAGAAAACGGGCTAATATTGGGGAGAAAAAATACACCAAAGCCAAAAGAGAAGAAAGTCAAAAAGCAAGAGGGCTCCGACCGAGACTCAGAGGGAGAGGAAGAGAAGAACCAAGAGAGGGAAGAAACAGAGAGCAAGTGTGACTCTGAAGGGGAAGAAGATGAGGAAGACACGGAACCCTGTCTAACAGGAACCAAAGTGAAAGTGAAATATGGACGAGGGAAAACTCAGAAAATCTACGAAGCCAGCATTAAAAGCACTGAAATCGATGATGGAGAAGTTTTATACTTAGTACATTATTATGGATGGAATGTCAGGTATGATGAGTGGGTGAAGGCTGACAGGATCATCTGGCCTTTGGACAAAGGTGGACCAAAGAAAAAACAAAAGAAGAAAGCTAAGAATAAAGAAGATAGTGAAAAGGATGAGAAGAGGGAGGAAGACAGGCAGAGGACGAAGCGTGGGCGGCCCCCTCTGAGATCCAGCCTGCCCTCGGGCGTGCCCTTTGGGCTGCCCACAGCAGTGCACAGCGAAGGGAAATCAGACTCTTGTTCATCTGATAGTGAAACAGAAGACCCTTTAGAAAAGAGTTTGATAAATGAAGAACTTTTTCCTGATAATAAAGAAGAATTAGAAAAAAATGAAAATTTAAATGATGACAAACTAGATGAAGAAAACCCAAAGATAGCTGGACATATGGTAAAAGAAAATGACAGAGTAGCAGTGCAGCCTTTAGAAACCCTGCAGCTGGAAGTTGGAGAGAATGAACAAATAGTACAGCTTTTTGGAAACAAAATGGAACAGGGGGAGGAAGTGAAAAAGGAGGCAGAAAAATCTCCAAAAGGCAAGGGAAGGCGAAGCAAAACAAAAGATATTTCTTTAGAAATTATAAAGATTTCATCATTCAGCCAGGGTGACACAGGAAGTGAGCCTCATGTAGAAGCTCATAGTCTTGAATTTTCTTCATTAGACAGTAAAAACTTCTCCTCTGCTGCCGGAGATGAAATCGACCAGTATGGGAAAGAAAGGAAGTTGAAACGGAAAATACTAGGACACTCATCACCTGAGAAGAAGCTAAGAATGGAGAATGGGATGGGAATGACGAACAGCGTTTCTCAGGAGAGGACCAGTGACTGTATTGGATCCGAGGGGATGAAGAGCTTGCGTTTGGAACAGCACTTTGAGCCGGAGAATGAAGGGATGCCGTCCTTGACAGCCGAGGCCGGCCAGTGCAGACAGGAGTTGGCCTGTGAGGAGCTCGAGCACCACACCAAAGAGACTGCCAGCACGCCCCTCAAGGAGGAGGACGCCATGCCGCTGATTGGCCCCGAGACCCTGGTTTGCCACGAGGTGGACCTGGATGACTTGGATGACAAGGACAAGCCGGGCACCGAGGACATGGCCGTGCAGAGCTCCGAGGTCAGCTCTCTGGTCTCTGTGCCCCACGCGCTCCTGCCCACCAGCCAGCACGACTTAGCAGCAGCATCGCCGCTGGGCCTGAGTCAGGATGAGTCCCGGAGCGTGCGGAGCGAGAGCGATGCCACCGTTGAGGTGGACAGCACGACCGAGGAGTCCCCGGAGGGTCCCAGTGAGCGAGAGCGCCCTGTGGCCAGCAGCTTCGAGGCCAGCTCAGGCCCTGCTGCCTGCAGTTTAAGTGCACAAGAGAGAGAGAGCAGAGAGAAGGGTCACAAAAGGCCAAGTGACGGAAATGGTGGATTAATGGCAAAAAAACAAAAGCGTACCCCGAAACGAACAAGTGCTGCGGCCAAAAGGGAAAAGAATGGAGCAGGACAGAGCAGTGATAGTGAAGATCTTCCTGCCGTAAACAATTCAAGTAAATGTACTCCAGTTAAGCATCTTAGTGTATCTAAGCCACCAAAGCTTGCTCGGTCTCCTGCCAGAATCTCTCCTCACATCAAAGATGGAGAGAAAGAGAAGCAAAGAGAAAAGCATCCCAATTCCTCCCCCAGGACGTATAAGTGGACCCTTCAACTCAATGAATTAGATAACATGAACAGTACAGAAAGAATCTCTTTTCTCCAAGAAAAACTACAGGAAATCAGGAAATACTACATGTCTTTGAAGTCTGAAGTTGCAACCATAGACAGGCGCAGAAAAAGATTAAAAAAGAAAGACAGAGAAGTGTCTCACGTTGGGGCCTCCATGTCATCAGCTTCATCAGACACTGGAATGAGTCCCTCATCATCATCCCCCCCCCAAAATGTCCTTGCTGTAGAATGCAGGTGA
Arid4a AT rich interactive domain 4A (RBP1-like), transcript variant X3
Length: 3783 bp Location: 3360410..3433582 Strand: +>XM_004871105.1 ATGAAGGCGGCTGACGAGCCTGCCTACCTGACCGTAGGCACGGACGTCAGTGCCAAGTACCGGGGTGCCTTCTGCGAGGCAAAGATCAAGACGGTGAAGAGGCTGGTGAAAGTCAAGGTACTCCTGAAACAGGATAATACAACCCAGTTGGTGCAAGATGACCAAATCAAGGGTCCTTTAAGAGTTGGAGCAATTGTTGAAACGAGAGCGCCTGACGGGTCCTTTCAGGAAGCCGTTATCAGCAAGTTGACAGATGCTAGCTGGTATACCGTGGTGTTTGATGATGGTGATGAGAGAACCCTGAGACGAACCTCTCTCTGCCTGAAAGGGGAGAGGCATTTTGCAGAGAGTGAGACACTTGATCAGCTTCCGTTAACAAATCCAGAGCATTTTGGAACTCCAGTAATTGCAAAGAAGACAAACAGAGGAAGGAGGTCCTCACTTCCTGTTAACGAGGATGAGAAGGAGGAAGAAAGTAGTGAAGAGGAAGATGAAGATAAGCAACGTCTCAATGATGAGTTGTTAGGAAAAATTGTGAGAGTGGTTTCTACACCTGAGAGGCCTGAATGGTACCCTGCTTTGGTGGTCTCTCCCAGCTGTAATGATGACATCACAGTGAAAAAGGATCAGTGTTTAGTTCGATCATTTATTGATTCTAAATTTTATGCTATAGCGAGGAAGGATATTAAAGAAGTAGACATTCTCAATCTGCCGGAATCTGAACTCTCTGCTAAACCAGAGCTGCAGAAAGCGAGTATCTTCTTAAAAGCTAGAGTTGTTCCTGACAATTGGAAAATGGATCTAAGTGAAATCCTGGAGTCGTCCAGTAGTGATGATGAAGACGGCCCAGCTGAAGAAAACGATGAAGAAAAGGAAAAGGAAACCAAAAAGGAAGAAGAGGAGGTGCCTGAGGAAGAACTTGATCCTGAAGAGAGGGACAACTTCCTCCAACAGCTTTATAAGTTTATGGAAGACAGAGGCACTCCAATCAACAAACCACCTGTTTTGGGATATAAAGATCTCAATCTCTTCAAACTTTTTAGACTGGTTTACCATCAGGGTGGATGTGACAATATTGATAGTGGTGCTGTATGGAAGCAAATTTATATGGACCTCGGCATTCCAATTTTGAATTCAGCTGCTTCCTACAATGTAAAAACTGCTTATAGAAAGTATCTCTATGGTTTTGAAGAGTACTGCCGTTCTGCAAATATTCAATTTAGAACCATTCACCACCATGAACCAAAAGTAAAAGTAGAAAAAAAAGACTTAGACGAATCCATGGAAGAGGCTCTAAAAGTAGATCAAGAAATGCCTTTGATAGAAGTAAAGAGTGAACTGGAGGAGACTACTGATTCAAACAGTGAGAGTGAAAGAGAAGAGCTCGAATTAAAGTCTCCACGGGGACGAAGGAGAATTGCTCGAGATGCAAATTCAATTAAAAAGGAAATTGAAGAAGAGAAAACAGAAGACAAATTAAGAGATAATGATTCAGAAAATAAGGATGTAGACGATGACTATGAAACTGCAGAGAAAGAAGAAAACGGGCTAATATTGGGGAGAAAAAATACACCAAAGCCAAAAGAGAAGAAAGTCAAAAAGCAAGAGGGCTCCGACCGAGACTCAGAGGGAGAGGAAGAGAAGAACCAAGAGAGGGAAGAAACAGAGAGCAAGTGTGACTCTGAAGGGGAAGAAGATGAGGAAGACACGGAACCCTGTCTAACAGGAACCAAAGTGAAAGTGAAATATGGACGAGGGAAAACTCAGAAAATCTACGAAGCCAGCATTAAAAGCACTGAAATCGATGATGGAGAAGTTTTATACTTAGTACATTATTATGGATGGAATGTCAGGTATGATGAGTGGGTGAAGGCTGACAGGATCATCTGGCCTTTGGACAAAGGTGGACCAAAGAAAAAACAAAAGAAGAAAGCTAAGAATAAAGAAGATAGTGAAAAGGATGAGAAGAGGGAGGAAGACAGGCAGAGGACGAAGCGTGGGCGGCCCCCTCTGAGATCCAGCCTGCCCTCGGGCGTGCCCTTTGGGCTGCCCACAGCAGTGCACAGCGAAGGGAAATCAGACTCTTGTTCATCTGATAGTGAAACAGAAGACCCTTTAGAAAAGAGTTTGATAAATGAAGAACTTTTTCCTGATAATAAAGAAGAATTAGAAAAAAATGAAAATTTAAATGATGACAAACTAGATGAAGAAAACCCAAAGATAGCTGGACATATGGTAAAAGAAAATGACAGAGTAGCAGTGCAGCCTTTAGAAACCCTGCAGCTGGAAGTTGGAGAGAATGAACAAATAGTACAGCTTTTTGGAAACAAAATGGAACAGGGGGAGGAAGTGAAAAAGGAGGCAGAAAAATCTCCAAAAGGCAAGGGAAGGCGAAGCAAAACAAAAGATATTTCTTTAGAAATTATAAAGATTTCATCATTCAGCCAGGGTGACACAGGAAGTGAGCCTCATGTAGAAGCTCATAGTCTTGAATTTTCTTCATTAGACAGTAAAAACTTCTCCTCTGCTGCCGGAGATGAAATCGACCAGTATGGGAAAGAAAGGAAGTTGAAACGGAAAATACTAGGACACTCATCACCTGAGAAGAAGCTAAGAATGGAGAATGGGATGGGAATGACGAACAGCGTTTCTCAGGAGAGGACCAGTGACTGTATTGGATCCGAGGGGATGAAGAGCTTGCGTTTGGAACAGCACTTTGAGCCGGAGAATGAAGGGATGCCGTCCTTGACAGCCGAGGCCGGCCAGTGCAGACAGGAGTTGGCCTGTGAGGAGCTCGAGCACCACACCAAAGAGACTGCCAGCACGCCCCTCAAGGAGGAGGACGCCATGCCGCTGATTGGCCCCGAGACCCTGGTTTGCCACGAGGTGGACCTGGATGACTTGGATGACAAGGACAAGCCGGGCACCGAGGACATGGCCGTGCAGAGCTCCGAGGTCAGCTCTCTGGTCTCTGTGCCCCACGCGCTCCTGCCCACCAGCCAGCACGACTTAGCAGCAGCATCGCCGCTGGGCCTGAGTCAGGATGAGTCCCGGAGCGTGCGGAGCGAGAGCGATGCCACCGTTGAGGTGGACAGCACGACCGAGGAGTCCCCGGAGGGTCCCAGTGAGCGAGAGCGCCCTGTGGCCAGCAGCTTCGAGGCCAGCTCAGGCCCTGCTGCCTGCAGTTTAAGTGCACAAGAGAGAGAGAGCAGAGAGAAGGGTCACAAAAGGCCAAGTGACGGAAATGGTGGATTAATGGCAAAAAAACAAAAGCGTACCCCGAAACGAACAAGTGCTGCGGCCAAAAGGGAAAAGAATGGAGCAGGACAGAGCAGTGATAGTGAAGATCTTCCTGCCGTAAACAATTCAAGTAAATGTACTCCAGTTAAGCATCTTAGTGTATCTAAGCCACCAAAGCTTGCTCGGTCTCCTGCCAGAATCTCTCCTCACATCAAAGATGGAGAGAAAGAGAAGCAAAGAGAAAAGCATCCCAATTCCTCCCCCAGGACGTATAAGTGGACCCTTCAACTCAATGAATTAGATAACATGAACAGTACAGAAAGAATCTCTTTTCTCCAAGAAAAACTACAGGAAATCAGGAAATACTACATGTCTTTGAAGTCTGAAGTTGCAACCATAGACAGGCGCAGAAAAAGATTAAAAAAGAAAGACAGAGAAGTGTCTCACGTTGGGGCCTCCATGTCATCAGCTTCATCAGACACTGGAATGAGTCCCTCATCATCATCCCCCCCCCAAAATGTCCTTGCTGTAGAATGCAGGTGA
Timm9 translocase of inner mitochondrial membrane 9 homolog (yeast), transcript variant X7
Length: 270 bp Location: 3477159..3467108 Strand: ->XM_004871113.1 ATGGCTGCACAGATATCAGAATCTGATCAGATAAAACAGTTTAGGGAATTCCTGGGAACCTACAATAAACTTACAGAAACCTGCTTTTTGGACTGTGTTAAAGACTTCACAACAAGAGAAGTAAAACCTGAAGAGATCACCTGTTCAGAACATTGCTTACAGAAATATTTAAAAATGACACAAAGAATATCCATGAGATTTCAGGAATACCATATTCAGCAGAATGAGGCCCTGGCAGCCAAAGCGGGACTTCTTGGCCAGCCCCGATAG
Kiaa0586 KIAA0586 ortholog, transcript variant X1
Length: 4638 bp Location: 3477569..3624420 Strand: +>XM_004871115.1 ATGAAAGGCTCTGAGGTTAGTCCGGAAAAGAAAAAAAGGCTTAAAATGCCAGCGAGGAGACTTCAAGAGGTCGTTTCTCCAAATCAGGGAAATAATTTGGCTTTCCTAAACAGTGAGTTGCCGTGTATTCCTCCAGCGTTGCCTGCAAATAAACGTCTTCCAGTTCGAATGGGGACGCCTGTCAATGGAACGTTACCTGGTTCATCAGACTTACCTTCTGCTAGAAATTACCAGCCTCTGTTAGAAAATCCCACTGCATCTGAAAGTGATTTTTCTAAAGATGTTACAATGCAGGAGTTACCTTTGGATAAAGCAGAAGATAGCAGCAGAAAAGAAGCAGATGACATCTTTATTTCTCAGTACACTGTGGGACAGAAAGATGCTCTAAGAATGGCTTTAAAACAAAAAGCTCAAAGCATGCCTGTTTTTAAGGAAGTAAAGGTACATCTTTTAGAAGATGCAGGCACAGAGAAGGGTGCGGTGCTTCAGGAGGCCAGAGTTTCACCCAGTGGAATTGATTCCGCAACCTCTGTGGCTGCAGCAACTGCTGCGGCCATTGCAACAGCAGCTCCACTGATAAAGGTACAGAGTGATTTGGAAGCAAAAGTTAATTCTGTTACAGAATTGCTTAATAAATTACAGGAGACTGATAAACACTTAAAACGTGTTGCAGAGCAGCAAACAAGCATTCAGAATAAACAAGAGAAACTACACTGTCATGACCATGAAAAGCAAATGAATGTGTTCATGGAGCAGCACATTAGGCACCTTGAAAAATTACAACAACAGCAAATAGATATCCAGACTCATTTTATTAGTGCTGCACTCAAGACCAGTACTTGTCCACCCGCCAGCATGCTCCCCTCCAGAGCAGTGGAAAAGCATTCCATAAAACCAGAACATCTTCATCTTGGTAACAGTGTGCTGTCTTCACATAACACAATTGCTTCTAAACAAGCAACTTTAAGAAAGATTGAAGATATGGAGTTTGATGAGCTGAAATCTCCTTTGGAGACACCAGCTCCTCGTAGGTTTGCTCCTGTACCTGTTTCGAGGGATGGCAAAATATCAAAGAGGGAGAATCTAATAGAAGAAAAAGAAAATATGGAAAAATCAGATCATGGAGGAAATGTGAGACTATTAGAGCAGATTTTAAATAATAATGATTTTTCCACAAGAAAAAGTGAATCATCAAATATAACTTCACTAAGTAGGTCAAAAATTGGATGGAATCCTGAGAGAAAAGACAGCTTTGAAACTCTATCTTCTCGAAGATTTCCTTCTTCTGAAGAGCTACGAATGGCTAAAGTGACCATGCAGAATCCTAATGATGTTCTTCATGATCTTGGCAAAAAGGAGAAAGAAACAAATGGCACCCTCCAGAATTCTGGTAAACTTCAACCAACCAATACAGTGAGATCTGTATTGAAAGATGCTGAGAAAATTTTGAGAGGAGTACAGAACAATAAAAAAGTACTTGAAGAAAACCTGGAAGCTATTATTCGAGCAAAGGATGGAGCTGCTATGTATTCGTTTATCAATGCTTTGTCTACCAATAGAGAGATGTCAGAGAAAATTAGGATCAGAAAGACAGTAGATGAATGGATTAAAGCTATTTCTACAGAAATTCAGGATGAAATGGCAAGAAAAGATTATGAACAAAGGAGATTTGATCAGAAGAATCAAAGGACCAAGAAAGCCCAGAATATAAGTAAAGATATTAAAGCTAACACACAAGACAAAACTGTAAATAAATCTGTAATTCCAAGAAAACCTCAAAAACAAGTGGAGGATTATCTTAGACGTCTACCTATAAGGAACATGGCTACTTCCAGTGTACAGAAAGAGAGAAAAGGGCTTTTGAAATCACCCACAGTGATACAAGATGAGGATTACATGTCCCAAGTATATGGAAAACCAGTTTATCAGGGCCATCGCAGCACTCTTAAAAGAGGACCGTACCTCAGGTTTAATTCTACATCTCTTAATTCCAAACCACAGAGACCAAAAATAATAGAACAAGTTAAAGGCACTAAAGTAAAGTCCATAAGAACACAAACTGACTTTCATGGAATAAAACCTATGAAGATAGACTCTAGAATGCAATATCCTGTTACTGCGTTACCTCGTGGCGAGCAGCAGTATCTGTTCAGCCCAAGTAGAGAAATGCCTACATTTTCCGGTACTCTGGAAGGTCATCTAATTCCTATGGCAATTCTTTTAGGACAAACACAAAGTAATAGTGATTCTGTACTGCCTGCTGGAGTCATTGTACACAAGCCACACCCTGTAACCGTGACCACTTCTATTCCTCCATCATCTGGAAAAGTAGAGACTGGAGTAAAGAAACCTAATGTAGCAGTTGTAGAAATGAAGTCAGAGCAAAAGGATCCTCCTCGGCTTACTGTACAGGTGTTACCCAGAGTGGACATTGACAGCATTTCAAACGACAGCGCCGACGGGGGCTCACCTCTGCCCAGTCCCAGAGGAGCACGTCGGTCTCCGCCGCGGATGTGCACACAGACTCCAGAATTTATGAATGTGGATGAAGAAGAGGTGAAGTTTCCTGGAACTAACTTTGATGAAGTAATCGATGTTGTTCAGGAAGAGGAGAAGTGTGATGAAATTCCAGAATGCTCTGAACCAATTCTGGAGTTTAACAGAAGTATTAAAGTTGCTTCTACAAAATATAATGGCCCTCCATTTCCACCAGTTGTTTGTACTTCTCAGCCCACTACTGATATTCTGGATAAAGTAATTGAGAGAAAAGAAACATTAGAAAATAACTTAATTCAGTGGGTGGAACAAGAAATAATGTCAAGAATTATCTCTGGGCGCTTTCCAGTCCCCCAACAGACCAGACTTACTACCAGTGTCTCCGTCAGTGAGGCCAGTGAGCCATCCACTCCTGATCTCGTGGAAGGAACATGTGGCGGTGCCCTGCAGCTTTTTGTTGATGCGGGGGTTCCTGTGAATTCAGACACGATTAGGCATTTGGTAAATGAAGCTCTTGCTGAGACCATTGCTGGCATGCTGGGCGACAGAGAATCGAAGAAACAAGGTCATGGTGCTACGAGTGTTTCTGGTGATATCTCAACAAGTGAAACACCCTTGCTGGCAAGAATATGTACTCCAGTTGCTACCCCCCAGCCTACTCCTCCTCACTCACCTGCATCACCTCCTAAGGAGTATGTGTTAGTGAAGACTCCTGATTCTTCTCCCTGTGGTTCATATCATGATGTTGCTTTTCCTGTGAAAGAAATCTCTGCTGAAAAAGAGAAATCTTCAGAAAATGATGTGCCTGCCATCACACTCATTAATACTCCCACGGTTACCCCTGCTACTACACCTCCTCTAGCAGCAGCTCTTACCCCAACTTTGTCAGAAATTTCCATTGATAAATTGAAGATATCGAGCCCAGAGCTTCCCACACCATGGGGGGATAGAGACCTGCCACTAGATGAAGAGAATCCTTACTGTCTTCAAGAAGATTTTCACCCAAGAGCAATTGTAATGTCTGTGGCTGAGGATGAAGAACCTGAGAGTATGAACTTCCTGCCTCCACCTGCTCCTACAGAACCAGTTCCTCCTACACCGTTCCCTGCAGGCACCAAGGCCCCTTCCTCCTCTCAGATGCCAAGCTCCAGCTCATCCACCCTGGAGAGCACTTTGAGTGTCACTGTCACTGACATGGAGAGTCTGGACAGGCCCATCTCTGAAGGGGAGATTGTGTTTAATTGCGGTGAAAGACTGGCTCCCAGGATTTTAGGAGGTGGAGAGCTTTATCTGACAAACCTAAACGATAGCTTATCCAGCACTTTGCATGATGCCCTTGACATGGAAGATGATTCTCCCAGTGAAGGACAAGTGATTAGGATACCCCATAAAAAATTTCATGCAGATTCAATTCTTCCTCTTCTTGCTAGACAGAACCAGGAATTACTAGTTTCACAGCAGGCAGTCTGTTGCTCAGAGGACTTGGAAAACAGTGTGGGTGAACTTAGTGAAGGACAGAGGCCCAGGCTGACAGCAGCAGCAGAGAACATCTTACTGGGACAGTCTCTCTATATGCAGCAGTGCGTTGCTAATGCAGAGTCTATGGGTCAGCAATGCCATCCTAAGCCATTGTTCCAGCAATTTGACACAGTTTCAGGTGGTATTCATGAAGATCCCTGTGCTAGTCATGGCCCAATGAGTTTGGGGGAGTTGGAGTTGCAGCCACGTTCCAACGTCGTTCTTCCCACAGCACTTCTGAGAACACAAGGAAGTGATGTTTATTTACCAGAAGCAGCTGAAGATTTTTCTCAGAACCAACAAAAGCAAGACCAGGATGTTAAGCAAGTTGAACACAAGCCAGTACAAAGTCATTTAATACGTGTACGAAATATATCTGATATTTTGCTTTCACAACAGCAACAAGCTTCACCAGGTAATATGGATCAGACACAAATTGAGCCCAGCCTGTGCCTTGCATCTGTATTTACAGGTGGTGTGGCAGTGCCGAACTTCACTTCTCAGAGGTCCCCTGCCAGGATGTCTGTGACGCTGCCTGCAGTGAACCTAGAGGACTGCTCCCCATCCCTGAGCGTCAGCACCATCCAGGGGGACCCTGGGTCCTCGGGGGCAGACACCTTCTGA
Kiaa0586 KIAA0586 ortholog, transcript variant X2
Length: 4635 bp Location: 3477569..3624420 Strand: +>XM_004871116.1 ATGAAAGGCTCTGAGGTTAGTCCGGAAAAGAAAAAAAGGCTTAAAATGCCAGCGAGGAGACTTCAAGAGGTCGTTTCTCCAAATCAGGGAAATAATTTGGCTTTCCTAAACAGTGAGTTGCCGTGTATTCCTCCAGCGTTGCCTGCAAATAAACGTCTTCCAGTTCGAATGGGGACGCCTGTCAATGGAACGTTACCTGGTTCATCAGACTTACCTTCTGCTAGAAATTACCAGCCTCTGTTAGAAAATCCCACTGCATCTGAAAGTGATTTTTCTAAAGATGTTACAATGCAGGAGTTACCTTTGGATAAAGCAGAAGATAGCAGCAGAAAAGAAGATGACATCTTTATTTCTCAGTACACTGTGGGACAGAAAGATGCTCTAAGAATGGCTTTAAAACAAAAAGCTCAAAGCATGCCTGTTTTTAAGGAAGTAAAGGTACATCTTTTAGAAGATGCAGGCACAGAGAAGGGTGCGGTGCTTCAGGAGGCCAGAGTTTCACCCAGTGGAATTGATTCCGCAACCTCTGTGGCTGCAGCAACTGCTGCGGCCATTGCAACAGCAGCTCCACTGATAAAGGTACAGAGTGATTTGGAAGCAAAAGTTAATTCTGTTACAGAATTGCTTAATAAATTACAGGAGACTGATAAACACTTAAAACGTGTTGCAGAGCAGCAAACAAGCATTCAGAATAAACAAGAGAAACTACACTGTCATGACCATGAAAAGCAAATGAATGTGTTCATGGAGCAGCACATTAGGCACCTTGAAAAATTACAACAACAGCAAATAGATATCCAGACTCATTTTATTAGTGCTGCACTCAAGACCAGTACTTGTCCACCCGCCAGCATGCTCCCCTCCAGAGCAGTGGAAAAGCATTCCATAAAACCAGAACATCTTCATCTTGGTAACAGTGTGCTGTCTTCACATAACACAATTGCTTCTAAACAAGCAACTTTAAGAAAGATTGAAGATATGGAGTTTGATGAGCTGAAATCTCCTTTGGAGACACCAGCTCCTCGTAGGTTTGCTCCTGTACCTGTTTCGAGGGATGGCAAAATATCAAAGAGGGAGAATCTAATAGAAGAAAAAGAAAATATGGAAAAATCAGATCATGGAGGAAATGTGAGACTATTAGAGCAGATTTTAAATAATAATGATTTTTCCACAAGAAAAAGTGAATCATCAAATATAACTTCACTAAGTAGGTCAAAAATTGGATGGAATCCTGAGAGAAAAGACAGCTTTGAAACTCTATCTTCTCGAAGATTTCCTTCTTCTGAAGAGCTACGAATGGCTAAAGTGACCATGCAGAATCCTAATGATGTTCTTCATGATCTTGGCAAAAAGGAGAAAGAAACAAATGGCACCCTCCAGAATTCTGGTAAACTTCAACCAACCAATACAGTGAGATCTGTATTGAAAGATGCTGAGAAAATTTTGAGAGGAGTACAGAACAATAAAAAAGTACTTGAAGAAAACCTGGAAGCTATTATTCGAGCAAAGGATGGAGCTGCTATGTATTCGTTTATCAATGCTTTGTCTACCAATAGAGAGATGTCAGAGAAAATTAGGATCAGAAAGACAGTAGATGAATGGATTAAAGCTATTTCTACAGAAATTCAGGATGAAATGGCAAGAAAAGATTATGAACAAAGGAGATTTGATCAGAAGAATCAAAGGACCAAGAAAGCCCAGAATATAAGTAAAGATATTAAAGCTAACACACAAGACAAAACTGTAAATAAATCTGTAATTCCAAGAAAACCTCAAAAACAAGTGGAGGATTATCTTAGACGTCTACCTATAAGGAACATGGCTACTTCCAGTGTACAGAAAGAGAGAAAAGGGCTTTTGAAATCACCCACAGTGATACAAGATGAGGATTACATGTCCCAAGTATATGGAAAACCAGTTTATCAGGGCCATCGCAGCACTCTTAAAAGAGGACCGTACCTCAGGTTTAATTCTACATCTCTTAATTCCAAACCACAGAGACCAAAAATAATAGAACAAGTTAAAGGCACTAAAGTAAAGTCCATAAGAACACAAACTGACTTTCATGGAATAAAACCTATGAAGATAGACTCTAGAATGCAATATCCTGTTACTGCGTTACCTCGTGGCGAGCAGCAGTATCTGTTCAGCCCAAGTAGAGAAATGCCTACATTTTCCGGTACTCTGGAAGGTCATCTAATTCCTATGGCAATTCTTTTAGGACAAACACAAAGTAATAGTGATTCTGTACTGCCTGCTGGAGTCATTGTACACAAGCCACACCCTGTAACCGTGACCACTTCTATTCCTCCATCATCTGGAAAAGTAGAGACTGGAGTAAAGAAACCTAATGTAGCAGTTGTAGAAATGAAGTCAGAGCAAAAGGATCCTCCTCGGCTTACTGTACAGGTGTTACCCAGAGTGGACATTGACAGCATTTCAAACGACAGCGCCGACGGGGGCTCACCTCTGCCCAGTCCCAGAGGAGCACGTCGGTCTCCGCCGCGGATGTGCACACAGACTCCAGAATTTATGAATGTGGATGAAGAAGAGGTGAAGTTTCCTGGAACTAACTTTGATGAAGTAATCGATGTTGTTCAGGAAGAGGAGAAGTGTGATGAAATTCCAGAATGCTCTGAACCAATTCTGGAGTTTAACAGAAGTATTAAAGTTGCTTCTACAAAATATAATGGCCCTCCATTTCCACCAGTTGTTTGTACTTCTCAGCCCACTACTGATATTCTGGATAAAGTAATTGAGAGAAAAGAAACATTAGAAAATAACTTAATTCAGTGGGTGGAACAAGAAATAATGTCAAGAATTATCTCTGGGCGCTTTCCAGTCCCCCAACAGACCAGACTTACTACCAGTGTCTCCGTCAGTGAGGCCAGTGAGCCATCCACTCCTGATCTCGTGGAAGGAACATGTGGCGGTGCCCTGCAGCTTTTTGTTGATGCGGGGGTTCCTGTGAATTCAGACACGATTAGGCATTTGGTAAATGAAGCTCTTGCTGAGACCATTGCTGGCATGCTGGGCGACAGAGAATCGAAGAAACAAGGTCATGGTGCTACGAGTGTTTCTGGTGATATCTCAACAAGTGAAACACCCTTGCTGGCAAGAATATGTACTCCAGTTGCTACCCCCCAGCCTACTCCTCCTCACTCACCTGCATCACCTCCTAAGGAGTATGTGTTAGTGAAGACTCCTGATTCTTCTCCCTGTGGTTCATATCATGATGTTGCTTTTCCTGTGAAAGAAATCTCTGCTGAAAAAGAGAAATCTTCAGAAAATGATGTGCCTGCCATCACACTCATTAATACTCCCACGGTTACCCCTGCTACTACACCTCCTCTAGCAGCAGCTCTTACCCCAACTTTGTCAGAAATTTCCATTGATAAATTGAAGATATCGAGCCCAGAGCTTCCCACACCATGGGGGGATAGAGACCTGCCACTAGATGAAGAGAATCCTTACTGTCTTCAAGAAGATTTTCACCCAAGAGCAATTGTAATGTCTGTGGCTGAGGATGAAGAACCTGAGAGTATGAACTTCCTGCCTCCACCTGCTCCTACAGAACCAGTTCCTCCTACACCGTTCCCTGCAGGCACCAAGGCCCCTTCCTCCTCTCAGATGCCAAGCTCCAGCTCATCCACCCTGGAGAGCACTTTGAGTGTCACTGTCACTGACATGGAGAGTCTGGACAGGCCCATCTCTGAAGGGGAGATTGTGTTTAATTGCGGTGAAAGACTGGCTCCCAGGATTTTAGGAGGTGGAGAGCTTTATCTGACAAACCTAAACGATAGCTTATCCAGCACTTTGCATGATGCCCTTGACATGGAAGATGATTCTCCCAGTGAAGGACAAGTGATTAGGATACCCCATAAAAAATTTCATGCAGATTCAATTCTTCCTCTTCTTGCTAGACAGAACCAGGAATTACTAGTTTCACAGCAGGCAGTCTGTTGCTCAGAGGACTTGGAAAACAGTGTGGGTGAACTTAGTGAAGGACAGAGGCCCAGGCTGACAGCAGCAGCAGAGAACATCTTACTGGGACAGTCTCTCTATATGCAGCAGTGCGTTGCTAATGCAGAGTCTATGGGTCAGCAATGCCATCCTAAGCCATTGTTCCAGCAATTTGACACAGTTTCAGGTGGTATTCATGAAGATCCCTGTGCTAGTCATGGCCCAATGAGTTTGGGGGAGTTGGAGTTGCAGCCACGTTCCAACGTCGTTCTTCCCACAGCACTTCTGAGAACACAAGGAAGTGATGTTTATTTACCAGAAGCAGCTGAAGATTTTTCTCAGAACCAACAAAAGCAAGACCAGGATGTTAAGCAAGTTGAACACAAGCCAGTACAAAGTCATTTAATACGTGTACGAAATATATCTGATATTTTGCTTTCACAACAGCAACAAGCTTCACCAGGTAATATGGATCAGACACAAATTGAGCCCAGCCTGTGCCTTGCATCTGTATTTACAGGTGGTGTGGCAGTGCCGAACTTCACTTCTCAGAGGTCCCCTGCCAGGATGTCTGTGACGCTGCCTGCAGTGAACCTAGAGGACTGCTCCCCATCCCTGAGCGTCAGCACCATCCAGGGGGACCCTGGGTCCTCGGGGGCAGACACCTTCTGA
Dact1 dishevelled-binding antagonist of beta-catenin 1
>XM_004871121.1 ATGTTTTGCGCTTCGTGCGAGGTTGTTTTGTGTCCTGCCTGGCCTCAGAGAGCAGGGCTCCTAAGAGCAGAGGAAGTGGAGAAAGCGGGCCCGGCTGTCCGCGCCTCGGAGCGGAAGCCTCTGCTCCATGGCCCTAGTCTGGCGCTCTCGAGCAAACGGCGCCTGAGTGGCCAGGTGTGTCTGCGAGGGAGAAAAGGACAGGGGACCCCGGAAGCTGCTCACAGTCCCCTGGGTCTGGCCAATACTCTCTCCTTTCCAGGATTATTCCAAGGGAAAGGTCACACGGAGCCCAAACCTGAAGTTTTAGGACGGCATGGTGCTTTGTCTTGCTTGCTTTTACAAAATGGAGTTGCAGCAAAAACAAAACCCACGGAAACTATCCTCGCCGGCGCGAGCGCACCGGGCGGCGGCCCAGCCGCAGGCGCGGAGCTCACGGGGCCGCGGGGAGCAGGCAGCGCGGAGCGCGCGGAGCCAATGAGCGGCTCGGGGCGCAGCCGAGGGGCCCGGCGAGCGCGGGGTGGCACCGCGCCCCGCGCCGGGGAGCTGCCGGGGGAGGCGCCGCGGAGCCGCCTGGAGGAGAAGTTCCTGGAGGAGAACATCTTGCTGCTGCGGAAGCAGCTGAATTGTCTGAGGAGAAGAGATGCTGGTTTGTTGAATCAGTTGCAAGAACTCGACAAGCAGATCAGTGACCTGAGACTGGATGTAGAAAAGACATCCGAAGAGCACCTGGAGATGGATAGCCGGCCCAGCTCAGGGTTTTATGAACTGAGTGATGGGGCCTCAGGATCCCTTTCCAATTCCTCTAACTCAGTGTTCAGTGAGTGCTTATCCCGTTGTCATTCCAGCACCTGCTTTTGCAGCCCCCTGGAGGCAACCTTGACTACCTCAGATGGTTGCCCCAAATCTGCAGATGTGAACCCCAAGTACCAGTGTGATCTTGTGTCTAAAAACGGGAATGATGTCTATCGCTATCCCAGTCCACTGCATGCTGTGGCTGTGCAGAGCCCAATGTTTCTCCTTTGTCTGGCGGGCTCCCCACTGAGGGAAGAGGAGCGGCTTGAGAACCATGCCAGTGACATTTGTGTGGGATCAGAACTAGATGTCACCAAGACAGACAGTTCCTTACCATCCCCAAGCAGTCTGTGGCCTGCCTCCCAACCTTCATCCAGTAAGAAAATGGATGGCTACATTCTGAGCCTGGTCCAGAAAAAAACACATCCTGTAAGGACCAACAAACCCAGGACCAGTGTGAACGCAGACCCCACAAAAGGGCTCCTGAGGAATGGGAGCGTGTGTGTCAGGGTTGCTGGCTCCCAGGTTAGCAGTGTGAACCTGAAGAATTCGAAGCTGGTGTGTTTGCCCTCTGGCGGAATGCCCTCTCTGGACAGCGGGTCCTTCTCCCCGCTGAAGCAGCGGGCAAAGGAATTAAAAGCAGAACTGGAAGGCAAGAGGCTGCTAGTTCCCGAGGGCTGCTTGGTAGGGGCCCCCTCTGAGCTCCCAAGCAAGCATCTGCCCAAAAATGCTAAGGTAGCCTCCCAGGAACAGGCTCGGCCTGCCGCTGCGGGGGCAGGAGAGGCCCCTAAAGAAAGTGAGCAGACCTCAGCCGCCTCTCCAAAAGAGAGCCCAGGCCGGACCCCTGGACCCCTGAAAGAGCACAAAGCTGTGCAGCCCCTAAAAAAGATGGCTCAGAAAAGCAGCCTACAGCCCGCCCCAGCTCCTGTTCCTCCCCCATTGCTGCCTGTGGCCTTTGCTGGGGAGGAGAGGCCAGCCTTGGACTTCAAAAGTGAGGGTTCTTCACAAAGCCTTGAGGAAGGACACCTGGTCAAAGCGCAGTTCATCCCAGCCCAGCCGCCGAGCAGCAGGCTTCACCGAGGACACAGGAATGCGGGCGGCTTGCGGAGCTCCACTCTGAGGCACCGCGGTCAGGCTCTCCAGGGACTGGACAGCGGCTTGCCCACGGTCAGGGAGAAAACCCGGGCGGCTGGCAAGAAGTGTCGCTTCCCCGAGGACTTGGATACAAATAAGAAACTCAAGAGAGCCTCTGGCAGGGGCCGGAAGGGCGGGGGCGGGGCCCCCGAGGTTCTTTCCGGCAGGCCCTTGGGCGCCAGTGGCCATAGGGCGGGAAATAAGGCTCAGGGCCATGGACGGGAGGCTGTGGTGGCCAAACCTAAGCACAAACGAACCGATTACCGGCGTTGGAAGTCCTCCGCCGAGATCTCTTACGAAGAAGCCCTGAGGAGGACCCGTAGGGGTCGCCGAGAGCACGTAGGTGTGTACCCTGTACCTGTGCCCTATGCCAGTCCCTATGCTTACGTAGCCAGTGACTCAGAGTACTCGGCTGAGTGTGAGTCCCTCTTCCACTCCACGGTGGTGGACACCAGTGAGGACGAACAGAGCAACTACACCACTAACTGCTTCGGTGACAGTGAGTCCAGTGTGAGTGAGGGTGAGTTCGTGGGCGAGAGCACCACTACCAGCGATTCGGAAGAGAGTGGGGGCTTGATTTGGTCCCCGTTTGTCCAGACTCTCCCAATTCAAACGGTTGCGACCCCAAACCCTACAAAAACCTTTGTCAAAATTAAGGCTTCACACACCCTCAAGAAGAAAATCCTCCGCTTTCGGTCTGGCTCTTTGAAACTGATGACGACAGTATGA
Actr10 actin-related protein 10 homolog (S. cerevisiae)
>XM_004871100.1 ATGCCGCTCTACGAGGGCCTAGGTAGCGGCGGCGAGAAGACGGCGGTCGTGATCGACCTGGGAGAGGCCTTCACCAAATGTGGATTTGCTGGAGAAACAGGTCCGAGATGTATAATTCCTAGTGTGATAAAAAAAGCTGGATTGCCTAAGCCTGTCAAGGTTGTTCAGTATAATATCAATACAGAAGAGCTATATTCTTACCTAAAGGAATTCATCCACATACTGTATTTCAGGCATCTATTGGTGAACCCCAGAGACCGTCGAGTTGTGGTGATCGAGTCGGTATTATGTCCTTCCCACTTCAGAGAAACTCTCACTCGAGTTCTTTTCAAATACTTTGAGGTTCCATCTGTCTTGCTAGCTCCAAGTCACCTCATGGCTCTTCTGACGCTTGGAATTAACTCTGCCATGGTCCTAGATTGTGGATATAGGGAAAGCCTGGTGTTGCCTATATATGAAGGGATCCCAGTACTGAATTGTTGGGGGGCTCTCCCCCTAGGAGGAAAAGCACTGCACAAAGAGTTGGAAACTCAGCTGTTGGAACAGTGTACTGTGGACACCAGTGCTGCTAAAGAACAGAGCCTTCCCTCAGTGATGGGTTCAGTTCCAGAAGGTATCTTAGAGGACATTAAAGTGCGCACTTGCTTTGTAAGTGATCTGAAGCGTGGACTCAGAATCCAAGCAGCAAAATTTAATATTGATGGGAATGATGAACGTCCCTCACCACCCCCAAACGTCGACTATCCATTAGATGGGGAGAAGATTTTACATGTCCTGGGATCAATCAGAGATTCAGTTGTGGAAATTCTTTTTGAACAAGATAATGAAGAGAAATCAGTTGCCACGTTAATATTGGATTCCCTTCTGCAGTGTCCAATAGACACCAGGAAACAACTTGCAGAGAACTTGGTAGTCATAGGTGGCACCTCTATGTTGCCAGGATTTCTCCATAGGTTGCTTGCTGAAATAAGATATTTGGTAGAAAAACCAAAATACCAAAAAGCACTTGGTACCAAGACATTCCGAATCCATACTCCACCTGCAAAGGCTAATTGTGTGGCCTGGTTGGGAGGGGCTATTTTTGGAGCACTGCAAGATATACTTGGGAGCCGTTCAGTTTCAAAGGAATATTATAATCAGACGGGCCGTATACCTGATTGGTGTTCCCTCAATAATCCACCTTTAGAAATGATGTTTGACGTTGGAAAAGCTCAGCCACCTCTGATGAAGAGAGCATTTTCCACTGAGAAATAA
Arid4a AT rich interactive domain 4A (RBP1-like), transcript variant X4
>XM_004871106.1 ATGAAGGCGGCTGACGAGCCTGCCTACCTGACCGTAGGCACGGACGTCAGTGCCAAGTACCGGGGTGCCTTCTGCGAGGCAAAGATCAAGACGGTGAAGAGGCTGGTGAAAGTCAAGGTACTCCTGAAACAGGATAATACAACCCAGTTGGTGCAAGATGACCAAATCAAGGGTCCTTTAAGAGTTGGAGCAATTGTTGAAACGAGAGCGCCTGACGGGTCCTTTCAGGAAGCCGTTATCAGCAAGTTGACAGATGCTAGCTGGTATACCGTGGTGTTTGATGATGGTGATGAGAGAACCCTGAGACGAACCTCTCTCTGCCTGAAAGGGGAGAGGCATTTTGCAGAGAGTGAGACACTTGATCAGCTTCCGTTAACAAATCCAGAGCATTTTGGAACTCCAGTAATTGCAAAGAAGACAAACAGAGGAAGGAGGTCCTCACTTCCTGTTAACGAGGATGAGAAGGAGGAAGAAAGTAGTGAAGAGGAAGATGAAGATAAGCAACGTCTCAATGATGAGTTGTTAGGAAAAATTGTGAGAGTGGTTTCTACACCTGAGAGGCCTGAATGGTACCCTGCTTTGGTGGTCTCTCCCAGCTGTAATGATGACATCACAGTGAAAAAGGATCAGTGTTTAGTTCGATCATTTATTGATTCTAAATTTTATGCTATAGCGAGGAAGGATATTAAAGAAGTAGACATTCTCAATCTGCCGGAATCTGAACTCTCTGCTAAACCAGAGCTGCAGAAAGCGAGTATCTTCTTAAAAGCTAGAGTTGTTCCTGACAATTGGAAAATGGATCTAAGTGAAATCCTGGAGTCGTCCAGTAGTGATGATGAAGACGGCCCAGCTGAAGAAAACGATGAAGAAAAGGAAAAGGAAACCAAAAAGGAAGAAGAGGAGGTGCCTGAGGAAGAACTTGATCCTGAAGAGAGGGACAACTTCCTCCAACAGCTTTATAAGTTTATGGAAGACAGAGGCACTCCAATCAACAAACCACCTGTTTTGGGATATAAAGATCTCAATCTCTTCAAACTTTTTAGACTGGTTTACCATCAGGGTGGATGTGACAATATTGATAGTGGTGCTGTATGGAAGCAAATTTATATGGACCTCGGCATTCCAATTTTGAATTCAGCTGCTTCCTACAATGTAAAAACTGCTTATAGAAAGTATCTCTATGGTTTTGAAGAGTACTGCCGTTCTGCAAATATTCAATTTAGAACCATTCACCACCATGAACCAAAAGTAAAAGTAGAAAAAAAAGACTTAGACGAATCCATGGAAGAGGCTCTAAAAGTAGATCAAGAAATGCCTTTGATAGAAGTAAAGAGTGAACTGGAGGAGACTACTGATTCAAACAGTGAGAGTGAAAGAGAAGAGCTCGAATTAAAGTCTCCACGGGGACGAAGGAGAATTGCTCGAGATGCAAATTCAATTAAAAAGGAAATTGAAGAAGAGAAAACAGAAGACAAATTAAGAGATAATGATTCAGAAAATAAGGATGTAGACGATGACTATGAAACTGCAGAGAAAGAAGAAAACGGGCTAATATTGGGGAGAAAAAATACACCAAAGCCAAAAGAGAAGAAAGTCAAAAAGCAAGAGGGCTCCGACCGAGACTCAGAGGGAGAGGAAGAGAAGAACCAAGAGAGGGAAGAAACAGAGAGCAAGTGTGACTCTGAAGGGGAAGAAGATGAGGAAGACACGGAACCCTGTCTAACAGGAACCAAAGTGAAAGTGAAATATGGACGAGGGAAAACTCAGAAAATCTACGAAGCCAGCATTAAAAGCACTGAAATCGATGATGGAGAAGTTTTATACTTAGTACATTATTATGGATGGAATGTCAGGTATGATGAGTGGGTGAAGGCTGACAGGATCATCTGGCCTTTGGACAAAGGTGGACCAAAGAAAAAACAAAAGAAGAAAGCTAAGAATAAAGAAGATAGTGAAAAGGATGAGAAGAGGGAGGAAGACAGGCAGAGGACGAAGCGTGGGCGGCCCCCTCTGAGATCCAGCCTGCCCTCGGGCGTGCCCTTTGGGCTGCCCACAGCAGTGCACAGCGAAGGGAAATCAGACTCTTGTTCATCTGATAGTGAAACAGAAGACCCTTTAGAAAAGAGTTTGATAAATGAAGAACTTTTTCCTGATAATAAAGAAGAATTAGAAAAAAATGAAAATTTAAATGATGACAAACTAGATGAAGAAAACCCAAAGATAGCTGGACATATGGTAAAAGAAAATGACAGAGTAGCAGTGCAGCCTTTAGAAACCCTGCAGCTGGAAGTTGGAGAGAATGAACAAATAGTACAGCTTTTTGGAAACAAAATGGAACAGGGGGAGGAAGTGAAAAAGGAGGCAGAAAAATCTCCAAAAGGCAAGGGAAGGCGAAGCAAAACAAAAGATATTTCTTTAGAAATTATAAAGATTTCATCATTCAGCCAGGGTGACACAGGAAGTGAGCCTCATGTAGAAGCTCATAGTCTTGAATTTTCTTCATTAGACAGTAAAAACTTCTCCTCTGCTGCCGGAGATGAAATCGACCAGTATGGGAAAGAAAGGAAGTTGAAACGGAAAATACTAGGACACTCATCACCTGAGAAGAAGCTAAGAATGGAGAATGGGATGGGAATGACGAACAGCGTTTCTCAGGAGAGGACCAGTGACTGTATTGGATCCGAGGGGATGAAGAGCTTGCGTTTGGAACAGCACTTTGAGCCGGAGAATGAAGGGATGCCGTCCTTGACAGCCGAGGCCGGCCAGTGCAGACAGGAGTTGGCCTGTGAGGAGCTCGAGCACCACACCAAAGAGACTGCCAGCACGCCCCTCAAGGAGGAGGACGCCATGCCGCTGATTGGCCCCGAGACCCTGGTTTGCCACGAGGTGGACCTGGATGACTTGGATGACAAGGACAAGCCGGGCACCGAGGACATGGCCGTGCAGAGCTCCGAGGTCAGCTCTCTGGTCTCTGTGCCCCACGCGCTCCTGCCCACCAGCCAGCACGACTTAGCAGCAGCATCGCCGCTGGGCCTGAGTCAGGATGAGTCCCGGAGCGTGCGGAGCGAGAGCGATGCCACCGTTGAGGTGGACAGCACGACCGAGGAGTCCCCGGAGGGTCCCAGTGAGCGAGAGCGCCCTGTGGCCAGCAGCTTCGAGGCCAGCTCAGGCCCTGCTGCCTGCAGTTTAAGTGCACAAGAGAGAGAGAGCAGAGAGAAGGGTCACAAAAGGCCAAGTGACGGAAATGGTGGATTAATGGCAAAAAAACAAAAGCGTACCCCGAAACGAACAAGTGCTGCGGCCAAAAGGGAAAAGAATGGAGCAGGACAGAGCAGTGATAGTGAAGATCTTCCTGCCGTAAACAATTCAAGTAAATGTACTCCAGTTAAGCATCTTAGTGTATCTAAGCCACCAAAGCTTGCTCGGTCTCCTGCCAGAATCTCTCCTCACATCAAAGATGGAGAGAAAGAGAAGCAAAGAGAAAAGCATCCCAATTCCTCCCCCAGGACGTATAAGTGGACCCTTCAACTCATGTCTCACGTTGGGGCCTCCATGTCATCAGCTTCATCAGACACTGGAATGAGTCCCTCATCATCATCCCCCCCCCAAAATGTCCTTGCTGTAGAATGCAGGTGA
Timm9 translocase of inner mitochondrial membrane 9 homolog (yeast), transcript variant X8
>XM_004871114.1 ATGGCTGCACAGATATCAGAATCTGATCAGATAAAACAGTTTAGGGAATTCCTGGGAACCTACAATAAACTTACAGAAACCTGCTTTTTGGACTGTGTTAAAGACTTCACAACAAGAGAAGTAAAACCTGAAGAGATCACCTGTTCAGAACATTGCTTACAGAAATATTTAAAAATGACACAAAGAATATCCATGAGATTTCAGGAATACCATATTCAGCAGAATGAGGCCCTGGCAGCCAAAGCGGGACTTCTTGGCCAGCCCCGATAG
LOC101698997 PREDICTED: Heterocephalus glaber chromosome unknown open reading frame, human C14orf105 (LOC101698997), transcript variant X6, misc_RNA.
Length: 3025 bp>XR_206335.1 TGGCAAAGTAGGAGTTCGAAGGGAAGTCTCCAGGGAAACTGGCCTCCCAGGAAGTAGCCAGACTAGTTAGTGTGTGGTGAAAGAGCCAGAAAGATGTCATGAAGGCAGGGACATCTTTGCAAAGCTGGGGTAACTTCTGGAATTCCTTAATTAAAACAAGCTGCATGAAAGGCCCCAGAACTGCCTCCATCATAGTTTTCCTTTGGACATCCTTCCCAGGACATGGGTCTGAGCTACGCCAAGGCTCACCCTGGGGTGACTAAAGTGGCACCTTTCCAAAGCAAAGAAGCAGAGACTCCCTCGGCTGGCCCTCTGAACTTTGCAGTTCATCAGAACCTGGAAGAAAATAATTTGTATTTATTCACAAGACTGCAGGACCAGAATAGGGCTTTGGAAGGGCAGCTACCTCCTCTTCGAGAAAACTGGTATGGAAGGTATTCGGCAGCACCCAGGGACATGTATTTTGACATCCCACTGGAACCTGGAGAAACAAGTATTATTAAAAGGCATCCACCACAAAGACTTCAAAAGCTTCAGCCCATTGACCTGCCACAAGTAAGGACCTCTGAAAGGCTCCCAAGCCAGCAAGCAGCCAGGATGAGGCCCAGAGCAAAGCAGGAACTGGAAAAGAAAATGCAAACTCCAATGTATACTTCTGGAAAAAGACAGTATTTACATAAGATGCAAATGCTGGAAATGAACCGTAAAAGACAAGAGGCCCAAATGGAATTGAAGAAAAGTCTTCACAGGGAAGCAAAAATTAATGAGCAAAAACCGAGAGACCATAAAGCAAAAAAAACACTTCAAAGTGTCCCAAGGAATGATGACTATGACATTGTAACCATGCTGCCTGAGGAAACCATGAACAGAGGTCCAGGTGAGTCATTACCTTTGTTAGTAAAACATCTCAAGCATTTTAGAAACTTCCTCAAATAAGCCCCCAGGGTGAGAGTGGAGAAGACAGTAAGAAGACAGGAACAGCCTTGATTCCTTGCTGGTATGCACTTCTCAGCACACAGTGGGCATGTAGTGGAAAAGGCAGAAAGGTAAGCTCTACAATACAATGTTGCTTTCATGGTGTGGGGTTAACAGGCTTTACATGCATTCGTGTAGCCCTCGCCCCATCCCGGGGAGGAGAAGGCAGAGTCCCCTATCTGAAGGCTAGAGAGAACAAAGCGCACAGAGATGAATTACACTGCTCGGGGCACACAGACACTCCTGTCCCTGCCTGCACTCTTCGCTCTGCAGGTCGGCCCTCTTGGGCACAGTCGGAATGTCTGACGTGAGCCCAGCATCACGGCCCTCTCTGGGCTGGCTCCTCCTGTCTCATCCCAGTAGGTGTGGCCTCCACTCCCGGTGCCACACAGCCCAGAGCCCCGAGACCTCTTCAGCCATTCTTCCTCACCTTGCCGCTGGCCGGTCACAAAGTCCTGCTGAGGTCACCTAGTGCTGAAATCTGCCCTCTCTTTTCTGTTCCCAATAGTGTCACCTCAGCCTCAGGGCCACTGCAACTGCCACCCGGCCAGCCTCCTCCCCTTGAGTTTTGCCCACTTTCCACCACCCTCCCCATCAGTGGTTCCCACTGGTCCTCGGGCCATCTGCTTCAAGGTCACCTGGGGGACTTGGTGTTCCAGCCAGTGGAAACCAATTACCAATCAAGCAGCAGGGGTGAGGCCCAGCATCTGGGGTTACCCACCCACCCAGGCGTTGCTGATGTCCCTACAGGGACGCAAAACAGGAAGTGCTTCTGCACCATTGGCCTCCAGAGGGAGAATGTCAGGTCACAGCCAGACCTACTGAGTAAGGATTGGTTAGGAAGATCCCTGAGGATTCTTGTATACACTGAAGCTCTGGAAGTGCTGCACCAACAGCAGGTGATCTTATAAAATGCAAATTGGACCGTATCGTACTTCTGCTTTGAAAAACTATCATTCAGTAAATCTCCATCAATTTAAGGACAAAAGCTAAGCTTAACAAGGGTCCCTAGGCCCTTCAGGATATAGTTCTGCCTACATTCCTAGCTTTACCTACTGCCACTCACACAGTCAGCCCTTACATCCCAGCCAGGCCAGACTGCTCCTCAGCCTCTGCTTACTCTGTGTTTCCCAGTAGGCATCTGTGCCAGTAACTGCCCAGCCCGCTGGAGCCCATCATGTGTTCCCCCCTCATTCCCACAAGGCAAACCTGCAGTTGCCAATGTACCCTGTTGCTCACACACGTGGCAGGCCACCCTCACATCAGCCCGCTGACCTCCAAGACAGCTGCAGAGACATGGCCTGCCTCTGGACACCTTCAGCTGCGGAAATGCAAAACTGCCTGCTGAAAGAGGCACTGCCCCACTCAGAGAAACAAAATGCTTAATCAATAAGCTAATTAAATAGAAAAGGCTGAATCACTGAAAAGCTACTCGGGGCATCCACTTAACCTATGCTCCCAAGTTGCAGAATGAAACATGCTTTGTAGTCACATAGTGAAACACCTTTTCTAATGAAAAAAATATTGGCAAAACCACCGAGAAAAAGGTCTCAGTTTAAGTCATCCCTTGAGAGGAGGCGTGGAAAAGCCAGCACTGGCTTTGGAGGCTTTGGGGAAGTCCCAGACCTGGAGGGCTCAGCAAAGGCTGTGGCACATAGAGCAGTGGCTTTTCTTCTCCTCTCCTGGGGCTTTTTAAAGCAGCTTCTTTTTGTTCACACAGGGTTAAGGAGTGCTCATAAGCCAGTTCTGTGGTCTGCCCATACCACACATTACCTCATTTAATCCTTGCACAACCTCAAAGGCAAGAGTTTCTGTTCATTGAAATCCTGGCAGAGCCAGGACTTTTGACCTCCCACTGTTGTGGCTTCTGCAGGTTGTCAAAGACCCAGAAACTCTGTCCAGGGTTACCCTGGGGCTGCTGCGTATCTATAGGCTGAGTCCTTGGTCATGTCTTTCAAGAGAAGGCTGTGCTTTGGGGAATTCCCAAAAGGAAGAGACTAGATCTGCTGAGGACCAGGTTCATGCGCAAGGTCACACAGAGAGAGGTCCC
LOC101705173 PREDICTED: Heterocephalus glaber uncharacterized LOC101705173 (LOC101705173), misc_RNA.
Length: 680 bp>XR_206336.1 CCAGAACCGCAGCCAGGGGTTTACACGGGGGCGGGGCAGGGTCTTTCCAAGGCGCCTGCGCTGAAGCAGCTTCTCGGCGCCATTTTGTCCCGGCAACGGTGGCCGCAGCTCTATCGTATTTTAAGTTTGTGGCGTGAAGGGAGCAGAGTCGACGTCCGATAGCTCTATCTTAGTGCGAAGCCATCCGCCGTTCACTCCAGTACAGCACCTCGTGACGTTCAGAGGAATCACAGAGCCGTCGAAAAGTGCCCACTGACGATGTTTGCCCATCAAGAAGTTATCCTTGACTAAAGCTGAGGGGTTTTTTATTCATTCTTGAAGTAATTTCGAACGTGAAAGTTGTACTGAAGAAAGAAAGGACATCTCAGTGACAGTACTCCAAGGAGGTGAGTCTTAATGTCTCTTAAGAATCTGAGAACTACCACGAAGTTACCAGTAAATACTAGAGTAGAAGGATGGTATTTGAAAGATGTTTTGGTTGGTCAGGGTTCAGATGAATCTATTTAATTAGCTTTCTGATGTGATTTTTTTTTTTTTTTAGCATGCAATTCGGAAATTGGAACGTCCTTGTGGAGTACCTTGGTAGTATTTAGGTTTTTCCCGTGCCTTACAAAAATGATAATTTTAAAAATTATTCAGGAATAGCAAAGAAACTACTTCTAGCTTTAGAATGTGTAGAT
Exoc5 exocyst complex component 5
>XM_004871087.1 ATGGCGACGACGGCCGAGCTCTTCGAGGAGCCTTTTGTGGCAGATGAGTATATTGAACGTCTTGTGTGGAGAACTCCAGGAGGAGGTTCTAGAGGTGGACCTGAAGCTTTTGATCCTAAAAGATTATTAGAAGAATTTGTAAATCATATTCAAGAACTTCAGTTAATGGATGAAAGGATTCAAAGGAAAGTAGAGAAATTAGAGCAACAATGTCAGAAGGAAGCCAAGGAATTTGCCAAGAAGGTACAAGAGCTTCAGAAAAGCAATCAGGTTGCCTTCCAACATTTCCAAGAACTAGATGAGCACATTAGCTATGTAGCAACCAAAGTCTGTCACCTTGGAGACCAGTTGGAAGGGGTAAACACACCTAGACAACGAGCAGTGGAGGCTCAGAAATTGATGAAATACTTTAATGAGTTTCTAGATGGAGAATTGAAATCTGATGTTTTTACAAATCCTGAAAAGATAAAGGAGGCAGCAGACATCATTCAGAAGTTGCACCTAATTGCCCAGGAGTTACCTTTTGATAGATTTTCAGAAGTAAAATCCAAGATTGCAAGTAAATACCATGATTTAGAATGCCAGCTGATTCAGGAGTTTACTAGTGCTCAAAGAAGAGGTGAAATCTCCAGAATGAGGGAAGTAGCAGCAGTACTACTTCATTTTAAGGGTTATTCGCATTGTGTTGATGTTTATATAAAGCAGTGTCAGGAGGGTGCTTACTTGAGAAATGATGTATTTGAAGATGCAGCAATACTCTGTCAACGTGTGAACAAGCAAGTTGGAGATATCTTTAGTAATCCAGAAACAGTACTGGCTAAACTTATTCAAAATGTATTTGAAATCAAATTACAGAGTTTTGTGAAAGATCAGTTGGAAGAATGTAGGAAATCAGATGCAGAACAGTATCTCAAAACTCTCTATGATCTATATACAAGAACCACCAATCTTTCCAGCAAGTTGATGGAGTTTAATTTAGGTACTGATAAACAGACTTTCTTGTCTAAGCTTATCAAATCCATTTTCATTTCCTATTTGGAGAACTATATTGAGGTGGAGACTGGTTATTTGAAAAGCAGAAGTGCTATGATCTTGCAACGCTATTATGATTCAAAAAATCATCAGAAGAGATCCATTGGCACAGGAGGTATTCAAGATTTGAAAGAGAGAATTAGACAGCGTACCAACTTACCACTGGGGCCAAGTATTGATACTCATGGGGAGACCTTCCTATCCCAAGAAGTGGTGGTTAATCTTTTACAAGAAACCAAACAAGCCTTTGAAAGGTGTCATAGGCTCTCTGATCCTTCTGATTTACCAAGGAATGCCTTTAGAATTTTTACCATTCTTGTGGAATTTTTATGTATTGAACATATTGATTATGCTTTGGAAACAGGACTTGCTGGAATTCCTTCTTCAGATTCTAGGAATGCAAATCTCTATTTTTTGGATGTTGTGCAACAGGCCAATACTATTTTTCATCTTTTTGACAAGCAGTTTAATGATCACCTCATGCCACTAATAAGCTCTTCTCCTAAGTTATCTGAATGCCTTCAGAAGAAAAAGGAAATAATTGAACAGATGGAGATGAAATTGGATACTGGCATTGATAGGACATTAAATTGTATGATTGGACAGATGAAGCATATCTTGGCTGCAGAACAAAAGAAAACAGATTTTAAGCCAGAAGATGAAAACAATGTTTTAATTCAGTATACTAATGCCTGTGTAAAAGTCTGCGCTTATGTAAGAAAGCAAGTGGAGAAGATCAAAAATTCCATGGATGGGAAAAATGTGGATACAGTTTTGATGGAACTTGGAGTTCGTTTTCATCGACTTATTTATGAGCATCTTCAACAATATTCTTACAGTTGTATGGGTGGCATGTTAGCAATTTGTGATGTAGCTGAGTATAGGAAGTGTGCCAAAGACTTCAAGATTCCAATGGTATTACACCTTTTTGATACTCTGCATGCACTTTGCAACCTTCTTGTAGTTGCTCCAGATAATTTAAAGCAAGTCTGCTCAGGAGAACAACTTGCTAATCTGGACAAGAACATACTTCACTCCTTCGTACAACTTCGTGCTGACTATAGATCTGCCCGCCTTGCTCGACACTTCAGCTGA
unclassified transcription discrepancy mRNA
Length: 2349 bp Location: 142138..159388 Strand: +>XM_004871117.1 ATGACAGAGTTGTGTCCTCAGGTGCCCTCTGATGTCATCAGACGCCGGGGCTTTGACACATCTCACAGCAGCCTCCTACAAGCTCGAAATGAGCTTTGCTTGGCCTCTATTTATGAAACAGTTCATACCATAGATAACCTCAAAGCAGATTATGTTGTGCCACATTGTCCAAGCTATGGTCAAGTAGCCCTCCTCCCTCTGCCTCCCAGGGAATCCATTCTGCACCTAAAGCCATATTGGATACTTTAGACGAAAGAGCACCCCCGGAAAGCANNCAAGGCCACTCTGAGAACTCCTGTGAGCCTCCAAAGGGCTGTGAATGATGAAAAGAGAAAAGCTAGCGACGTGAAACCAGGTCCCCTGGCTTCACCCTCTCTCATCAAAGCATCATCTGGAAAACCTTTTGGGGACCTGTCTCCAAATGTTCTGTGCAGTATGAGTGGGGAGAATCCTGTAGAGAGCAGCTTGAATGTGAAAGCCAAAAAGAATGTCCTGGCTCCAGCGATCCACCAGGGCAAAGGAGAAGGGCTACTTGACATCTGGGCTGTCGTGAAACCAGGAAATACCAAGGAGAAAATTGCATTCTTTGTAGCCCACCAGTGTAGCAATAGAACAGGAGCTCTGAAAATAAAAAGCACCTGGGATATTGATGGAAGAGCTATTAAAAGAAGGAAAAAATCAGGGGATCTTAAAAAAGCCAAGATACAGTTAGAAAAGATGAGGGAAGTCAATAGCAAGTGCTACCAGCCTGAGCCATTTGCCTGTGGCATTGAGCACTGTTCTGTGCATTACGTGAATGACAATGGAGATGGAGTCTATGCTGGGAGGACTCTGTCAGTTATACAGATGGTTGCCTTCCTTGAGCAAAGAGCCAGTGCTCTGTTAGCTAGCTGTGCGAAAAATTGCACAAACTCACCTCCCATTGAGAGGTTTTCTGGTCAATCCAGAGGCATGCCCCCAACCCCTGAGTCCTTCTCTGACCCAGGAGCTTGTGAGGAACCCCTAGAAAGGGGAAATCCTGAGGTTGGAGAACCACAAAATGAACCAGTCCATGTGCTTGACATGGTAGCCAGGCTGGAGTCTGAGTGCCTGAAGAGGCAGAGCCAGCGTGAGCCTGGGAGCCTGTCATGGAACAACAGCTCCCGTCGAAATGTGGGCAGAGTGTTGCTTGCAAATGGCAGTCGGGCTGATGAAGGCAGAACAAAAAAAGGTGCATTGGAGGTATCTGACACTCAGGTGAATCCTGTGCAATCTGTCTCTGTGGACTGTGGCCCTGCAAGAGTTGACCATTGTTCTACAGGGGACTGGGCCTGGGACAGTACCCCTCAGGATTGTCCCTCATTGCAAGCAAGTGTGAATTTTTGCACAAGCAGTGTACTTTTAGAGCTAGGTCAGCAAACTACCACGAAAACGAGCAACAGGCATGATGTGGAAATGATAGATGAGCTTGATGGATTACCTTTTTCTTCTCACACTTGTCCCCGAGCCACTGAATTGCCCACAGATGCTGTTGTTTGTATGAGCACAGAGCTTGTGCCACTCACTAATCAAAAGCCTGATCAGAGAGCAATCAAATCTTTGTCCATTAGCGTCACTGTGTCCAAGGCAGAAAAAGACCAGTCTTCTAGCGTAAGCTCTCATGAGGAACCTCTTCCAGGGATGTTGTTCTTTCTGCCACCTGGTCAGCATCAGTTGGACTATTCCCAGTGGAATGTGAGCACAGCCCCAGAGTATTCGGAGGGTAGCCAGCTTGAAGGCATTGCTGAGGATGGTGCTGAGGACAGAGGTCTTTCAGGCCAGCCTTGTACACTACCAGCCTCTGCAGTGGAAAGCACGTTGCCAGTGCTTGAAGCATCCACTTGGAAGAAGCAAGTGTCTCATGACTTTCTGGAGACCAGGTTTAAAATCCAACAGCTTCTAGAGCCTCAGCAGTACATGGCATGTCTGCCCCACCACATTATGGTGAAAATTTTCAGGTTACTTCCCACCAGGAGTTTAGTGGCTCTTAAATGTACCTGCTGCTATTTCAAGTTTATCATTGAATATTACAACATCAGGCCAGCAGATTCACGCTGGGTTCGAGACCCACGCTATAGAGAGGATCCCTGCAAGCAATGCAAGAAAAAATATGTGAAAGGGGATGTGTCCCTATGCCAGTGGCACCCCAAGCCCTATTGCCAAGCACTGCCCTATGGGCCTGGATACTGGATGTGCTGCCACCGGTCTCAGAAGGGTTTTCCTGGCTGTAAGCTGGGGCTTCATGACAATCACTGGGTCCCTGTCTGCCACAGCTTTAACCGGGCAGTACATAAGAAAGCGAGAGGGAGTGAGACTGAAGAGGAATACTAA
Atg14 autophagy related 14
>XM_004871078.1 ATGGCGTCTCCCAGTGGGAAGGCAGAGCTGGCGCCTGACGCTCCCGGCTGTGGGGCCGTGCCACTGGCGCGGGACCTGGTGGACTCCGTGGACGATGCAGAGGGGCTATACGTGGCGGTCGAGAGGTGTCCGTTGTGCAATACCACCCGCCGGCGGCTGACTTGCGCAAAGTGCATCCAGAGCGGCGATTTCGTCTACTTCGACGGCCGCGATCAGGAGAGGTTTATTGACAAGAAGGAAAGGTTAAACCGACTTAAGAGCAAGCAAGAAGAATTTCAAAAAGAAGTATTAAAAGCTATGGAAGGAAAATGGATAACAGATCAGTTGCGATGGAAAATAATGTCCTGCAAGATGAGGATTGAACAACTGAAACAAACGATATGTAAAGGAAATGAAGAAATGAAGAAAAATTCAGAAGGTCTTCTCAAAACCAAGGAAAAGAACCAGAAGCTTTACAGTCGAGCACAACGGCATCAAGAGAAAAAGGAGAAGATTCAGAGGCACAACCGAAAACTTGGTGACCTGGTAGGAAAAAAAACTGTTGACTTAAGAAGTCATTATGAGCATCTTGCAGACCTTCGGCGAGCCCACATTCTAGAGCTCACCTCTGTCATCTTTCCAATTGAGGAAGTAAAGACTGGTGTAAGAGACCCTGCAGATGGGTCTTCAGAGAGCGACAGTGCCATGACTTCCAGCACTGTGAGCAAGCTTGCCGAGGCCCGGAGGACGACCTACCTCTCAGGACGATGGGTCTGTGATGACCACAATGGCGACACCAGCATCAGCATCACGGGGCCCTGGATAAGCCTGCCGAACAATGGGAACTACTCTGCCTACTACAGCTGGGTGGAAGAGAAGAAAACCACGCAGGGGCCTGACATGGAGCATAATAACCCTGCCTACACCATCAGTGCTGCACTGTGCTATGCCACTCAGCTGGTCAACATTTTATCTCACATACTCGATGTCAATCTTCCTAAAAAGCTGTGCAACAGTGAATTTTGTGGAGAAAATCTCAGCAAACAGAAGTTTACTCGAGCAGTGAAGAAACTGAACACAAATATCCTTTACCTTTGTTTTTCTCAGCATGTAAATTTGGATCAGTTACAACCACTGCACACCCTCAGGAATCTCATGTACCTGGTTGGCTCAGGCTCAGAGCACCTGGGCAGGTCAGGACCCTTTGAAGTGCGAGCAGACCTTGAGGAGTCCATGGAATTTGTAGATCCTGGAGTCGCTGGAGAATCAGATGAGAGTGGAGATGAGCACATAAGCGATGAGGAAACTGATTTGGGCACAGACTGGGAGAACCTGCCAAGCCCTCGGTTTTGTGACATCCCTTCCCAGCCTGTGGAAATCTCCCAGAGCCGGAGCACCCAAGTGTCCCCACCTGTCTCAAGCAGCAGTGCAGGGGGGATGATCTCCTCTGCTGCAGCCTCAGTGACGTCCTGGTTCAAAGCTTACACTGGACACCGTTAA
LOC101711048 THUMP domain-containing protein 2-like
Length: 540 bp Location: 349516..350219 Strand: +>XM_004871118.1 ATGGTAGACCGCAGCCCAGCTGTCTTAATTAAAGACCTTTCCAGTGGTTCCAGAGCTGCGACAAGAAAATCTGAAGATTTTGAGTTGCTTAAAGTCTCTGCCATAGAATTGCCACTGCCTTCAGAAAGTACTGATATTATTATTTCTGACATTCCATTTGGGAAAAAGTTTAAATTAGGAAAAGACATCAAAACCATTCTACAAGAAATGGAAAGAGTGCTGCATGTTGGTGGGACCATTGTATTGTTGCTTAGCAAAGATCATCACAGGCTCCTTAAAGATTGTGGAGGGAGCCACATGCCTTTGGATTCCAAGGGCACCCATGCCAATGAACCTGGAATTAAGAAGTGCTTGAATCCTGAAGAAAAAACTGACACATCAGAGAGAGTGACTTCTTCATATGAAGCTGGTAACCAGGAGTGTTCAGACAAAACGTTGACATTTGGCTCTTTGGTGCCAGTAGAACGCTACGAAGTTAGCCTGGGAAAAACAAATGCGTTCATATGTAAATATAAGAAGTCATCAGCTTCTGGACTGTAG
LOC101711799 cysteine-rich PDZ-binding protein-like
Length: 366 bp Location: 381373..376758 Strand: ->XM_004871119.1 ATGAAAGCAGTCGTAAGAGCTGCCAGAGCGTCTGCTCTTGAGCGGACCATCGGTAGAAGGACGGTGTGCGAAAAATGTGAAAAGAAACTTGGTACTGTTATTACACCAGACACATGGAAAGATGGTGCAAGGAATACCACAGAAAGCGGTGGAAGAAAACTGAATGAAAACAAAGCCTTGACTTCAAAAAAAGCAAGATTCGATCCCTATGGAAAGAATAAGTTCTCCACTTGCAGAATTTGTAAAAGTTCTGTGCACCAGCCAGGTTCTCACTACTGCCAAGGCTGTGCCTACAAAAAAGGCATCTGTGCGATGTGTGGAAAAAAGGTTTTGGATCCCAAAAACTACAAGCAAACGTCTGTCTAG
Peli2 pellino E3 ubiquitin protein ligase family member 2
>XM_004871081.1 ATGTTCTCCCCCGGCCCGGAGGAGCCCTGCGCCCCCGGCAAGGAGCCGGCCAAGTACGGGGAGCTGGTGGTGCTGGGGTACAATGGTGCTTTACCTAATGGAGACAGAGGACGGAGGAAAAGCCGGTTTGCTCTCTATAAGCGTCCCAAGGCAAATGGTGTCAAGCCCAGCACAGTCCATGTGATATCTACACCCCAGGCGTCGAAGGCTATCAGCTGCAAAGGCCAGCACAGCATCTCCTACACTTTGTCAAGAAACCAGACTGTGGTGGTGGAGTACACACATGACAAAGACACGGACATGTTTCAGGTGGGCAGGTCCACCGAAAGCCCCATTGACTTCGTGGTCACAGACACCATTTCCGGCAGCCAGAACAGCGACGAAGCCCAGATCACGCAGAGCACCATCTCCAGGTTCGCCTGCAGGATCGTGTGTGATAGGAGCGAGCCCTACACGGCACGGATATTCGCCGCTGGCTTTGACTCTTCCAAAAACATCTTCCTTGGAGAAAAGGCAGCAAAATGGAAAAACCCCGACGGCCACATGGACGGGCTGACCACCAACGGTGTCCTGGTGATGCACCCGCGAGGTGGCTTCACCGAGGAGTCACAGCCTGGGCTGTGGCGCGAGATCTCGGTCTGTGGGGATGTGTACACGCTGAGGGAGACCAGGTCGGCACAGCAGAGGGGCAAGCTGGTGGAAAGTGAGACCAACGTGCTGCAGGATGGCTCCCTCATCGACCTGTGTGGGGCCACACTCCTCTGGAGAACGGCGGACGGCCTTTTCCACGCTCCCACGCAAAAGCACATCGAAGCTCTGCGGCAGGAAATCAATGCTGCCCGCCCTCAGTGTCCTGTGGGTCTCAACACCCTGGCGTTCCCCAGCATCAGCAGGAAGGAGGTGGTGGAGGAGAAGCAGCCCTGGGCATATCTCAGCTGTGGCCACGTGCATGGGTACCACAACTGGGGCCACCGGAGCGACACGGAGGCCAATGAGAGGGAGTGTCCCATGTGCAGGACTGTGGGCCCTTATGTGCCTCTCTGGCTGGGCTGCGAGGCAGGATTTTACGTAGATGCGGGACCCCCGACTCACGCTTTCACCCCCTGTGGACACGTGTGCTCTGAGAAGTCTGCAAAATACTGGTCTCAGATCCCACTGCCCCATGGGACCCACGCATTCCACGCTGCCTGCCCTTTCTGTGCCACGCAGCTGGTCGGGGAGCAGAACTGCATCAGATTGATTTTCCAAGCTCCGGTTGACTGA
LOC101712506 histone H1oo-like
Length: 771 bp Location: 1509386..1508616 Strand: ->XM_004871120.1 ATGTTGGTCTGCCACCACCCCACAGTGCTGCGCATGGTGCTGGAGGCCCTGCAGGCAGGGGAGCAGCGCCATGGCACCTCAGTGGCAGCCATCAAGCTCTGCATCCTGCACAAGTACCCAACAGTGGATGTCATCCGCTTCAAGTACCTGCTGAAGCAGGCCCTGGCCACCAGTGTGTGTCATGGCCTCCTCACCAGGCCCCTCAACTCTAAGGCTAGGGGTGCCACTGGCAGCTTCAAGCTTGTCCCCAAGCTCAAGAGGAAGACCTGGCCCAGCAGGAAGCCCCTCCAGAGAGGGCTGGCCAGCTCCAGCAAGAAGGGGCCTGTAGAGCCAGGTGAGCCGAGGGTTCCCCCCAGGCTGGCCAAGGCCCTGGAGAAGGCCCCCCAAGGAGGCTGCAAGGGCACCAGGCCACAGCAGGGTGAGGCCAGGAAGGGCCCTCCAAAGCCAGTTGGGGCCTCCTCCAGGGTCCACCGGCTTGACAGGAAGTCAAAGGTCCTGGACACCCAGGGCAGGCAAGGAGAGGCAGGGGCCCCTGGAAAAACGGTAGCCATGGCCTCCAAGGCTGGGAAAGGGGCTGCGTCCCCAACAGGCAGGAAGCCAGCAATCAAGGCCACCTCAGGGCCTGGACCCGAAGCCACCACTGCTCCCAAGTTTGGGGGGCCCAGGCGGGGGATGCTGTCCCCAGCCAGGAGGGCTGGGGGCCTCTGCAGGCCCAGGCCACTGGTCAAGGCCTTGTCCTCACCGTCGTCATCCTCAGAGCCCAGGGGTTAG
Tmem260 transmembrane protein 260, transcript variant X1
>XM_004871082.1 ATGGGGCCTCAAGGCGACGGCGGGGCACGGCCAGGCGCGGCGGGGCCGCGGTGCTCCGGGGGCCTCCGCGGCGCCGTCGCCGTGTTCGCCGCTGTGGCCGCGGTGTTCACCGTCACCCTGCCCCCGTCGGTGCCGGGGGGAGACTCGGGGGAACTGATCACAGCGGCACATGAGCTTGGAGTTGCCCATCCTCCTGGCTACCCTTTGTTCATGCTGGTGGCTAAGCTGGCAATGACACTGTTGCCTTTTGGGACAGTCGCCTACCGGGTCAATCTCCTCTGTGGCTTATTTGGAGCAGTGGCTGCAGCATTACTGTTTTTCACTGTTTTCAGGCTTTCTGGCTCACGCGCCGGAGGAATCCTTGCTGCGGGGGTGTTTTCATTTTCTCGTCTAACATGGCAGTGGTCCATTGCAGCAGAAGTTTTTAGCTTAAATAATCTGTTTGTGGGGCTGCTTATGGCTCTTACTGTACATTTTGAGGAGGCAGAAACTGCAAAGGAAAGATCAAAGATAGCTAAAATTGGTGCTTTCTGCTGTGGCCTTAGTTTATGTAATCAGCACACAATAGTAATCTATGTTCTATGCATAATACCTTGGATTCTCATTCGACTTTTAAAAGAGAAGGAGCTGTCCCTGGGATCCGTGGTAAAGCTGGGCCTGGCCTTCTCAGCTGGCTTGCTGCCGTACCTCTACCTCCCTGTCTCGTCCTACCTCAACGAGGCCCGCTGGACCTGGGGAGACCAGACCACTCTGCGAGGCTTTCTGACACACTTGCTCAGGGAAGAGTATGGAACATTCAGCCTAGCCAAATCTGAAACAGGATCCAGTATGTCTAAAATACTGCTTTCTCAAGTAACAAGTATGAGGATGGAACTCTCACTCAACATTCAAGCTCTTGCAGTGTGGGCAAATATATGTTCAGCAAGAAAGAACAGACAGAATTCGCCATTAGTTTGGCTTTTTACTGGAATGTTTTACATTTACTCATTGTTCTTTGCCTGGAGGGCAAATTTAGATATTTCTAAACCACTTTTCATGGGTGTGGTGGAACGGTTCTGGATGCAGAGCAATGCAGTGGTAGCCGTCCTCGCTGGCCTTGGCTTGGCCACACTTGCATCCCAGACGAGTCGAGCTCTAAACAGCGGTGGGCTTCAGCGTCTGGAATGGCTCTCAGCAGCTCTGTTTGTGGTTTACCAAATGTATTCTAATTATAGCATTTGTGACCAAAGGAGCAACAATGTGATCGATATGTTTGCAAAGAACCTTCTAGACTCTATGCCCCATGATGCAATCATCTTACTCAGAGGCGATTTGCCGGGGAATGCTCTCCGTTACATGCACTACTGCGAGGGCTTAAGGCCAGATATTTCATTAGTGGATCAGGAGATGATGACTTATGAGTGGTATTTACCCAAGATGGCAAAACATTTGCCAGGTGTCCACTTTCCTGGGGACCGGTGGAATCCTGTGGAAGGAGTATTACCTACTGGAATGGTCACATTTAATCTTTATCGTTTTCTTGAAATAAATAAACAGAAGGACACATTTGTTTGCATAGGGATTCATGAAGGTGACCCAACCTGGAGGAAGACGTACTCACTGTGGCCTTGGGGGTCCTGTGACAAGTTAGTTCCCCTGGAGATTGCATTCAACCCCGAGGAGTGGGTTAAACGCACAAAAAATATCTATAACTGGACTGAAGAATACGGGAGGTTTGACCCATCTTCCTGGGAGTCTGTGGCCAATGAGGAGATGTGGCAGGCAAGGATGAAGACACCGTTTTTTATCTTCAACCTGGCAGAAACTGTGAATGTGCCTTCAGATGTGAAAGCTCAGCTCTACGCTCATGCATATAACCTTTATAAGGAGATTGTCTATTTACAAAAGGAACACCCAGTGAATTGGCACAAAAACTATGCCATCGCCTGTGAGAGGATGCTGCACTTTCAGGAGAGAGATGCAGATGCCGAAGTCCTGTTGTCTGAAACCATCAGACATTTTCATCTCTACACTCAGAAAGCACAGAATGATCCACAGCTCGCTGATATTTTAGCTGCTCTCAAGGACCTGAGAAAAAAACTGCAAAGTCTGAGAAATATTAAAAATGTCAGAGACAGCAAAATGTGA
Tmem260 transmembrane protein 260, transcript variant X3
Length: 1737 bp Location: 1609149..1663749 Strand: +>XM_004871084.1 ATGCTGGTGGCTAAGCTGGCAATGACACTGTTGCCTTTTGGGACAGTCGCCTACCGGGTCAATCTCCTCTGTGGCTTATTTGGAGCAGTGGCTGCAGCATTACTGTTTTTCACTGTTTTCAGGCTTTCTGGCTCACGCGCCGGAGGAATCCTTGCTGCGGGGGTGTTTTCATTTTCTCGTCTAACATGGCAGTGGTCCATTGCAGCAGAAGTTTTTAGCTTAAATAATCTGTTTGTGGGGCTGCTTATGGCTCTTACTGTACATTTTGAGGAGGCAGAAACTGCAAAGGAAAGATCAAAGATAGCTAAAATTGGTGCTTTCTGCTGTGGCCTTAGTTTATGTAATCAGCACACAATAGTAATCTATGTTCTATGCATAATACCTTGGATTCTCATTCGACTTTTAAAAGAGAAGGCCAAATCTGAAACAGGATCCAGTATGTCTAAAATACTGCTTTCTCAAGTAACAAGTATGAGGATGGAACTCTCACTCAACATTCAAGCTCTTGCAGTGTGGGCAAATATATGTTCAGCAAGAAAGAACAGACAGAATTCGCCATTAGTTTGGCTTTTTACTGGAATGTTTTACATTTACTCATTGTTCTTTGCCTGGAGGGCAAATTTAGATATTTCTAAACCACTTTTCATGGGTGTGGTGGAACGGTTCTGGATGCAGAGCAATGCAGTGGTAGCCGTCCTCGCTGGCCTTGGCTTGGCCACACTTGCATCCCAGACGAGTCGAGCTCTAAACAGCGGTGGGCTTCAGCGTCTGGAATGGCTCTCAGCAGCTCTGTTTGTGGTTTACCAAATGTATTCTAATTATAGCATTTGTGACCAAAGGAGCAACAATGTGATCGATATGTTTGCAAAGAACCTTCTAGACTCTATGCCCCATGATGCAATCATCTTACTCAGAGGCGATTTGCCGGGGAATGCTCTCCGTTACATGCACTACTGCGAGGGCTTAAGGCCAGATATTTCATTAGTGGATCAGGAGATGATGACTTATGAGTGGTATTTACCCAAGATGGCAAAACATTTGCCAGGTGTCCACTTTCCTGGGGACCGGTGGAATCCTGTGGAAGGAGTATTACCTACTGGAATGGTCACATTTAATCTTTATCGTTTTCTTGAAATAAATAAACAGAAGGACACATTTGTTTGCATAGGGATTCATGAAGGTGACCCAACCTGGAGGAAGACGTACTCACTGTGGCCTTGGGGGTCCTGTGACAAGTTAGTTCCCCTGGAGATTGCATTCAACCCCGAGGAGTGGGTTAAACGCACAAAAAATATCTATAACTGGACTGAAGAATACGGGAGGTTTGACCCATCTTCCTGGGAGTCTGTGGCCAATGAGGAGATGTGGCAGGCAAGGATGAAGACACCGTTTTTTATCTTCAACCTGGCAGAAACTGTGAATGTGCCTTCAGATGTGAAAGCTCAGCTCTACGCTCATGCATATAACCTTTATAAGGAGATTGTCTATTTACAAAAGGAACACCCAGTGAATTGGCACAAAAACTATGCCATCGCCTGTGAGAGGATGCTGCACTTTCAGGAGAGAGATGCAGATGCCGAAGTCCTGTTGTCTGAAACCATCAGACATTTTCATCTCTACACTCAGAAAGCACAGAATGATCCACAGCTCGCTGATATTTTAGCTGCTCTCAAGGACCTGAGAAAAAAACTGCAAAGTCTGAGAAATATTAAAAATGTCAGAGACAGCAAAATGTGA
Timm9 translocase of inner mitochondrial membrane 9 homolog (yeast), transcript variant X2
Length: 270 bp Location: 3475215..3467108 Strand: ->XM_004871108.1 ATGGCTGCACAGATATCAGAATCTGATCAGATAAAACAGTTTAGGGAATTCCTGGGAACCTACAATAAACTTACAGAAACCTGCTTTTTGGACTGTGTTAAAGACTTCACAACAAGAGAAGTAAAACCTGAAGAGATCACCTGTTCAGAACATTGCTTACAGAAATATTTAAAAATGACACAAAGAATATCCATGAGATTTCAGGAATACCATATTCAGCAGAATGAGGCCCTGGCAGCCAAAGCGGGACTTCTTGGCCAGCCCCGATAG
Timm9 translocase of inner mitochondrial membrane 9 homolog (yeast), transcript variant X1
Length: 348 bp Location: 3473888..3467108 Strand: ->XM_004871107.1 ATGCAGTCATATTCTAACACCCTCCTTTTTCAGGTAGAAATCAGGCCTCACTGGAACCCTGAGCAGAGGGTGGACAACTGCTTCTTAGGAACTCAGGAAACTCATGCGTCAGAAAAGTTTAGGGAATTCCTGGGAACCTACAATAAACTTACAGAAACCTGCTTTTTGGACTGTGTTAAAGACTTCACAACAAGAGAAGTAAAACCTGAAGAGATCACCTGTTCAGAACATTGCTTACAGAAATATTTAAAAATGACACAAAGAATATCCATGAGATTTCAGGAATACCATATTCAGCAGAATGAGGCCCTGGCAGCCAAAGCGGGACTTCTTGGCCAGCCCCGATAG