| Gene Name | Heterocephalus glaber isolate NMR 29 unplaced genomic scaffold, HetGla_female_1.0 scaffold00183, whole genome shotgun sequence |
|---|
Mylk myosin light chain kinase, transcript variant X3
Length: 5811 bp Location: 2213064..1952053 Strand: ->XM_004873623.1 ATGGCTGAGAAGACCTTGACCATGGGGGATGTGAAGCTGATTGCCTCATCGCACGTATCCAAAACCTCCCTGAGTGTGGATCCTTCAAGCATTGGCTCCCTACCACTGATGGAGGCCCCTGCTTTCATTCTGCCCCCTCGGAACCTCTGCATCAAAGAAGGCACCACAGCCAAGTTTGAAGGGCGGGTCCGGGGTTACCCAGAGCCCCAGGTGACATGGCACAAAAATGGGCAACCCATCTCCAGTGGGGGCCGCTTCCTGCTGGACTTCGGTGTCCGAGGGACTTTCAGCCTTGCTATTGGTGCTGTCTGTGGGGAGGACAAGGGAAAGTACACCTGTGAAGCCAGCAACAGTAGTGGTGCCCGCCAGGTGACTGTGGAGCTGACTGTGGAAGAGAGTTTTGCCAAGAAGCGTGGTCATCCTGTTGCTTCCAAAAGCCTGGGGGACAGATTTTCAGCCCTAGGAGTGGAAACACGTCCTAGCATCTGGGGTGAGTGCCCACCAAAGTTTGCCACCAAGCTGGGCCGAGCAGTGGTCAAAGAAGGACATATGGGACGATTCTCCTGCAAGGTCACTGGGCGGCCCCAACCTCAGGTCACCTGGCTCAAGGGAAATGTCGCACTGCAGCCGAGTGCCCGTGTTTCTATGTCTGAGAAGAATGGGATGCAGGTCCTGGAAATTCGTGCGGTCACCCAGGAGGATGTGGGCATGTACACATGCCTGGTGGTAAACGGGTCAGGAAAGGCCTCCATGTCGGCAGAGCTCTCCATCCCAGGTTTGGACAAGGTCAACAGGTCATTTGTGAGAGAAACAAAGGCCCCTGATGCTGACATGAGGAGGGAGGTGACCAATGGAATCAAAAAGGGGCTGAAACTGGACAGCCTGGAGACAATGGCCGGAAGTAAGAATAGCTCCAGCCTGCAGAAAGGTGGCTCTCTGGCCTGGGTCACAAACAGCCCTTCACATTCCCTGTGGGAGACTGAACCAGAGCCGTGCAGGGACTCCCCAAGAAAGGTCCAGAAGACTTCCAGCACCATCACCCTGCAGGCCACAAAAGTCCAGCCAGAACCCAGAGCACCAACCTTGGGGGCTCTGTCTCCTTCTGGAGAAGAGCAGAAGAGACCAGCTGCTTCCCAGCCAGCCACCCACCCCACCAGTTGGTCTGGCCTGGAAAGCCCAGAAGTTGTGAGTACAGTTGCCACCAGGAAAACCCCCATGGAAAGCCAGAGAGAGTCAACATTGCCCAAGTTTGAGAACAAGCCCCAAAGCCTAGAAGTCAGCGAACATGAAACAGTCAAGTTCAGGTGCGAAGTTTCAGGGATCCCGAAGCCTGAAGTGGCCTGGTTCCTGGAAGGTATCCCTGTGCAGACAAGAGAAGGCACCACTGAGGTTTATGAGCACGGGGGATCCCATTACCTCTGCCTGCTGAGAGCCCGGGCCAGGGACAGTGGCCAGTACAGCTGCACAGCTTCCAATAGCCAAGGCCAGGTGTCCTGCACCTGGACCCTCCTAGTGGAAAAGCCAGTCGAGATGGAGGTGGTTCCCTCCTTCTCCAGTGTCCTGAAGGACTGCACCGTCATCGAGGGCCAGGATTTTGTGCTGCAGTGCTCTGTGCAGGGGACCCCAGTGCCCCAAATCATTTGGCTACTCAATGGGCAGCCCATCCAGTATGCGCACTCCACCTGCCAGGCTGGCGTGGCTGAGCTCCGCATCCAGGACACCCTGCCAGAGGATGATGGTGTCTATACCTGTCTGGCTGAGAACGCCTTGGGGCAAGTGTCCTGCAGCGCCAGGGTCACCGTCCATGAAAAGAAGAGTGACAGGAAGAGTGTCCTTTTGCCTCTGGCTCCCACCAAGACCACCGAACCTATCTTCCTGCAGGGCCTCTCTGATCTCCGAGTCATGGATGGAAGCCAGGTCACCATGACAGTCCAGGTGTCAGGGAATCCGCCCCCCGAGGTCATCTGGCTTCACAATGGGAATGAGATCCAGGAGTCCGAGGACTTCCACTTTGAACGGAGAGGCACCCAGCACAGCCTCTGCATCCAGGAGGTGTTCCCCGAGGACACGGGCACCTACACCTGTGAGGCCTGGAACAGTGCTGGGGCAGTTCGCACCCAAGCCATGCTCATGGTCCAAGAGCCACAAGATGGCACCCAGCCCTGGTTCATCAGCAAGCCTCGTTCAGTGACAGCCTCTCTGGGGCAAAGTGTCCTCATCTCCTGTGCCATCGCTGGTGACCCCTTTCCCAGCGTGCACTGGCTCCGAGATGGCAAAGCCCTTTCGAAAGACACCGGCCACTTTGAGGTGCTGCAGAATGAGGATGTGTTCACCCTGGTTCTGAAGAATGTGCAGCCCTGGCACGCCGGCCAGTATGAGATCCTGCTCAGGAACCAGGTTGGCGAATGCAGCTGCCAGGTGTCGCTGATGCTACAGAACAGCCCTGCCAGCTCCCTCACTCGGGGGCGGGAGGCTACCAGCCGTGAGGGCCTCTGTGGTGGAGGAGTTGGTGCTGATGGTGGTGGTGACTGCGATGGGACCCTGAGGCCTGGCTGGTTAGCAAGAGGGCAGGGTTGGCTGGAGGAGGAATCCGGTGAGGACGTTCGGGGCCTGCTGAAGAGGCGCGTGGAGACCAGGCTGCACACAGAGGAGGCGATCCGCCAGCAGGAGGTGGAGCAGCTGGATTTCCGTGACCTCCTGGGGAAGAAGGTGAACACCAAGACAGTGTCCGAAGAAGACCTCAAGGAGATCCCAGCTGAGCAGATGGATTTCCGTGCCAACCTGCAGAGGCAAGTGAAACCAAAGACTGTGTCTGAGGAAGAGAGGAAGGTGCATAGTCCCCAACAGGTCGACTTCCGTTCCGTCCTGGCCAAGAAGGGGACTCCCAAGACCCCCGGGCCTGAGAAGGCACCACCTCCAAAACCTGCCACCCCGGATTTCCGCTCGGTGCTGGGCAGCAAGAAGAAAACACCAGCAGAGAATGGTAGCAGCAGTGCAGAGGCCCCAGATACCAAACCGCCACAAAGTCCCATGTCTGTGGGCAATTCAGAGGTTGCAGGATCCCTGAAACCCATGGGCAACGCCAAGCCTGCCGAGATCATGAAACCTGTGGGCAACACTCAGCATGCAGAGATTCTGAAACCTGTGAGCAACGCACAGCCTTCTGGGTCCCTAAAACCCATGGGCAATGCCAAGCCTGCTGAGACCCCGAAACCCCTGAGCAATGCCAAACCTGCTGAAATCCTGAAACCATGTGGGAAAGAAGAACTCAAGAAGGAAGTTAAGAATGATGTGAACTGCAAGAGAGGGCGTGCAGGGGCCACAGATAATGAGAAAAGACCAGAGAGCCAAGGGACGGCCCCGACCTTCATGGAGAAGCTACAAGATGTCCATGTAGCAGAGGGTGAGAAACTGCTACTCCAGTGCCAGGTGTCCTCTGACCCCCCAGCCACCATCACATGGACACTGAATGGAAAGACACTCAAGACCACCAAGTTCATCATCCTCTCCCAAGAAGACTCAGTGTGCTCTGTCTCCATCGAGAAGGCTCTGCCTGAGGACAGGGGCGTGTACAAGTGCGTAGCCAAGAACGGTGCTGGCCAGGCAGCATGTTCCTGCCAAGTCACCGTGGACGATGCACAGGCCGGAGAGAACACCAAGGCCCCGGAGTTGAAATCCCGGAGGTCCAAGAGCTCTCTTCCCCCTGTGCTAGGAACGGAGAGTGATGCAACTGTGAAAAAGAAACCCACCCCCAAGACATCTCCGAAGGCAGCTATGCCCCCTCAGATCATCCAGTTCCCGGAGGACCAGAAGGTGCGTGCAGGAGAGCCTGTGGAGCTGTTTGGGAAAGTGGCCGGCAGCCAGCCCATCACCTGTACCTGGATGAAGTTCCGAAAGCAGATCCAGAACAGTGAGCACATCAAGGTGGAGAACAGCGAGGGGGGCAGCAAGCTCACCATCCTGGCTGCGCGCCAGGAGCATTGCGGCTGCTACACGCTGCTGGTGGAGAACAAGCTGGGCAGCAGGCAGGCCCAGGTCAATCTCACTGTCGTGGACAAGCCAGACCCCCCAGCTGGCACACCTTGCGCTTCTGATATCCGGAGCGCCTCACTGATCCTGTCCTGGTATGGCTCTTCCTATGATGGTGGCAGTGCCGTACAGTCCTACAGCGTTGAGATCTGGAACTCAGTAGACAAGATGTGGAAGGAACTAGCCACATGCCGCAGCACCTCTTTTAACATCCAGGACCTGCTGCCTGACCGGGAGTATAAATTCCGTGTTCGAGCAATCAATGTCTATGGCACAAGCGAGCCAAGCCAGGAGTCTGAGCTCACCTCAGTGGGAGAGAAACCTGAAGAGCCGAAGGATGAAGTGGAGGTGTCAGATGATGATGAGAAGGAGCCTGAAGTGGACTATCGGACAGTGACCGTCAACACTGAACAAAAAGTATCTGACCTGTACAACATCGAGGAGCGATTAGGATCTGGGAAATTTGGACAAGTTTTTCGACTTGTAGAAAAGAAAACTGGAAAAATCTGGGCAGGGAAATTCTTCAAGGCATATTCAGCAAAAGAGAAAGAGAATATCCGGGAGGAGATTAGCATCATGAACTGCCTTCACCATCCCAAGCTGGTCCAGTGTGTGGACGCCTTCGAGGAGAAGGCCAACATCGTGATGGTGCTGGAGATCGTGTCAGGTGGTGAGCTGTTTGAGCGTATCATTGACGAGGACTTCGAGCTGACAGAGCGGGAGTGCATCCAGTACATGAGGCAGATCTCGGAGGGGGTGGCCTACATCCACAAGCAGGGCATCGTGCACCTGGACCTCAAGCCTGAGAACATCATGTGTGTCAACAAGACGGGCACCAGAATCAAGCTCATCGACTTCGGTCTGGCCCGGAGGCTGGAGAATGCAGGGTCTCTGAAGGTCCTCTTTGGCACCCCAGAGTTTGTGGCTCCTGAAGTGATCAACTATGAACCTATCAGCTACGCCACGGACATGTGGAGCATCGGGGTCATCTGCTATATCCTGGTCAGCGGTCTTTCTCCCTTCATGGGTGACAACGACAATGAGACCTTAGCCAATGTTACCTCAGCCACCTGGGACTTCGATGACGAGGCATTTGATGAGATCTCCGAGGATGCCAAGGATTTCATCAGCAACTTGCTGAAGAAAGATATGAAAAACCGCTTGAACTGTACACAGTGTCTTCAGCACCCATGGCTAATGAAAGATACTAAGAACATGGAGGCCAAGAAGCTGTCCAAGGACCGGATGAAAAAGTACATGGCAAGAAGGAAATGGCAGAAAACAGGCAATGCTGTGAGAGCCATCGGAAGACTGTCCTCTATGGCAATGATCTCAGGGCTCAGCGGCAGGAAGTCCTCAACAGGGTCACCGACCAGCCCTCTCAATGCAGAGAAGCTAGAATCTGAAGAAGATGTCTCCCAGGCTTTCCTCGAGGCCGTAGCTGAGGAAAAGCCCCACATAAAACCCTATTTCTCTAAGACCATTCTTGACTTGGAAGTTGTAGAGGGAAGTGCTGCTAGATTTGACTGTAAGATTGAAGGATACCCAGACCCTGAGGTCGTCTGGTTCAAAGATGACCAGTCGATCAGAGAGTCACGCCACTTCCAGATAGACTACGATGAGGATGGGAACTGCTCTTTGATTATTAGTGATGTTTGTGGGGATGACGACGCCAAGTACACCTGCAAGGCTGTCAACAGTCTTGGAGAAGCCACCTGCACAGCAGAGCTCATTGTGGAAACCATGGAGGAAGGAGAGGGGGAAGGGGAAGAGGAAGAATGA
Parp14 poly (ADP-ribose) polymerase family, member 14, transcript variant X2
Length: 5451 bp Location: 969204..1022506 Strand: +>XM_004873607.1 ATGGCTGCGCCCCGCTCCTTCCCGCTGCTGGTCGAGGGGTCCTGGGGCCCTGACCCTCCCAAGAACCTCAGCACCAAGCTGCAGTTGTACTTCCAGAGCCCCAAGCGGTCCGGCGGCGGGGGGGAGTGTGAGGTCCGCAGGGATCCGGAGAACCCGGCGCGCTTCCTGGTGCTCTTCTCCGAGGACGTTCGGCAGAAAGTTCTGCAAAAAATGAATCACGAGTTAGTCTTGCCAGGAAAAGGGACATTCCAGTTAACTGTCCAGCTGCCCACTGCTCCAGATGAACCCCCAGTCTCTAAGGAGAAAATTTCAGCAAATGTAAGTAGACCTGAGGGGCCACAAGAGGAATCCAAGATGGAAGAAAATGTCAAAGAACCAGAACCAGATATGGAACTCTCTCTCAATAGTAGATCAGAAAAGATGGAAGATCTCCCCAAAGAATGTGAAAATGTTTCCAATTTGGTGGCATTTGAAAATATCAAGGCAAACATGACTGACATGATGATGACCTTGTTAGTGGAGAATGTAAGTGGCCTGACCAGTGATGACTTTCAGGTGGAAGTAATACAAGATTTCAGCGTTGCTGTGGTTACCTTTAAAAAACATACAGACACTATGAAATTTGTTCATGATTGTGCCAGACACCATTCGATTCAACAACTAAAACTGTTTCCAAGACTTCTGGAAGAGACAAAGACAATCCGGGTTGAAAACCTGCCCCCTGGTGTTGATGACTACCAGTTACAACTTTTCTTTGAAAATCCTTTCCATGGAGGGGGAAGAGTGGCCCATGTTGAATGCTTTCCTGAAGAGAGTTCAGCTCTGATTGAATTTTGTGACAGAAAAGTGTTAGATACCATCATGACCAAGAAACACAACTTCAATAAAATGCCGCTTTCTGTCTTCCCCTACTATACCTCTTTGGGCACAGCCTTGTATGGAGAGGAACAGCCTCTGATTAAGCTACCAGCACCATTCCAAGAGTCACTTGATCTGCCTTTATGGAAGTTCTTTCAGAAAAAGGATCACTTGATTAAGGAACTGGATGATGAAATGAGACGTCATCACTGTGAGCTAACATGGTCCCAACTGGACAGTAAAGTTACCATCAGACCTGCAGCCACCTTAGTCAATCAAGGAAGACTGAGAATCAAGACATGGCAGAAAGATGCTTCTACAGCACTCTATGGCATCAGATCTACATATGCAGTTACCTCATTTAAGGTGGCTCCAGTAGTTTGGGACATCATAAAAAATGACTTAGAAGATGATAGGATTTTGATTGAGTTTGATACATCTAAGGAGACTGTAACCTTAGCAGGAAAATCAGAAGATATCCAAAATGTTCATCCACAAATCAAAGAATTACTAGAAAGAACGACTCAAAAAATTCAAAGGGAAGAGCAAAGTCTGAAGGAAAAAGTGGCCATTTCTTCAGAAAAGCATTTTCTTTTGCACCACAGTGGTGTTCTGCAGCATGTGTGCACAGAGTGCCCGGAGATGGAGATTTGTTATGATGCAGACACTCAGTGCCTGTGCCTTAAAGGACCCCAGGCAGATGTGTACAAAGTAAAGTGTGAAATCCAGGAAAAGGTGTACACCATGGCTAAGAAAACCACTGAGGTCTCTCCTGAGGTCTTTCAGTTTTTGCAGCAAGTAGACCATAAAGAATTCTCTAAGTCTTTTTTTATAGCACAAAAAAATCTTACCGTTTATGAGCTCAAGGACACAACTGTTCTCTTAACCAGCTGTTCTTCTGAAGTCTTGGTAGAAGCTGAAAAACAAATGCTCAGTGCCTTAAATTATAAACGCATTGAAGTTGAGGACAAGACAATTCTTACAAACAACAAATGGAAAAAGTTCATTGGCAATATCCAAAAGAAATCTAATTCCTCCACATGCATTATGATAATCAGTGAATTCACTGTAGGAAGCCCAGCTGGAGTCATTGTTGCAGGCCTTGTGAAGGAAGTAAATGAAATCTATAGTGTGATTTTTGACTTCTTGGAAAAAAACATGAAAATAGAAAGATTGATTGAAATAAAGCCATCCTTGGTTATAGACTATTTAAAGGCAGAAAAGAAGCAGTTCTGGTCAAAAATAAAGAAGGGAGATGTGCAGGTAGTTTTCAATCCAGAGCACAACCAAAAAGGCATTTTACTAATTGGACCCAAGTGCCAAGTTCTAGAAGGTATGAATTTTGTCAAGGAAGCTGAGAAGTCTGTCTTTGTTAAAAGCATCCCTATTGACAAGCCAGGAGCCAGGCAGTTCTTCCAAGATAAAGCATGGTTTTATAGAGGTGAGGTCAGGAAGTTATATGGTTGTTTCATTGAACTCCTAGAGAATGAAGAAAAGAAGGTAGGAGGCAAAACTGCTGGGCAGAAGTACCTCATCCAGAGGGAAGTGGCCCCTGGTATCTTCCTGATTGTCCAGCAGGGTGACTTGACTCAGTTTCCAGTCAATATAGTGGTGAATGCAGCAAACGAGGACCTCAAGCATATTGCCGGCCTTGCTGCTGCTCTCTCAAAAGCAGCTGGCCCGGAACTTCAAGCAGACTGTGACAAGATAGTGAAGAGAGACGGCCGGCTCCTGCCAGGCAATGTCGTCCTCTCGAAGGCAGGGAAGCTCCCTTGCCAGCATGTGATCCATGCAGTAGGGCCCCGGTGGGATGGACATGAGGCCCCAAGGTGCGTGTACTTGTTAAAGAAAGCTGTGGAAAATAGTCTTCTTTTGGCAGAAAAACACAAGTGCCGGTCCATAGCCATTCCTGCTATTAGTTCTGGAGTCTTTGGCTTTCCCTTACAGCAGTGTGTGGAGTCCATTGTTCTGTCCATCAAGGAAAACTTCCAACATAGGCAGGATGGGTGGACCTTGAAAGAGATTTATCTTGTGGACTCATTGGAGAAGACAGCGGAGGCTTTTGCTAAAGCTGTGACAACTATATTTAAATACCCTCTGCCTGAGAGATCATCCCCACCTAATACAGTGTCCCAGCCCAGTATAACTTCCCTGCACAGTGGACCAGCAGCAAAACCTGTGACAACATCCCAGGAAATGGCATCTCTGACAGCCCCAGGAGGCCTGAAGATCCTATTGGTGAAAAATGGTGTGCAGGATGCTACGACTCATGTTGTTGTTAACTCCATTCCTTCGGATCTTGGACTCAACCGAGGGCCCCTTTCTCGGGCCCTCTTGGAAAAAGCTGGGCCAGAAATCCAGAAGGAGCTGTATGCAGCTGGACAAGGCATCACTGTGGACGTGGGCGCGATTCTCCAAACAAGTGGTTGCAATCTGCAGTGCCGCCATGTGCTTCACGTGGTGACTCCATCATGGACAAATGACACATCTGCACAAAAGGTGGAGATCATGGAAGACATAATCAGACACTGTTTGGAGATCACTGAGAGACTGTCTTTACAATCAATTGCATTTCCAGCAATAGGAACGGGAAACTTGGGATTTCCTAAAACCGTACTTGCTGAATTACTCCTTTCAGAAGTGCTCAAATTTAGTAGCAAAATGCAGCTGAAAACTTTACAAGAGGTTCACTTTCTGGTGCACCCAAGTGATCATGAAAATATTCAGGCCTTTTCAGTTGAATTTGCCAGAAGGAGTAATGGAAATCTTAATGATACAGTTCCCAAGGCTGAAGATGATAAGCAAGGTTTCTATGGCACTATTTCGAGCCCTAATTTAGGAGTGCATGAAATGAAGATCGGCCCCATCCTCTTCCAGGTGGCCTCTGGGGATATCACCAAAGAAGCTGCAGATGTGATTGTAAATTCAACGTCACACAAATTTAATCTTAAAGCAGGGGTCTCCAAAGCAATTTTAGAAAATGCAGGACAAGAAGTGGAACAGGAATGTGCTCTCCTAGGTCAACAGGGCAAAAATGAGTATATAATTACCAAAGGTGGATCACTGATGTGCAAGAACATTATTCATGTTGTTGGAGGTAGTAATGTCAAGAGATCAGTTTCTTGTGTTCTACAAGAAACTGAGAAACGGAATTACTCCTCCATTTGCCTTCCAGCCATTGGGACAGGAAGTGCTGGACAAGACCAAAACAAGGTTGCTGAAGCTATGCTTGATGCTATTGAAGACTTTACCCAGAACGGGTCAGTTCAATATGTGAAAAAAGTTAAAGTTGTTATCGTTCAGCCCCAAGTACTGGATGTGTTTTATGCCAACATGAAAAAGAGAGAAGGGTCTCGAGCTTCTCACCAACCATCGATGATGTCTAAATTTGCCTCCTTTTTTGGCCTTTCAAAACCACCTCACCCCAAAAAGAAGCCCTTGGTTTTGGAAAAGAAAACAGAACTGGCGGTCTTCCAGTTGTGTGGTGAAAACAGCAACTGCGTGGACCAAGCTATCCTCTGGTTAAAGGACCTGATTACAAAGGAGCAGTATTCTTACACCAATACAGATGAGTGTATGAAAGATTTTGATGAAAAGGAGTATCAGGAACTGAACGAGCTGCAGAAGAAGTTAAATATTACCATTTTTCTGGACCGGAAGAGACCTTTCATTGAAGTTTTGGGAATTACCAGAGATGTGATGGAGGCCAGAGATAAAATTGAAGAAATGGTCAAGAAGGTGAGATCAGCCAAAGAAGAAGAAAACAGGGCAGATTGTATCAGTGAATTTATAGAATGGCAATATTGTAAGGATAACACTTTTCATCGTTTTGACAAAATAACCAATCTGCAATTGGAAGATGCAAGGAGAGCAAAGAACAAGAGCATTGTTGTCAAAATTAACAATCAATCCTACACAGTGAACTTGAAAGACTTCACTGCCAGGAGTCCACATGGACACAGTGTAACTATTCAGCGCTTCACAAAATCTGAAGTTGACCTTCCTGGGCACTGGAGTGACATGAAGCAGCAGAATCTCTGTGTGGTCCAGCTGCAGCCTGGTGATACGGAATTCAATACCGTGGCAGGAACGTTTAATCAGACCTGCTCACAATTTGTCATTGAGAAGATTGAGAGGATCCAGAATCCAGATCTCTGGAATAGCTACCAGGCAAAGAAAAAGATCATGGATGGCAAGAATGGCCAGGTCATCAATGAGAAGCTGCTCTTCCATGGCACAGATGTTGACTCGGTGCCTCACGTCAATGGGAATGGATTTAACCGCAGTTACGCTGGAAAGAATGCTGTGGCATATGGAAAGGGAACCTATTTTGCTGTCAGTGCCAGTTATTCTGCCAATGACACATACTCCAGACCAGATGCAAATGGGAAAAAGCATATGTATTATGTGCGAGTACTCACTGGAGTGTACACAAACGGAAACAGCTCGTTAATTGTGCCTCCTTCAAGGGACCCTCAAAATCCTACTGACCTGTACGACACGGTCACGGACAATGTGCACAACCCGAGTTTATTTGTGGTGTTTTATGATTACCAAGCATACCCAGAATACCTCATTACTTTTAGAAGATAA
LOC101696645 WD repeat-containing protein 5B-like
Length: 975 bp Location: 766403..765338 Strand: ->XM_004873601.1 ATGGCATCAGAGGAGCCAGGAGGTGCCTTCTCACCAGCCTATCGGCGCCAGGAAGTACCTGAAAAACCGAACTATGCCCACAAATTTACTCTCGTGGGGCACACGGCAGCAGTGTCATCAGTTAAGTTTAGTCCTGATGGTGAATGGATAGCAAGTTCTTCTGCTGATAAAGTAATTATAATTTGGGGAGCATATGATGGAAAATACAACAAAACACTGTATGGTCACAATCTGGAAATATCAGATGTTGCCTGGTCATCAGATTCTAGTTGTCTTGTTTCTGCCTCAGATGATAAAACTCTAAAGATATGGGCTGTGAGATCTGGAAAATGTTTGAAAACACTGAAGGGGCACAATGATTATGTCTTTTGTTGTAATTTCAATCCTGCATCCACTCTAATCATTTCAGGATCTTTTGATGAGAGTGTGAAAATATGGGAAGTAAAAACAGGAAAGTGCCTTAAGACTTTGTCTGCTCATTCTGACCCAGTTTCTGCTGTTCATTTTAATAGTACGGGGTCCTTGATAGTGTCAGGCAGCTACGATGGTCTCTGTAGAATCTGGGATGCTGCCTCAGGTCAGTGTTTAAAAACACTTACTGTTGATGACAATCTTCCTGTCTCTTTTGTAAAATTTTCTCCAAACGGTAAATATATTCTCACTTCAACTTTGAACAATACTCTTAAACTGTGGGATTATAGCAGAGGCAGATGCTTGAAGACATACACTGGTCATAAGAATGAGAAATACTGCATATTTGCCAATTTTTCAGTTACTGGTGGAAAGTGGATTGTGTCTGGTTCGGAGGATAACCTGGTTTACATTTGGAACCTTCAGACTAAAGAGATTGTACAGAAATTACAAGGTCATACAGATGTTGTGATTGCAGCAGCTTGTCATCCTACAGAAAACATCATTGCATCAGCAGCATTAGAAAATGATAGAACAATTAAACTATGGATGAGTGACTACTAA
Ccdc58 coiled-coil domain containing 58, transcript variant X2
Length: 369 bp Location: 739583..696497 Strand: ->XM_004873598.1 ATGAGGACAATTGATGACAGAATAGTCCATGAATTAAACACTACGGTTCCAACAGCTTCCTTTGCAGGGAAAATTGATGCCAGCCAAACCTGTAAACAACTTTATGAGTCTTTGACGGCAGCTCATGCTAGTAGAGACAGAGTCATAAAAAATTGTATAGCCCAGACCTCAGCAGTAGTAAAAAACCTACGAGAAGAGAGAGAAAAGAATTTGGATGATTTAACGTTATTAAAGCAACTTAGAAAAGAGCAGACAAAGTTGAAATGGATGCAGTCAGAACTGAATGTTGAAGAAGTGGTAAATGACAGGAGCTGGAAGGTGTTTAATGAACGCTGCCGAATTCACTTCAAGCCTCCAAAGAATGAATAA
Ccdc58 coiled-coil domain containing 58, transcript variant X3
Length: 309 bp Location: 726766..696497 Strand: ->XM_004873599.1 ATGGCGGCGCCCAGTGGCGGTGTGAATTGCGAGGAGTTCGCCGAGTTCCAGTTGACGGCAGCTCATGCTAGTAGAGACAGAGTCATAAAAAATTGTATAGCCCAGACCTCAGCAGTAGTAAAAAACCTACGAGAAGAGAGAGAAAAGAATTTGGATGATTTAACGTTATTAAAGCAACTTAGAAAAGAGCAGACAAAGTTGAAATGGATGCAGTCAGAACTGAATGTTGAAGAAGTGGTAAATGACAGGAGCTGGAAGGTGTTTAATGAACGCTGCCGAATTCACTTCAAGCCTCCAAAGAATGAATAA
Fam162a family with sequence similarity 162, member A
>XM_004873600.1 ATGGGGAACCTGCGCAGCTTTCGCCTGGCGGCGGGAAATTTTTTTAGGTTATATGAAAGCAGTGCTTCCACATCACTAAGGTTTACCAGAAACTCTGATTTGAAGAGATTGAATGGATTTTGCACCAAACCGCAGGAAAGTCCCAAAGATCCAACCAGCACTTACAGCCACAGAGTGCCGCTGCACAAACCCACGGACTGGGAGAAGAAGATCCTGATATGGTCAGGTCGCTTCAAGAGCAAGGACCAAATTCCAGAGGCTATCTCGTTTGACATGCTTGATTCTGCGAAGAACAAGTTGCGGGTGAAGATAAGCTACATAATGATTGCCCTGACGGTGCTAGGATGTATCGTGATGGTTATTGAGGGTAAGAAGGCTGCCAAAAAAAATGTGTCTTTAACAAACTTGAACTTAGAAAAGAAAGCTCATCTGAGGGAGGAAGCAGCTATGAAGGCCAAAACAGAGTAG
Dtx3l deltex 3-like (Drosophila), transcript variant X3
Length: 1935 bp Location: 871436..878656 Strand: +>XM_004873605.1 ATGGAGCCCCTCGCCCGCCCACCGTCCCCGCTCCTCGTGCGGGTGTCCGAGTACGCGCCCCGGCTTCGCTGGAAACTGGAAAGCTATTTCCAGAGCCGGCAGTCCGGCGGCGGGGAGTGCACTGTCCAGCCCTTGGACCGCAGGGCCCAGGACACTTTCCTGGTGGAGTTCAGAGAAAGGGCAGCCAAGGAGAGAGTGTTGAAAAAGAGAGAGCACCAAATTCAGGCTGACAGCAAACCTGTGACCATTTTCCTGGAAACCACTGAGGATCCAACAGAGATGAACCCGGAATCCAGCATTACGTTGCCCCAGTCACAAGCTGAAACCCAGTTTGGTGCAAAGCCTTCCCATGAAGGATCTGTTCCCAATGCTGTGGACCCCTGTGTCCAAAAGATCTTTCTCACTGTAACAGCTGACCTGAACTGTGACCTGTTCTCCAAAGAGCAGAGGTCACAGGTAGCCACTGTCTGCCCCACTATCAAAAAGACGGAGGGTCACAATGGAATTGAGAGTGTGTGTGGTGACTTCAGAGATATTGAAAAAATATACCACTTCTTGAGTATGCAGCTCCTGGGAAATGAGCAGAAACAGGAGTCTTCCCCTTCCACCACGGAGAGGAAGCCCCCTGACCAGCATGACTGGGTCAGCAGATTTTCTCCTTCTGAACCCCAAACCAGCTCAGAAGAAAAAGGAAACCATTTTGAAGTTCCCTTGTTTTTGCTTGAATACTTCAAATATACCTGTCCTGATAAAATAAATTCAATCAAGGAGAGATTTGGTGTAAACATCAAAATTCAATCCAGTTCCCTTCCCAGTATGGTCTGTGTAGACTTCACCTGCAGTCAATCAGGTGACCTAGAAGCAGCTCGAGAGTATTTTGTCAGTGAGTTTCAGAAGAAAACAGAATCTCTGAAGCATGAACATGTCCCTTTAGCAGACAGTAAACAGGCAAATGAAATCAAACACAAACTAAGCTGCTGTTTTCCAAAGCTTCTCATAAAGGAGCACAGAAAGGGGCTAACTCTCCTCGGAACCATAGACGACATCACAACTGCCAAACAAAAAATGTCTGAAGGTTTTGTCAAGCCACCTGTGAAAATCTTGGTCCCCAATTCCATGACCAATGCAATTGAGGTTGATACTGCCCGTTATAAACTTCTAGCTGAATTACTCCAGGAGATAGCAGAGATAGAGCAGAAGTACAACACTCACTGTAAGGTTTGGGAGAAAAACCAGAAAACCTACATTCAATTCAATCCTAAGGACAAAGAGGTAAATCTGTCTGTGCATGCTTATGCAAGCTTCATTGATGCCCTTCAGCATGCCTCCTCTCTGCTGATGAGTGAAGTCCTTCTACTGAAAGATTTGGGTAAGGAGAGAAAACACCTGCGCAGGACCAAATTTGCTGATGACTTTAGCAAAAAACATCCAAATGTACATTTTGCACTGGATCAAGCGTCAATAACTTTGACCGGCTTGCCAGATCACCTTGCACAGGCCAAGCAGTTTTTTTTACAACTGTTGCCATCGGTTGGAGAGAAACTGAACGATGATCTTGAAACCCTCATACACCTTGATAGTAATGACTCAAAAGCAGCTTCACCTCCACTCAAGGGCTCTGCAAGTTCTGTGAGCTCAGAAATGGATAAGAAAGAAACAGACATCTGCAGCATCTGCATGGACACCATTAGTAACAAATATGTGCTTCCAAAGTGTAAGCATGAATTCTGTGACCCTTGTATCAAGAAATCCATGTCATATAAGCCAGTATGTCCTCTATGTCAGACTTCCTATGGTATCCAGAAAGGGAATCAGCCAGAAGGAACCATGACTTACACCCTGATGAAAGAACCACTTCCAGGTTATAAATCCTGTGGCACCATTGTGATTAAATACTCCATGAAGGGAGGCATACAAACAATATGGCTACCCTGA
Iqcb1 IQ motif containing B1, transcript variant X1
Length: 1809 bp Location: 112700..56653 Strand: ->XM_004873581.1 ATGAAGCCAATAGGTACAGACTCAAGGATATTATCTGTAGCTGCTGAAGTTGCCAAAAGTCCTGAACAGAATGTGCCTATTATTTTGTTGAAGATAAATGAAATAATAAACAACACACCATTAGGAAGCTCAGAGTTGAAGAAAATCAAACAAGATATATATTGTTACGACCTCATTCAGTATTGCCTCTTGGTCCTCGGGCAAGATTATTCTCGAATCCAGGGTGGTTGGACTACAATTTCTCAGCTTACACAGATAGTAAGCCACTGTTGTGTGGGCTTAGAGCCAGGAGAAGATGCAGAAGAATTTTACAAGGAATTACTTCCATTGGCTGCAGAAAATTTTCTAGTTTTGGGGAGACGATTGCAAGCATGTTTTGTCAATGCAACTAAGGGTGAAGAAAAAGATGAATTACTACACTTTTTCCAAATTGTGACTGCTTCTCTCTTATGGCTGTTGGGAGGCCATGTTCAACTCATACAGAATGTACTACAAAGTGATCATTTCTTACACTTACTGCAATCTGATAATGTTCAAATAGGATCTACAGTCATGATGCTGCTACAGAATATATTACAGATGAACAGTGGTGATCTACTCAAAGTAGAAGGCAAAGCTCTGCATTCTATTTTAGATGAAGTCATTTCCAAGCTTTTATCAACCCCTAGTCCGCTCATAAGAAGTACTGCTATGAAGCTTCTACTGTTGATGGCTCAATCCCATCAAGAAATTTTTATTTCACTGAGACTAAGTCCTTGCTACAAAGGACTCAGAAATCTAATAAGTAAACAAGGAATTGGGACAGAATTTAGTCAAGAACTTGAACAGCTCATTGGCCTTTTAAGCCCTAAGATCTATCAGGAAGTAGAAGAGCAGAAACTACATCAAGCAGCTTGCTTGATTCAAGCTTATTGGAAGGGCTTCCAGACTAGAAAAAGATTTAAGAAGCTTCCATCTGCTGTGATTGCTTTGCAGAGGAGTTTCAGATCTAAAAGAACAAAGATATTGCTGAAGCTAACTAGGCAGAAGGAAGAAAACGATCTCAGATTACAATTGCAAATTGAAAGGCAGAGAGCGATGAGACTTTCTCGAGAATTACGGCTTAGTATGCTTGAAATAGTTCACCCAGGTCAAGTGGAGAAATACAATCAGGAGTTGGAAGAGAAATCAGCATTAATTATCCAGAAGCATTGGAGAGGGTACAGGGAAAGGAAAAAGTTCCACCAACAGAGGCCATCTCTCACAGAGTATAAAGCAGCGGTCATACTTCAAAGAGCAGTTCTTAAATTCCTAGCAAAGTGCCATAAGAAAAAGAAACTATCTGCCCCTTGGCAAGGACTCCAAGAACTCACTGATACACACAGAGTTCAACTGAAGCAACAAGTGGATGACTATATCAGAAGACATCCAGGCTCTCAAATGTCAGATGGGGCCAGCAAGGAGCTCCATGCCCAAGCTCAAGAACGGCTGCAACACTACTTTATGAGCAGGGCCCTCGAAGAGAGAGCCCAGCAGCACAGAGAGGCTCTGATGGCTCAGATCAGCACCAGTATTGAACAGCTAATGAAGGCACCAACTCTGAAGGACGCAGAAGGGAAAGAACCTGAGCTCTTCCTAAGTAGATCCAGACCTGTGGCAGCCAAGGCCAAACAGGCCCATCTCATTACCCTGAAGCACACACAAGCACCCTGGTGGAAGAAGCTTGGGGAAGGACCAGGCGATGAGACTGATATTCCAAAGGATGAGCTTACCATAGAATTAGGAACCTTATTCATTGGTGGAACAAACCCCCTTAGGGAATTACCCTGA
Eaf2 ELL associated factor 2, transcript variant X1
>XM_004873584.1 ATGAATGGACCAGCGAGACTTGCGCACTTGGGCCGTCGCGAGCGAGTTCTCAAGTTAGGCGAGAGTTTCGAGAAGCAGCCGCGCTACGCCTTCCACACTGTACGCTATGATTTCAAACCTGCTTCTATTGACACTTCTTGTGAAGGACACCTTGAAGTTGGCAAAGGTGAACAGGTGACAATAACTCTGCCAAATATAGAATACCTGTTGATGACCATCCCTGCTCCTAACTCTGCCCAGCTTTTGGGTTCAACTACACCAGTAACTGTTTTCAAAGGTTCAAAGAAGCCTTACTTAAAAGAGTGCATTTTGATTATTAACCATGATACTGGAGAATGTCGACTAGAAAAACTAAGCAGCAACATCACTGTAAAAAAAACAAGAGTTGAAAGAAGCAGTAAAATTCACCATCATGTAGAACAGCAGCAACAAATACAAAATTCAACTAGGATTCCCAGTCTTATAAAGCATTCTCCATCTGAAGACAAGATAGCCCCAACATCGCTAATGGATGACATTGAAAGAGAACTAAAGGCAGAAGCTAGTCTAATGGACCAGATGAGTAGTTGCGATAGTTCATCAAATTCCACAAGTTCATCATCATCAAGTAGTGAAGATAGTTCTAGTGAATCAGATGATGAAGAGGGCAGGTCTTCTAATCCAGGGAATTGTATCTCAGGGCGTCCTACCATGTCTGCCATACCACAGTCCAGGACTTCTGATACAGATGCTGGTCGTGAGAGATTTCATGACAACAGTGGCTTTCTGATGAATACTCTACGTAATGATTTGCAGCTGAGTGACTCAGGAAGTGACAGTGATGACTGA
Eaf2 ELL associated factor 2, transcript variant X3
Length: 660 bp Location: 112843..168553 Strand: +>XM_004873586.1 ATGAATGGACCAGCGAGACTTGCGCACTTGGGCCGTCGCGAGCGAGTTCTCAAGTTAGGCGAGAGTTTCGAGAAGCAGCCGCGCTACGCCTTCCACACTGTACGCTATGATTTCAAACCTGCTTCTATTGACACTTCTTGTGAAGGACACCTTGAAGTTGGCAAAGGTGAACAGGTGACAATAACTCTGCCAAATATAGAAATTCTTAATTCCAGAGTTGAAAGAAGCAGTAAAATTCACCATCATGTAGAACAGCAGCAACAAATACAAAATTCAACTAGGATTCCCAGTCTTATAAAGCATTCTCCATCTGAAGACAAGATAGCCCCAACATCGCTAATGGATGACATTGAAAGAGAACTAAAGGCAGAAGCTAGTCTAATGGACCAGATGAGTAGTTGCGATAGTTCATCAAATTCCACAAGTTCATCATCATCAAGTAGTGAAGATAGTTCTAGTGAATCAGATGATGAAGAGGGCAGGTCTTCTAATCCAGGGAATTGTATCTCAGGGCGTCCTACCATGTCTGCCATACCACAGTCCAGGACTTCTGATACAGATGCTGGTCGTGAGAGATTTCATGACAACAGTGGCTTTCTGATGAATACTCTACGTAATGATTTGCAGCTGAGTGACTCAGGAAGTGACAGTGATGACTGA
Slc15a2 solute carrier family 15 (H+/peptide transporter), member 2, transcript variant X1
>XM_004873587.1 ATGCTTGAGGAGAAAGAGAGTAAGGAGCCAGCCATGAATCCTTTCCAGAAAAATGAGTCCAAGGAAACTCTTTTTTCACCTGTTTCCACTGAAGAGGTACCGCCTAAACCTTCCAGCCCTCCAAAGCAGTCACCTCCGAAAATCTGTGGCTCCAGCTATCCAGTGAGCATTGCCTTCATTGTGGTGAATGAATTCTGTGAACGCTTTTCCTATTATGGCATGAAAGCTGTGCTGACCCTGTATTTCCTGTATTTCCTGCATTGGAGTGAAGACACCTCCACATCTGTATACCATGCATTCAGCAGCCTCTGTTATTTCACTCCCATCCTGGGAGCAGCTATTGCTGACTCGTGGTTGGGAAAATTCAAGACAATCATCTACCTCTCCCTGGTGTACGTGCTTGGCCACGTGTTAAAGTCCTTGGGTGCGATTCCAATACTGGGTGGAAAAGTGGCACACACAATCTTGTCATTGATTGGCTTGAGTCTAATAGCTCTGGGAACAGGAGGTATCAAACCCTGTGTGGCAGCTTTCGGTGGAGACCAGTTTGAAGAAAAACATGCAGAGGAACGAACTAGATACTTCTCAGTCTTCTACCTCTCCATCAATGCTGGAAGCTTGATTTCTACATTTATCACACCCATGCTGAGAGGAGATGTGCAGTGTTTTGGGGAAGATTGCTATGCATTGGCTTTTGGAGTTCCAGGATTGCTCATGGTAATAGCACTTGTTGTGTTTGTGATGGGAAGCAAAATGTACAAGAAGCCACCTCCTGAAGGAAACATAGTGACTCAAGTTATCAAATGTATCTGGTTTGCCATTTCCAACCGCTTCAAGAACCGTTCTAGGAACATTCCAAAGCGCCAGCACTGGCTGGACTGGGCAACTGAGAAATACCCAAAGCAGCTCATTTTGGATGTGAAGGCACTTACCAGGATACTGTTCCTGTATATTCCACTGCCCATGTTCTGGGCTCTTTTGGATCAGCAGGGCTCACGTTGGACCTTGCAAGCCACTAAGATGAATGGGAATTTGGGTTTTTTTGTGCTTCAGCCGGACCAGATGCAGGTGCTAAATCCTTTTCTGGTTCTTATCTTCATACCATTGTTTGACCTTGTCATTTATCGGCTGATCGCCAAATGTGGAATCAACTTCTCATCACTTAGGAAAATGGCTGTTGGTATGATCCTAGCATGCCTGGCATTTGCAGTTGCAGCCATTGTGGAGATAAAAATAAATGGAATGGCCCCACCTCAGCCAGGATCCCATGAAATTTTCCTAAAAGTCTTAAACTTGGCAGATGATGAGGTGGAAGTGACAGTGCTGGGAAGTGAAAATAACTTTCTGTTGGCAGAGTCCATCAAATCCTTTCAGAAACCAACACACTATTTCAAACTGCACCTGCACTCAAAAAGCCAGGATTTTCACTTCCATCTGAAGTACCACAATTTGTCTGTCCACACTGAATATTCTGTAGTGGAGAATAACTGGTACACTGTGATCCTTCATGCAGATGGGAAAAATATCTCCAGCATGATGGTAAAGGATGCAGAAAACAAAACAAACAATGGAATGACAGCTGTCAGATTTATTAATACTTTGCACAAAGATGTGAACATCTCCCTGGGTACAGATGGCCCCTTCACTGTTCATAAAAACTACGGTGTGTCTGCTTACAGAACTGTCCCAAGAGGAGAATATCCTGCAGTACCTTGTAAAACAGAAGATAAAGACTTTTCTCTGAATCTGGGTCTACTAGACTTTGGTGCATCCTATGTGCTTGTTATTACTAATATCACCAACAAAGGTCTTCAGGCCTGGAAGACAGAGGACACACTAGCCAATCGAATGTCCATTGCATGGCAACTACCACAGTATGCCCTAGTTACAGCTGCAGAGGTCATGTTCTCTGTTACAGGACTTGAGTTTTCTTATTCTCAGGCTCCATCTAGCATGAAATCTGTGCTCCAGGCGGCCTGGTTGTTGACAGTTGCATTTGGGAATATCATTGTGCTTGTTGTTGCACAGTTCAGTGGCCTGGTACAGTGGGCTGAATTCATTTTGTTTTCCCTTCTTTTGCTGGTCGTTTGCCTGATCTTCTCCATCATGAGCTACTACTATGTTCCTGTAAAGTCAAAGGAGATTCATGGGTCAGAAGATAAGCAGAATCTTCACATGCAAGGAAACATGGTCAACCTAGAGACCAAGAATACAAAGCTCTGA
Slc15a2 solute carrier family 15 (H+/peptide transporter), member 2, transcript variant X2
Length: 2130 bp Location: 179969..222909 Strand: +>XM_004873588.1 ATGCTTGAGGAGAAAGAGAGTAAGGAGCCAGCCATGAATCCTTTCCAGAAAAATGAGTCCAAGGAAACTCTTTTTTCACCTGTTTCCACTGAAGAGGTACCGCCTAAACCTTCCAGCCCTCCAAAGCAGTCACCTCCGAAAATCTGTGGCTCCAGCTATCCAGTGAGCATTGCCTTCATTGTGGTGAATGAATTCTGTGAACGCTTTTCCTATTATGGCATGAAAGCTGTGCTGACCCTGTATTTCCTGTATTTCCTGCATTGGAGTGAAGACACCTCCACATCTGTATACCATGCATTCAGCAGCCTCTGTTATTTCACTCCCATCCTGGGAGCAGCTATTGCTGACTCGTGGTTGGGAAAATTCAAAATCTTGTCATTGATTGGCTTGAGTCTAATAGCTCTGGGAACAGGAGGTATCAAACCCTGTGTGGCAGCTTTCGGTGGAGACCAGTTTGAAGAAAAACATGCAGAGGAACGAACTAGATACTTCTCAGTCTTCTACCTCTCCATCAATGCTGGAAGCTTGATTTCTACATTTATCACACCCATGCTGAGAGGAGATGTGCAGTGTTTTGGGGAAGATTGCTATGCATTGGCTTTTGGAGTTCCAGGATTGCTCATGGTAATAGCACTTGTTGTGTTTGTGATGGGAAGCAAAATGTACAAGAAGCCACCTCCTGAAGGAAACATAGTGACTCAAGTTATCAAATGTATCTGGTTTGCCATTTCCAACCGCTTCAAGAACCGTTCTAGGAACATTCCAAAGCGCCAGCACTGGCTGGACTGGGCAACTGAGAAATACCCAAAGCAGCTCATTTTGGATGTGAAGGCACTTACCAGGATACTGTTCCTGTATATTCCACTGCCCATGTTCTGGGCTCTTTTGGATCAGCAGGGCTCACGTTGGACCTTGCAAGCCACTAAGATGAATGGGAATTTGGGTTTTTTTGTGCTTCAGCCGGACCAGATGCAGGTGCTAAATCCTTTTCTGGTTCTTATCTTCATACCATTGTTTGACCTTGTCATTTATCGGCTGATCGCCAAATGTGGAATCAACTTCTCATCACTTAGGAAAATGGCTGTTGGTATGATCCTAGCATGCCTGGCATTTGCAGTTGCAGCCATTGTGGAGATAAAAATAAATGGAATGGCCCCACCTCAGCCAGGATCCCATGAAATTTTCCTAAAAGTCTTAAACTTGGCAGATGATGAGGTGGAAGTGACAGTGCTGGGAAGTGAAAATAACTTTCTGTTGGCAGAGTCCATCAAATCCTTTCAGAAACCAACACACTATTTCAAACTGCACCTGCACTCAAAAAGCCAGGATTTTCACTTCCATCTGAAGTACCACAATTTGTCTGTCCACACTGAATATTCTGTAGTGGAGAATAACTGGTACACTGTGATCCTTCATGCAGATGGGAAAAATATCTCCAGCATGATGGTAAAGGATGCAGAAAACAAAACAAACAATGGAATGACAGCTGTCAGATTTATTAATACTTTGCACAAAGATGTGAACATCTCCCTGGGTACAGATGGCCCCTTCACTGTTCATAAAAACTACGGTGTGTCTGCTTACAGAACTGTCCCAAGAGGAGAATATCCTGCAGTACCTTGTAAAACAGAAGATAAAGACTTTTCTCTGAATCTGGGTCTACTAGACTTTGGTGCATCCTATGTGCTTGTTATTACTAATATCACCAACAAAGGTCTTCAGGCCTGGAAGACAGAGGACACACTAGCCAATCGAATGTCCATTGCATGGCAACTACCACAGTATGCCCTAGTTACAGCTGCAGAGGTCATGTTCTCTGTTACAGGACTTGAGTTTTCTTATTCTCAGGCTCCATCTAGCATGAAATCTGTGCTCCAGGCGGCCTGGTTGTTGACAGTTGCATTTGGGAATATCATTGTGCTTGTTGTTGCACAGTTCAGTGGCCTGGTACAGTGGGCTGAATTCATTTTGTTTTCCCTTCTTTTGCTGGTCGTTTGCCTGATCTTCTCCATCATGAGCTACTACTATGTTCCTGTAAAGTCAAAGGAGATTCATGGGTCAGAAGATAAGCAGAATCTTCACATGCAAGGAAACATGGTCAACCTAGAGACCAAGAATACAAAGCTCTGA
Ildr1 immunoglobulin-like domain containing receptor 1, transcript variant X1
Length: 1746 bp Location: 300512..275203 Strand: ->XM_004873589.1 ATGGGCCCCAAGCTGCCCACACCTTGGCTGCTACTCTTCAACTGGCTCCCAACAGGATGCCTGTCCTTGCTGGTGACGGTCCAGGACACAGAACGCTATGTCACTCTGTTTGCCTCCGTTACCCTCAAATGTGACTATACCACCTCTGCCCAGCTCCAGGATGTGGTGGTGACCTGGCGTTTCAAGTCCTTCTGCAAGGACCCCATCTTTGACTACTTCTCTGCCTCGTACCAGGCAGCTCTATCTCTTGGCCAAGACCCGTCCAATGACTGCAATGATAACCAGAGGGAAGTTCGCATTGTGGCCCAGAGGCGGGGGCAGAATGAGCCAGTGCTGGGGGTGGATTACCGACAGCGCAAGATCACCATCCAGAACCGAGCGGATCTTGTGATTAATGAAGTGATGTGGTGGGACCATGGGGTGTACTACTGCACCATCGAGGCTCCGGGGGACACATCCGGAGACCCAGATAAGGAGGTGAAGCTCATCGTCCTGCACTGGCTGACAGTGATTTTCATCATTCTGGGAGCCTTTCTCCTGTTGCTGTTGATCGGAATATGTTGGTGCCAGTGCTGCCCACAGTACTGCTGCTGCTACATCCGCTGCCCCTGCTGCCCCACCCGCTGTTGCTGCCCTGAGGAAGCCCTGGCCCACCAACGCTACATGAAGCAGGCTCAGGCCCTAGGTCCTCAGATGATGGAAAAACCCCTGTTCTGGGGTGCGGACAGGAGCTCCCAGCTCTCATCTTATACAGTGAACCCGCTGCTGCAGCGAGATTTGTCCTTACAGTCCAGCCTCCCACAGATGCCAATGACTCAAACCTCTGCTCATCCTCCTACCACCAATGGTGTCCTGGAGTATTTGGAGAAAGAGCTGCGGAACCTCAACCCAGCACAGCCTCTGCCTCCTGACCACAAAGCCAGATCTGGCCACCCCTGCAGCATGCTGTCCTCCCTGGGCTCTGAGGTTGTGGAGCGCAGAATCATCCGCCTGCCTCCGCTCATCAGAGACCTGCCATCCTTGAGCAGGACCAGTGATGCGTCACACCAGCAGTGGCTCACCCCGGTTCCCTCCAGACCCTGGGATCGGAGGGAGGGCAGAAGGCAGCACCATTACTCTGATTTCCACCAGGAGCTCCAGGACAGAAGGCCAAAACCCTGGGCATCTGGAAGAAGGGAGCTGGACCACCCTTGGAGAGGATGGCACCGCTGCTCCAGGCGGCATAGGTCACCCTCGGCCTGGTCAGACCCGGACAGCCTCAGTGATGGCCCCTCATCCAGTGAGACACGCTGGCCACCCAGCTGTCCCCATCCCAGGAGCCACCATGAGGTGCGGCCCCACAGGCCTAGCCCTGGGGAGGACTACCGGAGGACCAGGAGACCCCGGCCCCGAAGCTACTCCCCTCCCATGCCCTCTGGCCTCAGTTCCTGGAGCTCTGATGAGGAGAAGGAGACACCACCACCCAGAGACCAGGGGTCCCGAAGTCATCATAGCCGGTCTTATTCCCCAACCTGGCCCGAGGAGAAGCCACCCAGCTACCGCTCACTAGATGTCACTGCAGGCAAGAATGGCAGGAAAAAAGGGAGTGTGGAGAGGCGCTCGGTGAGCCTGGGGCATTATGCTGAGGGTCGGGTGTGGGCAGAGAGGATCCTCCAGCCAGGCCTGGGCACACAGACACAGGCCACCTCATGGGCTACCAAAGAGGATGCCTCCTCCCTGCTTGCCACAAACTTCCCTGTAAGCTGA
Cd86 CD86 molecule, transcript variant X2
Length: 981 bp Location: 350201..419848 Strand: +>XM_004873593.1 ATGGGTCCAGAATGCACCATGGGACCAGGTATCATTCTCGTTTTGATGGCCCTCCTGCACTCTGGTGCTGCCTTCCTGAAGAGTGAAGCTTATTTCAATGAGACTGCAGCACTGCCATGCCAATTTTCAAACTCTCAAAACCTCAGCCTGAATGAGCTAGTAATATTTTGGCAGTACCAGCAAAAGTTAGTTCTCTATGAATTTTATTTAGGAAGAGAAAACTTTAATAATGTGGCTCCCAGCTACATGTACCGCACAAGCTTTGACCAGAACAGTTGGACTCTGCGACTTCACAGAGCTCAAATCAAAGACAAGGGCATCTATCAATGTATCATCCATCACAAAAAGCCCACAGGACTGGTTTCTATCCACCAGAAGGATTCTGAGCTGTCAGTGTTTGCTAACTTCACTGAACCTGAAATAGTGCAAATGTCTAATGTAACAGGAAATTCTGGCATGAATTTAACCTGCTCATCTGGACAAGGTTATCCACAAGCTATGAAGATGTATTTTTTGCTAAAACTTGAAAATTCAACTGAATTGGAGTATGATGGTGTCATGCAGATATCGCAAGATAATGATACAGAGCTGTACAACATTTCCATCAGCTCATATGTTCCATTCCCTGATGATATGAGTAATGTGACCATCTTCTGTGTCCTGAAAACTAAGTCAATGAGGTCAAAGGATTGGCAGCTTTCCTCCAAACCTTTCTATAAAGATCAAGATCATTATCAAACCCACCTTGGAAAAAGGAAGACAGCTCATTCCAAGCATTTGGCCAGAGTTCCTAGTCATCATTTGCCTGCTACACATCAATCCTCCTGGATTATAGCTGTAGTTCTAATATCCGTGATCTTTGGATGTGGGCTGGGATGCTTTCTGTGGAAGAAGAAGAAGAAGCAACAGGCTGTCGTCTCTCACAAACGTGAAACCACCAGAATGGAGAAGGAAAACAATGAAGAGACTGAAGGAAGGTGA
Cd86 CD86 molecule, transcript variant X1
Length: 984 bp Location: 370617..419849 Strand: +>XM_004873592.1 ATGGGCACTGGTGACAGCACCATGGGACCAGGTATCATTCTCGTTTTGATGGCCCTCCTGCACTCTGGTGCTGCCTTCCTGAAGAGTGAAGCTTATTTCAATGAGACTGCAGCACTGCCATGCCAATTTTCAAACTCTCAAAACCTCAGCCTGAATGAGCTAGTAATATTTTGGCAGTACCAGCAAAAGTTAGTTCTCTATGAATTTTATTTAGGAAGAGAAAACTTTAATAATGTGGCTCCCAGCTACATGTACCGCACAAGCTTTGACCAGAACAGTTGGACTCTGCGACTTCACAGAGCTCAAATCAAAGACAAGGGCATCTATCAATGTATCATCCATCACAAAAAGCCCACAGGACTGGTTTCTATCCACCAGAAGGATTCTGAGCTGTCAGTGTTTGCTAACTTCACTGAACCTGAAATAGTGCAAATGTCTAATGTAACAGGAAATTCTGGCATGAATTTAACCTGCTCATCTGGACAAGGTTATCCACAAGCTATGAAGATGTATTTTTTGCTAAAACTTGAAAATTCAACTGAATTGGAGTATGATGGTGTCATGCAGATATCGCAAGATAATGATACAGAGCTGTACAACATTTCCATCAGCTCATATGTTCCATTCCCTGATGATATGAGTAATGTGACCATCTTCTGTGTCCTGAAAACTAAGTCAATGAGGTCAAAGGATTGGCAGCTTTCCTCCAAACCTTTCTATAAAGATCAAGATCATTATCAAACCCACCTTGGAAAAAGGAAGACAGCTCATTCCAAGCATTTGGCCAGAGTTCCTAGTCATCATTTGCCTGCTACACATCAATCCTCCTGGATTATAGCTGTAGTTCTAATATCCGTGATCTTTGGATGTGGGCTGGGATGCTTTCTGTGGAAGAAGAAGAAGAAGCAACAGGCTGTCGTCTCTCACAAACGTGAAACCACCAGAATGGAGAAGGAAAACAATGAAGAGACTGAAGGAAGGTGA
Cd86 CD86 molecule, transcript variant X3
>XM_004873594.1 ATGGGCACTGGTGACAGCACCATGGGACCAGGTATCATTCTCGTTTTGATGGCCCTCCTGCACTCTGGTGCTGCCTTCCTGAAGAGTGAAGCTTATTTCAATGAGACTGCAGCACTGCCATGCCAATTTTCAAACTCTCAAAACCTCAGCCTGAATGAGCTAGTAATATTTTGGCAGTACCAGCAAAAGTTAGTTCTCTATGAATTTTATTTAGGAAGAGAAAACTTTAATAATGTGGCTCCCAGCTACATGTACCGCACAAGCTTTGACCAGAACAGTTGGACTCTGCGACTTCACAGAGCTCAAATCAAAGACAAGGGCATCTATCAATGTATCATCCATCACAAAAAGCCCACAGGACTGGTTTCTATCCACCAGAAGGATTCTGAGCTGTCAGTGTTTGCTAACTTCACTGAACCTGAAATAGTGCAAATGTCTAATGTAACAGGAAATTCTGGCATGAATTTAACCTGCTCATCTGGACAAGGTTATCCACAAGCTATGAAGATGTATTTTTTGCTAAAACTTGAAAATTCAACTGAATTGGAGTATGATGGTGTCATGCAGATATCGCAAGATAATGATACAGAGCTGTACAACATTTCCATCAGCTCATATGTTCCATTCCCTGATGATATGAGTAATGTGACCATCTTCTGTGTCCTGAAAACTAAGTCAATGAGGTCAAAGGATTGGCAGCTTTCCTCCAAACCTTTCTATAAAGTTCCTAGTCATCATTTGCCTGCTACACATCAATCCTCCTGGATTATAGCTGTAGTTCTAATATCCGTGATCTTTGGATGTGGGCTGGGATGCTTTCTGTGGAAGAAGAAGAAGAAGCAACAGGCTGTCGTCTCTCACAAACGTGAAACCACCAGAATGGAGAAGGAAAACAATGAAGAGACTGAAGGAAGGTGA
Csta cystatin A (stefin A)
>XM_004873596.1 ATGATTCCTGGAGGCTTGAGCGAGGCCAGACCTGCTACTCCTGAAATCCAGGAGATTGCTGATAAGGTTAAACCACAGCTTGAAGAAAAAACAAATCAGTCTTACCAAGAATTCAAAGCTGAAGAGTATAAAAGTCAAGTGGTTGCCGGAATAAATTACTACATTAAGATTCGAGTAGATAATGGTTGTTATATTCACATAAAAGTATTCCTACCTCTTTCTGGACAACATGAAGATACTTTGGAACTTTCTGGTTACCAGACTGACAAAAGCAAGGAAGATGAGCTGACTGGCTTTTAA
Casr calcium-sensing receptor
>XM_004873595.1 ATGAGCTGCTCCAAGAGAGAAAGTTCTCAGGGCCCCCAAATCACTATCACCATTGAGTCTCTGTCCTGGAGAGAAGGCAGAATCATGGCATCTTACAGCTGCTGTTTGGTCCTCTTGGCCCTTGCCTGGCATTCCTCTGCCTATGGGCCTGACCAACGAGCCCAAAAGAAAGGAGACATAATCCTTGGTGGGCTCTTTCCTATTCATTTTGGAGTAGCAGCCAAAGATCAAGATCTAAAATCAAGGCCAGAGTCTGTGGAATGTATCAGGTATAATTTCCGTGGTTTTCGCTGGTTACAAGCCATGATATTTGCCATAGAGGAGATCAACAGCAGCCCAGCCCTTCTTCCCAACATGACACTCGGATACAGGATATTCGACACTTGCAACACTGTTTCAAAGGCCTTGGAGGCCACCCTGAGTTTTGTTGCCCAGAACAAAATCGATTCTTTGAACCTGGATGAGTTCTGTAACTGCTCAGAACACATCCCCTCCACCATCGCTGTGGTGGGAGCAACTGGCTCTGGTGTCTCCACAGCAGTGGCCAATCTACTGGGGCTCTTCTACATCCCCCAGGTCAGCTACGCTTCCTCCAGCAGACTCCTTAGCAACAAGAACCAGTTCAAGTCCTTCCTCCGTACCATCCCCAATGATGAACACCAGGCCACAGCCATGGCAGACATTATTGAGTATTTCCGCTGGAACTGGGTGGGCACAATTGCTGCTGATGATGACTATGGCCGGCCGGGGATCGAGAAATTCCGAGAGGAAGCCGAGGAGAGGGACATCTGCATTGACTTCAGTGAGCTCATCTCCCAGTACTCTGAGGAGGATGAGATCCAGCAGGTGGTGGAGGTGATCCAGAATTCCAAAGCCAAGGTCATCGTCGTTTTCTCCAGTGGCCCAGACCTAGAACCCCTCATCAAGGAGATTGTCCGGCGCAACATCACAGGCAAGATCTGGCTGGCCAGTGAGGCGTGGGCCAGCTCCTCCCTGATCGCCATGCCTGAGTACTTCCATGTGGTGGGAGGCACCATTGGGTTTGCTCTCAAGGCTGGGAAGATCCCAGGGTTCCGGGAATTTCTGCAAAAAGTCCATCCCAGGAAGTCTGTCCACAATGGTTTTGTCAAGGAGTTCTGGGAAGAAACATTTAACTGCCACCTCCAAGAAGGTGCTAAAGGACCTTTACCCATGGACACCTTCCTAAGAGGTCATGAAGAAGGTAACAGCAAATTAAGCAACAGCTCCACTGCCTTCCGACCCCTCTGCACAGGGGAGGAGAATATCAGCAGTGTTGAGACCCCTTACATGGATTACACACATCTACGGATATCCTACAATGTATACTTAGCAGTCTACTCCATTGCCCATGCCTTGCAAGATATATACACCTGCTTACCTGGGAGAGGGCTCTTCACCAATGGTTCCTGTGCAGACATCAAGAAGGTTGAGGCATGGCAGGTCCTGAAGCACCTTCGGCATCTAAACTTTACCAACAACATCGGGGAGCAAGTAACTTTTGATGAGTATGGTGACCTGGTGGGGAACTATTCCATCATCAACTGGCATCTCTCCCCAGAGGATGGCTCCATCATGTTTAAGGAAATTGGGAATTATAATGTCTCTGCAAACAAAGGAGTGAGACTCTTCATCAATGAGGAGAAGATCCTGTGGAGCGGCTTCTCCAGGGAGGTCCCCTTCTCCAACTGCAGCCGTGATTGCCTGGCAGGGACCAGAAAAGGGATCATTGAAGGGGAGCCCACTTGCTGTTTTGAGTGTGTGGAGTGTCCTGATGGAGAGTACAGCGATGAGACAGATGCAAGTGCCTGTGACAAGTGCCCAGATGACTTCTGGTCAAATGAGAACCACACTTCCTGCATTGCCAAGGAGATCGAGTTTCTGGCATGGACAGAGCCCTTTGGGATCGCGCTCACCCTCTTTGCCGTGCTGGGCATCTTCCTGACAGCTTTCGTGTTGGGTGTCTTCATCAAGTTCCGTAACACCCCCATTGTCAAGGCCACCAATCGAGAGCTCTCCTACCTCCTCCTCTTCTCCCTTCTCTGCTGCTTCTCAAGCTCCCTGTTCTTCATCGGCGAGCCCCAGGACTGGACATGTCGCCTGCGCCAGCCTGCCTTTGGCATCAGCTTCGTGCTCTGCATCTCCTGCATTCTGGTGAAGACTAACCGTGTCCTGCTGGTGTTTGAGGCCAAGATCCCTACCAGCTTCCACCGCAAGTGGTGGGGGCTCAACCTGCAGTTCCTCCTGGTTTTCCTCTGCACCTTCATGCAGATTGTTATCTGTGTGATCTGGCTTTACACTGCGCCCCCATCCAGCTACCGCAACCATGAGCTGGAGGATGAGATCATCTTCATCACCTGCCACGAGGGTTCGCTCATGGCCCTGGGCTTTCTGATTGGCTACACCTGCCTACTGGCTGCCATCTGCTTCTTCTTTGCCTTCAAGTCCCGGAAACTGCCAGAGAACTTCAATGAAGCCAAGTTCATCACCTTCAGCATGCTCATCTTCTTTATTGTCTGGATCTCCTTCATCCCAGCCTATGCCAGCACCTATGGCAAGTTCGTCTCGGCAGTGGAGGTGATCGCCATCCTGGCAGCCAGTTTTGGTCTGCTAGCCTGCATCTTCTTCAATAAGGTCTACATCATTCTCTTCAAGCCCTCCCGGAACACCATCGAGGAGGTGCGCTGCAGCACTGCTGCCCACGCCTTCAAAGTGGCAGCCCGGGCCACGCTGCGCCGCAGCAACGTCTCACGCAAGCGGTCCAGCAGCCTCGGGGGCTCCACGGGCTCCATCCCCTCCTCCTCCATCAGCAGCAAGAGCAACAGCGAAGACCCCTTTCCACAGGCCGAGAGGCAGAAGCAGCAGCGGCCACTGGCCCTGACTGGGCAAGAGCAGCAACAGCAGCCTGTGACCCTCCAGCCCCAGCAGCCCCAGCAATCACAACCTCAGCCCCGATGCAAGCAGAAGGTCATCTTTGGCAGTGGCACAGTCACCTTCTCCCTGAGCTTTGACGAGCCACAGAAGAATGCCATGGCCCACAGGAACACCACCCATCAGAACTCCCTGGAGACCCAGAAAAGCAACGATGGCCTAAGCAGACACCAGGCGCTGCTCCCGCTGCAGTACAGGGACACAGACTCAGGCCTGACCACCCAGGAAACAGGCCAACAAGGGATGGTGGCAGGGGACCACCAGCCAGAGCTGGAGGACCCAGAAGAGATGTCCCCAGCACTCGTCATGTCCAAGTCACGGAGCTTTGTCATCAGCGGGGGAGGCAGCACTGTCACAGAAAACATACTGCACTCATAA
Dtx3l deltex 3-like (Drosophila), transcript variant X1
>XM_004873603.1 ATGGAGCCCCTCGCCCGCCCACCGTCCCCGCTCCTCGTGCGGGTGTCCGAGTACGCGCCCCGGCTTCGCTGGAAACTGGAAAGCTATTTCCAGAGCCGGCAGTCCGGCGGCGGGGAGTGCACTGTCCAGCCCTTGGACCGCAGGGCCCAGGACACTTTCCTGGTGGAGTTCAGAGAAAGGGCAGCCAAGGAGAGAGTGTTGAAAAAGAGAGAGCACCAAATTCAGGCTGACAGCAAACCTGTGACCATTTTCCTGGAAACCACTGAGGATCCAACAGAGATGAACCCGGAATCCAGCATTACGTTGCCCCAGTCACAAGCTGAAACCCAGTTTGGTGCAAAGCCTTCCCATGAAGGATCTGTTCCCAATGCTGTGGACCCCTGTGTCCAAAAGATCTTTCTCACTGTAACAGCTGACCTGAACTGTGACCTGTTCTCCAAAGAGCAGAGGTCACAGGTAGCCACTGTCTGCCCCACTATCAAAAAGACGGAGGGTCACAATGGAATTGAGAGTGTGTGTGGTGACTTCAGAGATATTGAAAAAATATACCACTTCTTGAGTATGCAGCTCCTGGGAAATGAGCAGAAACAGGAGTCTTCCCCTTCCACCACGGAGAGGAAGCCCCCTGACCAGCATGACTGGGTCAGCAGATTTTCTCCTTCTGAACCCCAAACCAGCTCAGAAGAAAAAGGAAACCATTTTGAAGTTCCCTTGTTTTTGCTTGAATACTTCAAATATACCTGTCCTGATAAAATAAATTCAATCAAGGAGAGATTTGGTGTAAACATCAAAATTCAATCCAGTTCCCTTCCCAGTATGGTCTGTGTAGACTTCACCTGCAGTCAATCAGGTGACCTAGAAGCAGCTCGAGAGTATTTTGTCAGTGAGTTTCAGAAGAAAACAGAATCTCTGAAGCATGAACATGTCCCTTTAGCAGACAGTAAACAGGCAAATGAAATCAAACACAAACTAAGCTGCTGTTTTCCAAAGCTTCTCATAAAGGAGCACAGAAAGGGGCTAACTCTCCTCGGAACCATAGACGACATCACAACTGCCAAACAAAAAATGTCTGAAGGTTTTGTCAAGCCACCTGTGAAAATCTTGGTCCCCAATTCCATGACCAATGCAATTGAGGTTGATACTGCCCGTTATAAACTTCTAGCTGAATTACTCCAGGAGATAGCAGAGATAGAGCAGAAGTACAACACTCACTGTAAGGTTTGGGAGAAAAACCAGAAAACCTACATTCAATTCAATCCTAAGGACAAAGAGGTAAATCTGTCTGTGCATGCTTATGCAAGCTTCATTGATGCCCTTCAGCATGCCTCCTCTCTGCTGATGAGTGAAGTCCTTCTACTGAAAGATTTGGGTAAGGAGAGAAAACACCTGCGCAGGACCAAATTTGCTGATGACTTTAGCAAAAAACATCCAAATGTACATTTTGCACTGGATCAAGCGTCAATAACTTTGACCGGCTTGCCAGATCACCTTGCACAGGCCAAGCAGTTTTTTTTACAACTGTTGCCATCGGTTGGAGAGAAACTGAACGATGATCTTGAAACCCTCATACACCTTGATAGTAATGACTCAAAAGCAGCTTCACCTCCACTCAAGGGCTCTGCAAGTTCTGTGAGCTCAGAAATGGATAAGAAAGAAACAGACATCTGCAGCATCTGCATGGACACCATTAGTAACAAATATGTGCTTCCAAAGTGTAAGCATGAATTCTGTGACCCTTGTATCAAGAAATCCATGTCATATAAGCCAGTATGTCCTCTATGTCAGACTTCCTATGGTATCCAGAAAGGGAATCAGCCAGAAGGAACCATGACTTACACCCTGATGAAAGAACCACTTCCAGGTTATAAATCCTGTGGCACCATTGTGATTAAATACTCCATGAAGGGAGGCATACAAACAAGAGAGCATCCAAACCCAGGAAGGCCCTATTTTGGAACACAGCGAACTGCATACTTACCTGATAATGAGGAAGGAAAAGAGATTTTGCAACTGCTTCAAGTAGCCTTTAAACACAAGCTAATTTTCACAGTGGGATATTCTTCAACACAAAATATCTCAGATGTCATTACATGGAATGATATCCACCACAAAACATCCCGGTTTGGAGGACCATCAGAATATGGCTACCCTGATCCTAATTACCTGAAACGCGTTAAGGAAGAGCTGAAAGCTAAAGGAATTGAACAAGAAAACCACTAG
Hspbap1 HSPB (heat shock 27kDa) associated protein 1, transcript variant X1
Length: 1569 bp Location: 1101025..1023981 Strand: ->XM_004873608.1 ATGGCAGCGGGCACCCAGGAGAGCCCTCTCTTGGCCCTGGCAGCTGGAGCTGCCCGGAACAAAGGTGAATATGTCAAACCTTTTACACCAGAGAAAGCAAAAGGAATTATAATGTCTTTACAGCAACCTGCAGTCTTCTGTAACATGGTTTCTGACTGGCCTTCGAGACACTGGACGGCTGCACACCTTTCTGAGGTCCTTCATGGCAAGCAGATTCGATTCAGAATGGGAATGAAGAACACAGACACAGTTCCTCAGTTTGAAACCACGTGTAATTATGTGGAAGCTACACTTGAAGAGTTTCTGACCTGGAACTGTGACCAATCTAGTATTTCTGGACCATTTAGAGATTATGATCATTCCAAATTCTGGGCTTATGCTGATTATAAATATTTTGTCAACCTATTTGAAGACAATTCAGATGTTTTTCAGGATGTGCTGTGGTCTGACTTCGGGTTTCCTGGGAGAGACGGCCAGGAAAGTACACTGTGGATCGGCTCCCTGGGCGCACATACCCCCTGTCACCTGGACACCTATGGTTGTAACTTAGTCTTCCAGGTGCAAGGAAGGAAAGAATGGCATCTCTTTCCTCCTGAAGATACACCTTTCCTTTATCCAACTAGAATTCCTTATGAAGAATCTAGCGTGTTCAGTAAAACCAATGTTGTCAATCCAGATTTAAAGTGTTTTCCTCGATTCCAGAAAGCTCGAAGGCATATGGTCACACTGAGCCCAGGACAGGTCCTCTTTGTTCCCAGACACTGGTGGCATTATGTAGAATCCATTGATCCTGTCACTGTCAGTATAAACTCATGGATTGAGCTGGAAGAGGACCACCTAGCCCGGGTGGAAGAGGCAGTAACTCGTATGGTTGTATGTGCACTGAAAACTTCCGAGGATCCACACAGCACCCGAGCTTGGTTAAACCCCACCGAGGTACTCTGGTTTTTACTGTGGCTGCTGGCCCTAACTAGAGCATTTGTTTCAACCTTAACTCAGTGTGCACAACCATTCCAAAGAGTGTTTCTTTTCCCTCAGGTTGAGGCAACATCCCATGAAGTCAACTGTCGCTACTTAAATGGAGCTGTTTCTGCCTTTTTTGATCATCACAGAACACCCAAGGCAGTAGAAATTCAAGCACTGAAAACAAATAGGGAGAATGTGGAAAAGAAAGAATTAAATGTGTCCAGCCACATGGAGGTGGCCCAAACACACAACCAGGACTTAAGCCTGGCACCTGGAAAACAGGATGCAGTGAGCCTCTTTGGCCCTGATCTGTTCCCTGTAACACCAGGACCTAAAGAAGAACACCCTTCAGAAAGAGGTGGCATATTTGAAAAAGATGGTAAAGAACTGGTTGACAAAGATGGAGAATACTTCGCAAAATCCTGCTGTGCCAGGAGGCAACAAATGAGTAAAAGTGAAAATGTGGTGGAACAGACTGCTTCAAATAGTACTCCAGGCCTATCTCAGGCATTCATTTCTACAGATGATTTGCTGGACTGCTTGGTGAATCCACAGGTAACCAGAATGGTAGCGCAACTTTTGATACAGGGGAAAAGCTTGTGA
Dirc2 disrupted in renal carcinoma 2
>XM_004873611.1 ATGGGCTCGGGCTGGAGCAGCGAGGAGGAGCGGCAGCCACTGCTAGGGCCCGCTCTCGGGCCTGGGCCGGGGTCCGCACGGAGGAGCCGGGAAGCGGCGGCGGCACTGCCCGCGGCGGGCCTGGGCCCCGGGCGAGTATACGGGCGCCGATGGCTCGTCCTGCTGCTCTTCTCGCTGCTGGCGTTCGCGCAGGGCCTGGTCTGGAACACCTGGGGCCCCATCCAGAACTCGGCGCGCCAGGCCTATGGCTTCTCCAGCTGGGACATCGCGCTGCTGGTGCTGTGGGGGCCCATAGGCTTCCTGCCCTGCTTCGCGTTCATGTGGCTCCTTGACAAGAGAGGTCTGCGGGTAACTGTGCTTCTGACATCCTTCCTTATGGTTTTGGGTACTGGTCTGAGATGCATACCTGTATCAGACTTAATGCTTAGAAGAAGATTAATTCATGGAGGACAGATGGTAAATGGATTGGCGGGTCCAACTGTAATGAACGCAGCACCATTCCTCTCTACAACATGGTTTTCTGCAGACGAACGGGCCACAGCCACTGCAATTGCATCTATGCTCAGTTACCTTGGTGGAGCGTGTGCATTTTTGGTTGGGCCACTTGTTGTTCCCGCTCCCAATGGGACATCGCCCCTCCTTGCTGCAGAGAGTAGCAGGGCTCACATTAAAGATCGCATCGAGACTGTGCTGTACGCAGAATTTGGAGTTGTCTGCTTAATATTCTCTGCAACACTAGCTTATTTCCCACCCCGGCCTCCTCTTCCTCCCAGTGTTGCTGCAGCTAGCCAGCGGCTAAGCTACCGGCGCAGCTTTTGCAGATTATTGAGCAATTTGAGATTTTTGATGATTGCTTTAGCATATGCTATACCACTTGGTGTGTTTGCTGGCTGGTCTGGAGTTCTCGACTTAATTTTAACACCAGTGCATGTCAGTCAAGTAGATGCTGGCTGGATTGGATTTTGGTCCATAGTTGGAGGCTGTGTTGTTGGAATAGCTATGGCAAGGTTTGCAGATTTTATCCGGGGTATGCTGAAGCTGATCCTCCTCCTCCTGTTCTCTGGGGCTACGCTGTCATCCACATGGTTCACCCTGACCTGTCTGAACAGCATCACACACCTGCCTTTGACCACAGTGACATTATACGCCTCCTGTATTCTCCTGGGAGTGTTCTTGAATAGCAGTGTACCTATATTTTTTGAGCTTTTTGTGGAAACTGTCTACCCAGTTCCAGAAGGAATTACTTGTGGAGTTGTCACTTTTTTAAGTAATATGTTCATGGGAGTACTTTTATTTTTTCTCACATTTTATCATACAGAGTTGTCTTGGTTCAACTGGTGCCTTCCTGGGTCATGTTTGCTTAGTCTCCTCCTCATTCTGTGCTTCAGGGAATCCTATGACAGACTGTATCTTGATGTGGTTGTCTCAGTGTAA
Sema5b sema domain, seven thrombospondin repeats (type 1 and type 1-like), transmembrane domain (TM) and short cytoplasmic domain, (semaphorin) 5B, transcript variant X2
Length: 3381 bp Location: 1370183..1244801 Strand: ->XM_004873613.1 ATGGTGGTCCCAGGACCCCTGGCTGTGTCACTGTTGCTGCCCAGCCTCGCTCTGCTGGTGGCCCACCTTTCCAGCTCCCATGATGTCTCCAGTGAGCCAAGCGGTGAGCAGCAACTCTGCACCCTGAGAGAGCACCCCACTGTGACCTTTGAAGATCTGAAGCCGTGGGTCTCTAACTTCACCTACCCTGGAGCTCGAGATTTCTCTCAACTTGCTCTGGATCCTACCAGGAATCAGCTCATCGTGGGAGCCAGGAACTACCTCTTCAGACTCAGCCTTGCCAATGTCTCCCTCCTTCAGGCCACAGAGTGGGCCTCCAATGAGGACACACGCCGCTCGTGCCAGAGCAAAGGGAAGACTGAGGAGGAGTGCCAGAACTACGTGCGGGTCCTGATCCTCACTGGCCGGAAGGTGTTCATGTGTGGCACCAACGCCTTTTCCCCCGTGTGCTCCAGCAGACAGGTGGGGAACCTCAGCAGAACCATTGAGAAGATCAACGGTGTGGCCCGCTGTCCCTACGACCCTCGCCACAACTCCACAGCTGTCATCTCCTCCCAGGGGGAGCTGTACGCGGCCACGGTTATCGACTTCTCTGGTCGGGACCCTGCCATCTACCGTAGCCTGGGCAGTGGGCCACCGCTTCGCACTGCCCAGTATAACTCCAAGTGGCTCAATGAGCCAAACTTTGTGGCAGCCTATGACATAGGGCTGTTTGCATACTTCTTTCTGCGGGAGAATGCGGTGGAGCACGACTGTGGGCGCACTGTGTACTCTCGGGTGGCCCGAGTATGCAAGAACGATGTGGGGGGCCGCTTCCTGCTGGAGGACACGTGGACCACATTCACGAAGGCCCGGCTTAACTGCTCCCGCCCGGGTGAGGTTCCCTTCTACTACAACGAGCTGCAGAGTGCCTTCCACCTGCCCGAGCAGGACCTCATCTACGGAGTCTTCACCACCAATGTAAACAGCATTGCCGCTTCTGCTGTCTGCGCCTTCAACCTCAGTGCCATCTCCCAAGCTTTCAATGGCCCGTTCCGTTACCAGGAGAACCCCAGGGCTGCCTGGCTCCCCATCGCCAACCCCATTCCCAATTTCCAGTGTGGCACCTTGCCTGAGACTGGCCCCAACGAGAACCTCACAGAGCGCAGCCTGCAGGACGCGCAGCGCCTATTCCTGATGAGCGAGGCCGTGCAGCCCGTGACACCCGAGCCCTGTGTCACCCAGGACAGCGTGCGTTTCTCGCACCTCGTGGTGGACCTAGTGCAGGCCAAGGACACGCTCTACCACGTGCTCTACATCGGCACCGAGTCGGGCACCATCCTGAAGGCGCTGTCCACCACCAGCCGCAGCCTCCACGGCTGCTACCTGGAGGAACTGCACGTGCTGCCGCCCGGGCGCCACGAGCCCCTGCGCAGCCTTCGCATTCTGCACAGCGCGCGCGCGCTCTTCGTGGGGCTGAGCGACGGCGTGCTGCGCGTCCCGCTGGAGAGGTGCGCCGCCTACCGCAGCCAGGGGGCATGCCTGGGGGCACGGGACCCGTACTGTGGCTGGGACGGGAAACAGCAGCGGTGCAGCACTCTCGAGGACAGCGCCAACATGAGCCTCTGGACCCAGAACATCACAGCCTGTCCTGTTCAAAATGTGACACGGGATGGGGGCTTTGGCCCATGGTCACCTTGGCAGCCTTGCGAGCACCTAGATGGAGAGAACTCGGGCTCCTGCATGTGCAGGGCCCGAGCCTGCGACTCCCCTCGACCCCGCTGTGGGGGTCTCAACTGCCAGGGCCCGGCCATCCACATTGCCAATTGCTCCAGGAACGGGGCGTGGACGCCATGGTCCTCCTGGGCACAGTGCAGCACGTCATGTGGGATTGGCTTCCAGGTCCGCCAGCGAAGCTGCAGCAACCCTGCGCCCCGCCACGGGGGCCGCATCTGTGTGGGCAAGAGCCGCGAGGAGCGGTTCTGTAACGAAAACACGCTTTGCCCGGTGCCTATCTTCTGGGGCTCCTGGGGCTCCTGGAGCAAGTGCAGCAGCAACTGCGGAGGCGGCGTGCAGTCCAGGCGTCGCGCCTGCGAGAATGGCAACTCCTGCCCTGGCTGCGGCGTGGAGTTCAAGACCTGCAACCCCGAGGCCTGCCCCGAGGTGCGGCGCAACACGCCGTGGACGCCGTGGCTGCCTGTGAACGTGACGCAGGGCGGGGCACGGCAGGAGCAGCGCTTCCGCTTTACGTGCCGTGCGCCCCTGCCCGACCCCCATGGCCTGCAGTTTGGCCGGAGGAGGACAGAGACGCGAACGTGCCCTGCTGACGGCTCCGGGGCCTGCGACACGGACGCCCTGGTGGAGGAGCTACTGCGCAGTGGCAGCGCCTCCCCGCACACGCTGAGCGGGGGCTGGGCCGCCTGGGGCCCGTGGTCGTCCTGTTCTCGAGACTGCGAGCTGGGCTTCCGCGTCCGCAGAAGAACATGCACCAACCCAGAGCCCCGCAACGGAGGCCTGCCCTGCGCGGGCGACGCCGCCGAGTACCAGGACTGCAACCCGCAGGCCTGCCCAGTTCGGGGAGCCTGGTCCTGCTGGACCACGTGGTCCCAGTGCTCAGCCTCCTGCGGTGGGGGGCACTATCAGCGCACACGTTCCTGCACCAGCCCGGCACCCTCCCCAGGTGAGGACATCTGTCTGGGGCTGCACACGGAGGAGGCACTATGCGCCACACAGGCATGCCCAGGTACTGGGTGCATTTGGCTGGGGCTGGGGGACATCAAGGAGCCTCGGGTTCCCAGTAGGGGTTGGTGTTGGAGTACTCGACCTCATCCCACCTCACTCCCCACAGAAGGCTGGTCACCGTGGTCTGAGTGGGGTGAATGCACTGAGGATGGAACCCAGAGCCGCAGCCGGCACTGTGAAGAGCTTGTCCCAGGGCCCGGTGCCTGTGCTGGCAACAGCAGCCAGAACCGCCCCTGCCCCTACAGTGAGATTCCCATAATCCTGCCTGCCTCTAGTATGGAGGAGACTGCTGGCTGTGGAGGGTTTAATCTCATCCACCTGGTGGTCACAGGCGTCTCCTGCTTTCTGGGCTCTGGGCTCCTGACCGTGGCAGTATACCTCTCTTGCCAACACTGCCAGCGCCAGTCTCAGGAGTCCACACTTGTTCATCCTGCCACCCCCAACCACCTGCACTACAAGGGCACCCCCAAGAATGAGAAGTACACACCTATGGAGTTCAAGACCCTGAACAAGAATAACTTGATCCCTGATGACAGAGCCAACTTCTACCCTCTTCAGCAGACTAATGTGTATACGACCACCTATTACCCCAGCCCCCTGAACAAGCCCAGCTTCCGACCTGAGGCCTCACCTGGACAGCGGTGCTTCCCCAACAGCTGA
Sema5b sema domain, seven thrombospondin repeats (type 1 and type 1-like), transmembrane domain (TM) and short cytoplasmic domain, (semaphorin) 5B, transcript variant X4
Length: 3276 bp Location: 1370182..1244801 Strand: ->XM_004873615.1 ATGGTGGTCCCAGGACCCCTGGCTGTGTCACTGTTGCTGCCCAGCCTCGCTCTGCTGGTGGCCCACCTTTCCAGCTCCCATGATGTCTCCAGTGAGCCAAGCGGTGAGCAGCAACTCTGCACCCTGAGAGAGCACCCCACTGTGACCTTTGAAGATCTGAAGCCGTGGGTCTCTAACTTCACCTACCCTGGAGCTCGAGATTTCTCTCAACTTGCTCTGGATCCTACCAGGAATCAGCTCATCGTGGGAGCCAGGAACTACCTCTTCAGACTCAGCCTTGCCAATGTCTCCCTCCTTCAGGCCACAGAGTGGGCCTCCAATGAGGACACACGCCGCTCGTGCCAGAGCAAAGGGAAGACTGAGGAGGAGTGCCAGAACTACGTGCGGGTCCTGATCCTCACTGGCCGGAAGGTGTTCATGTGTGGCACCAACGCCTTTTCCCCCGTGTGCTCCAGCAGACAGGTGGGGAACCTCAGCAGAACCATTGAGAAGATCAACGGTGTGGCCCGCTGTCCCTACGACCCTCGCCACAACTCCACAGCTGTCATCTCCTCCCAGGGGGAGCTGTACGCGGCCACGGTTATCGACTTCTCTGGTCGGGACCCTGCCATCTACCGTAGCCTGGGCAGTGGGCCACCGCTTCGCACTGCCCAGTATAACTCCAAGTGGCTCAATGAGCCAAACTTTGTGGCAGCCTATGACATAGGGCTGTTTGCATACTTCTTTCTGCGGGAGAATGCGGTGGAGCACGACTGTGGGCGCACTGTGTACTCTCGGGTGGCCCGAGTATGCAAGAACGATGTGGGGGGCCGCTTCCTGCTGGAGGACACGTGGACCACATTCACGAAGGCCCGGCTTAACTGCTCCCGCCCGGGTGAGGTTCCCTTCTACTACAACGAGCTGCAGAGTGCCTTCCACCTGCCCGAGCAGGACCTCATCTACGGAGTCTTCACCACCAATGTAAACAGCATTGCCGCTTCTGCTGTCTGCGCCTTCAACCTCAGTGCCATCTCCCAAGCTTTCAATGGCCCGTTCCGTTACCAGGAGAACCCCAGGGCTGCCTGGCTCCCCATCGCCAACCCCATTCCCAATTTCCAGTGTGGCACCTTGCCTGAGACTGGCCCCAACGAGAACCTCACAGAGCGCAGCCTGCAGGACGCGCAGCGCCTATTCCTGATGAGCGAGGCCGTGCAGCCCGTGACACCCGAGCCCTGTGTCACCCAGGACAGCGTGCGTTTCTCGCACCTCGTGGTGGACCTAGTGCAGGCCAAGGACACGCTCTACCACGTGCTCTACATCGGCACCGAGTCGGGCACCATCCTGAAGGCGCTGTCCACCACCAGCCGCAGCCTCCACGGCTGCTACCTGGAGGAACTGCACGTGCTGCCGCCCGGGCGCCACGAGCCCCTGCGCAGCCTTCGCATTCTGCACAGCGCGCGCGCGCTCTTCGTGGGGCTGAGCGACGGCGTGCTGCGCGTCCCGCTGGAGAGGTGCGCCGCCTACCGCAGCCAGGGGGCATGCCTGGGGGCACGGGACCCGTACTGTGGCTGGGACGGGAAACAGCAGCGGTGCAGCACTCTCGAGGACAGCGCCAACATGAGCCTCTGGACCCAGAACATCACAGCCTGTCCTGTTCAAAATGTGACACGGGATGGGGGCTTTGGCCCATGGTCACCTTGGCAGCCTTGCGAGCACCTAGATGGAGAGAACTCGGGCTCCTGCATGTGCAGGGCCCGAGCCTGCGACTCCCCTCGACCCCGCTGTGGGGGTCTCAACTGCCAGGGCCCGGCCATCCACATTGCCAATTGCTCCAGGAACGGGGCGTGGACGCCATGGTCCTCCTGGGCACAGTGCAGCACGTCATGTGGGATTGGCTTCCAGGTCCGCCAGCGAAGCTGCAGCAACCCTGCGCCCCGCCACGGGGGCCGCATCTGTGTGGGCAAGAGCCGCGAGGAGCGGTTCTGTAACGAAAACACGCTTTGCCCGGTGCCTATCTTCTGGGGCTCCTGGGGCTCCTGGAGCAAGTGCAGCAGCAACTGCGGAGGCGGCGTGCAGTCCAGGCGTCGCGCCTGCGAGAATGGCAACTCCTGCCCTGGCTGCGGCGTGGAGTTCAAGACCTGCAACCCCGAGGCCTGCCCCGAGGTGCGGCGCAACACGCCGTGGACGCCGTGGCTGCCTGTGAACGTGACGCAGGGCGGGGCACGGCAGGAGCAGCGCTTCCGCTTTACGTGCCGTGCGCCCCTGCCCGACCCCCATGGCCTGCAGTTTGGCCGGAGGAGGACAGAGACGCGAACGTGCCCTGCTGACGGCTCCGGGGCCTGCGACACGGACGCCCTGGTGGAGGAGCTACTGCGCAGTGGCAGCGCCTCCCCGCACACGCTGAGCGGGGGCTGGGCCGCCTGGGGCCCGTGGTCGTCCTGTTCTCGAGACTGCGAGCTGGGCTTCCGCGTCCGCAGAAGAACATGCACCAACCCAGAGCCCCGCAACGGAGGCCTGCCCTGCGCGGGCGACGCCGCCGAGTACCAGGACTGCAACCCGCAGGCCTGCCCAGTTCGGGGAGCCTGGTCCTGCTGGACCACGTGGTCCCAGTGCTCAGCCTCCTGCGGTGGGGGGCACTATCAGCGCACACGTTCCTGCACCAGCCCGGCACCCTCCCCAGGTGAGGACATCTGTCTGGGGCTGCACACGGAGGAGGCACTATGCGCCACACAGGCATGCCCAGAAGGCTGGTCACCGTGGTCTGAGTGGGGTGAATGCACTGAGGATGGAACCCAGAGCCGCAGCCGGCACTGTGAAGAGCTTGTCCCAGGGCCCGGTGCCTGTGCTGGCAACAGCAGCCAGAACCGCCCCTGCCCCTACAGTGAGATTCCCATAATCCTGCCTGCCTCTAGTATGGAGGAGACTGCTGGCTGTGGAGGGTTTAATCTCATCCACCTGGTGGTCACAGGCGTCTCCTGCTTTCTGGGCTCTGGGCTCCTGACCGTGGCAGTATACCTCTCTTGCCAACACTGCCAGCGCCAGTCTCAGGAGTCCACACTTGTTCATCCTGCCACCCCCAACCACCTGCACTACAAGGGCACCCCCAAGAATGAGAAGTACACACCTATGGAGTTCAAGACCCTGAACAAGAATAACTTGATCCCTGATGACAGAGCCAACTTCTACCCTCTTCAGCAGACTAATGTGTATACGACCACCTATTACCCCAGCCCCCTGAACAAGCCCAGCTTCCGACCTGAGGCCTCACCTGGACAGCGGTGCTTCCCCAACAGCTGA
Sema5b sema domain, seven thrombospondin repeats (type 1 and type 1-like), transmembrane domain (TM) and short cytoplasmic domain, (semaphorin) 5B, transcript variant X3
Length: 3126 bp Location: 1369983..1244801 Strand: ->XM_004873614.1 ATGGTGGTCCCAGGACCCCTGGCTGTGTCACTGTTGCTGCCCAGCCTCGCTCTGCTGGTGGCCCACCTTTCCAGCTCCCATGATGTCTCCAGTGAGCCAAGCGGTGAGCAGCAACTCTGCACCCTGAGAGAGCACCCCACTGTGACCTTTGAAGATCTGAAGCCGTGGGTCTCTAACTTCACCTACCCTGGAGCTCGAGATTTCTCTCAACTTGCTCTGGATCCTACCAGGAATCAGCTCATCGTGGGAGCCAGGAACTACCTCTTCAGACTCAGCCTTGCCAATGTCTCCCTCCTTCAGGCCACAGAGTGGGCCTCCAATGAGGACACACGCCGCTCGTGCCAGAGCAAAGGGAAGACTGAGGAGGAGTGCCAGAACTACGTGCGGGTCCTGATCCTCACTGGCCGGAAGGTGTTCATGTGTGGCACCAACGCCTTTTCCCCCGTGTGCTCCAGCAGACAGGTGGGGAACCTCAGCAGAACCATTGAGAAGATCAACGGTGTGGCCCGCTGTCCCTACGACCCTCGCCACAACTCCACAGCTGTCATCTCCTCCCAGGGGGAGCTGTACGCGGCCACGGTTATCGACTTCTCTGGTCGGGACCCTGCCATCTACCGTAGCCTGGGCAGTGGGCCACCGCTTCGCACTGCCCAGTATAACTCCAAGTGGCTCAATGAGCCAAACTTTGTGGCAGCCTATGACATAGGGCTGTTTGCATACTTCTTTCTGCGGGAGAATGCGGTGGAGCACGACTGTGGGCGCACTGTGTACTCTCGGGTGGCCCGAGTATGCAAGAACGATGTGGGGGGCCGCTTCCTGCTGGAGGACACGTGGACCACATTCACGAAGGCCCGGCTTAACTGCTCCCGCCCGGGTGAGGTTCCCTTCTACTACAACGAGCTGCAGAGTGCCTTCCACCTGCCCGAGCAGGACCTCATCTACGGAGTCTTCACCACCAATGTAAACAGCATTGCCGCTTCTGCTGTCTGCGCCTTCAACCTCAGTGCCATCTCCCAAGCTTTCAATGGCCCGTTCCGTTACCAGGAGAACCCCAGGGCTGCCTGGCTCCCCATCGCCAACCCCATTCCCAATTTCCAGTGTGGCACCTTGCCTGAGACTGGCCCCAACGAGAACCTCACAGAGCGCAGCCTGCAGGACGCGCAGCGCCTATTCCTGATGAGCGAGGCCGTGCAGCCCGTGACACCCGAGCCCTGTGTCACCCAGGACAGCGTGCGTTTCTCGCACCTCGTGGTGGACCTAGTGCAGGCCAAGGACACGCTCTACCACGTGCTCTACATCGGCACCGAGTCGGGCACCATCCTGAAGGCGCTGTCCACCACCAGCCGCAGCCTCCACGGCTGCTACCTGGAGGAACTGCACGTGCTGCCGCCCGGGCGCCACGAGCCCCTGCGCAGCCTTCGCATTCTGCACAGCGCGCGCGCGCTCTTCGTGGGGCTGAGCGACGGCGTGCTGCGCGTCCCGCTGGAGAGGTGCGCCGCCTACCGCAGCCAGGGGGCATGCCTGGGGGCACGGGACCCGTACTGTGGCTGGGACGGGAAACAGCAGCGGTGCAGCACTCTCGAGGACAGCGCCAACATGAGCCTCTGGACCCAGAACATCACAGCCTGTCCTGTTCAAAATGTGACACGGGATGGGGGCTTTGGCCCATGGTCACCTTGGCAGCCTTGCGAGCACCTAGATGGAGAGAACTCGGGCTCCTGCATGTGCAGGGCCCGAGCCTGCGACTCCCCTCGACCCCGCTGTGGGGGTCTCAACTGCCAGGGCCCGGCCATCCACATTGCCAATTGCTCCAGGAACGGGGCGTGGACGCCATGGTCCTCCTGGGCACAGTGCAGCACGTCATGTGGGATTGGCTTCCAGGTCCGCCAGCGAAGCTGCAGCAACCCTGCGCCCCGCCACGGGGGCCGCATCTGTGTGGGCAAGAGCCGCGAGGAGCGGTTCTGTAACGAAAACACGCTTTGCCCGGTGCCTATCTTCTGGGGCTCCTGGGGCTCCTGGAGCAAGTGCAGCAGCAACTGCGGAGGCGGCGTGCAGTCCAGGCGTCGCGCCTGCGAGAATGGCAACTCCTGCCCTGGCTGCGGCGTGGAGTTCAAGACCTGCAACCCCGAGGCCTGCCCCGAGGTGCGGCGCAACACGCCGTGGACGCCGTGGCTGCCTGTGAACGTGACGCAGGGCGGGGCACGGCAGGAGCAGCGCTTCCGCTTTACGTGCCGTGCGCCCCTGCCCGACCCCCATGGCCTGCAGTTTGGCCGGAGGAGGACAGAGACGCGAACGTGCCCTGCTGACGGCTCCGGGGCCTGCGACACGGACGCCCTGGTGGAGGAGCTACTGCGCAGTGGCAGCGCCTCCCCGCACACGCTGAGCGGGGGCTGGGCCGCCTGGGGCCCGTGGTCGTCCTGTTCTCGAGACTGCGAGCTGGGCTTCCGCGTCCGCAGAAGAACATGCACCAACCCAGAGCCCCGCAACGGAGGCCTGCCCTGCGCGGGCGACGCCGCCGAGTACCAGGACTGCAACCCGCAGGCCTGCCCAGTTCGGGGAGCCTGGTCCTGCTGGACCACGTGGTCCCAGTGCTCAGCCTCCTGCGGTGGGGGGCACTATCAGCGCACACGTTCCTGCACCAGCCCGGCACCCTCCCCAGGTGAGGACATCTGTCTGGGGCTGCACACGGAGGAGGCACTATGCGCCACACAGGCATGCCCAGTAATCCTGCCTGCCTCTAGTATGGAGGAGACTGCTGGCTGTGGAGGGTTTAATCTCATCCACCTGGTGGTCACAGGCGTCTCCTGCTTTCTGGGCTCTGGGCTCCTGACCGTGGCAGTATACCTCTCTTGCCAACACTGCCAGCGCCAGTCTCAGGAGTCCACACTTGTTCATCCTGCCACCCCCAACCACCTGCACTACAAGGGCACCCCCAAGAATGAGAAGTACACACCTATGGAGTTCAAGACCCTGAACAAGAATAACTTGATCCCTGATGACAGAGCCAACTTCTACCCTCTTCAGCAGACTAATGTGTATACGACCACCTATTACCCCAGCCCCCTGAACAAGCCCAGCTTCCGACCTGAGGCCTCACCTGGACAGCGGTGCTTCCCCAACAGCTGA
Pdia5 protein disulfide isomerase family A, member 5, transcript variant X1
Length: 1626 bp Location: 1408670..1518743 Strand: +>XM_004873616.1 ATGAGCTGCGCGAGTGGAGATCCGAGCCGGCGGTGGGCACCGGCGGCGAGGATGGCACGGGCCGGGCCGGCGTGGGCGCTGCTACTGGCGATCTGGGTGATCCTGCCAAATTGGCTGTCCTCTGTAAAGGTCTCCTCATTCATCGAAAGAATATCTGACCCCAAGGACTTGAAGAAACTTCTCAGGACCCGGAATAACGTGCTGGTGCTTTACTCTAAATCTGAGGCAGCAGCTGAAAATCATCTCAGGTTATTGTCCACTGTGGCCCAGGCAGTGAAAGGGCAAGGCACCATCTGCTGGGTGGACTGTGGTGACACAGAGAGTAGAAAATTGTGCAAGAAGATGAAAGTTGACCTCAGCCCAAAGGACAAAAAGGTCGAGTTATTCCATTACCAGGATGGTGCATTTCACACCGAATATAATCGAGCTGTGACACTAAAGTCTGTAGTAGCCTTTTTGAAGGATCCAAAAGGGCCCCCACTGTGGGAAGAAGATCCTGGAGCCAAAGATGTTGTCCACATTGACAATGAAAAGGACTTCAGACGGCTCCTGAAGAAGGAAGAGAAGCCGCTCCTCATGATGTTTTATGCCCCCTGGTGCGGTATGTGCAAGAGGATAATGCCACATTTCCAGAAGGCTGCGACCCAGCTACGAGGCCACTTCGTGCTGGCTGGGATGAACATCTACCCCTCTGAATTTGAAAACATCAAGGAGGAGTACAACGTGCGTGGCTACCCCACCATCTGCTATTTTGAGAAAGGGCGCTTTCTGTTCCAGTATGATAACTACGGGTCCACAGCTGAGGACATTGTGGAATGGCTGAAGAATCCACAGCCGCCACAGCCCCAGGTCCCTGAGACTCCCTGGGCAGATGAGGGCGGCTCCATTTATCACCTGACCGATGAAGACTTTGACCAGTTTGTGAAGGAGCACTCCTCTGTCCTCGTCATGTTCCACGCCCCATGGTGTGGACACTGTAAGAAAATGAAGCCAGAGTTTGAGAGTGCAGCAGAAGTTCTCCATGGAGAAGCAGAGAGCTCTGGTGTCCTTGCAGCTGTCGATGCCACTGTCAACAAGGCCCTGGCAGAAAGATTCCACATCTCAGAGTTCCCAACATTGAAGTATTTTAAGAATGGAGAGAAATATGCAGTGCCCGCGCTCAGAACAAAGAAGAAGTTTATTGAGTGGATGCAGAACCCCAAGTCTCCCCTGCCACCGGAGCCCACATGGGAAGAACAGCAGACAAATGTGTTCCATCTGGCGGGGGACAACTTCCGGGACACCCTGAAGAAGAAGAAACACACCTTGGTCATGTTCTATGCCCCTTGGTGTCCACACTGTAAGCAGGTCATCCCACACTTTACTGCTGCTGCTGATGCCTTCAAAGATGACCGAAAGATTGCCTGTGGAGCCGTGGACTGTGTCAAAGATGGGAACCAGGACCTGTGTCAGCAGGAATCCGTGAAGGCCTACCCCACTTTCCACTACTACCACTACGGAAAGTTTGCTGAGAAGTACGACGGCGACCGGACGGTCAAATCCTTGAGAGAATCCAGTCAGTTGCTGGCAAGCTCCACTGATCCTCCCAGAGATGTGAATCAAAAAAAGAAGCCTATTAAAAGGTAA
unclassified transcription discrepancy mRNA
>XM_004873627.1 ATGAGGCGCGAGGTTGGGCGGGCGCCTTCCCGGAAGCGGAAGCTCGGGGGCAGGGCTGGAGGGGGATGGGAGTCTGTGGCGGTTAATTCATTTTGCAGTGCGGTCTCGCTTTCCTCCTTCTGGNGTTCTCTGAGGCTTCGAGAGATGGTCAGGTCCGGATCTCGGCCGGGCCAGGTATTGTCTTCAGGAAGGCACCCTGGATCTGCTAAATTAACAAATGGAAAGAAAGGGACCCATATAAGAAAAATCTCACGTTTTAACGCAGATTCTGGATGTCCCATCCATTCTGATTCGGAAAGTCAGACTGAAACCATACAGGGACTTGATGGTTGTGCTGCTTTGCTGCGGGACATTTTGAGAAATGAAGATTCAGTATCTTTGGATAATAAGAAACAGATACCTAGTGAAGTTTCTGCTGAAAGTGAAAGAGACACATCAGACACAGCACAAAATTGGTCATTACAAGATCATTATAGAATGTATTCACCAATAATATACCAAGCCCTCTGTGAGCATGTGCAGACTCAGATGTCATTGATGAATAACTTGGCGTCTAAGAATGGTCCCAATAGGATTCCTTCTGTACCTTACCATACTGTATCTGATTCTGAATCTCAAGCAACACTACATTCTAATTACTGCTGTTGTACCTCCACCCCAGTCTGGTCACCTCAGCAGCCACTCTGCCCTCCAATGGTTCATTCTGAAGTTCAAACCGATGGTGGTAACCAGTTTGCATCTCAAGGTAAAACAATGTCTGTGAACTATCCTGATGTTCCAAGGAGCTCATTCAATGCCAGTCCTGGAGTTGCATGTGGCCTGCCCCAAACTGACAAAGCAGCTGTTTCCACATCTCAGCAGCTGAGTCTTGCTAATTGGATTCTCCCACAACAAGGAGTCTGTAAGGAAGCAGACTTACAAAAGTGTCTTCAGACATGTATGTCTTTGTTTCAATCTCTTGGAAAGGAAACTCTCCCAGACATTAAGACACACCAGAGCCCAACTCAGCTACAGCCAGCTTTCTCGGCCTCTAATGAAGAAACCTGTGCCCGAGAACAAATTGCAGAGGCCACTAATGAAGGAAAGTGTTTAAATGTTCAAGATGCAAAAATAGTCCAGGATACACAGAAGGCAAAAAATGTGAATCAGACTGCCGAAAAAGTTAAAACTATAAAGTATTTGCTGAGAGAGCTCAAGGCCCTGGTAGCAGAACAAGAGGATTCAGAAATTCAGAGGTTGGTAACAGAAGTGGAAGCATGTATAACTGGACTTTTAGCTGTAAGTGGAAACATAGATATTCAAGTTGAAATAGCACTAGCCATGCAACCATTGAGAAGTGAAAATGCTCAGTTACGAAGGCAATTAAGAATTTTGAATCAGAAACTCAGAGAACAAGAAAAAACTCCAAAGGCATATGGTAATATGGAATGCAACCCTGAATTGTTTTCCCTTCAGTCATTGAACATGTCACTGCAAAATCAATTGCGGGAGTCACTGAAGAGCCAGGAATTACTACAGAATAAAAATGAAGAGCTCCTAAAAGTGATTGAAAATCAAAAAGATGAAAACAAAAAATTTGCTAGTGTATTTAAAGACAAAGATCAAACCCTTCTTGAAAATAAACAGCAATTTGACATTGAGATAACGAGAATAAAACTTGAATTGGAAGAAGCCTTGGTAAATGTGAAAAACTCCCAGTTTAAGTTAGAAACTGCTGAAAAGGAAAATCAAATATTGGGAATAACACTACATCAGCGTGATGCCGAGGTGGCTCGCCTGAGAGAATTAACCAGAACTTTACAGAACAGTATGGCAAAGCTGCTCTCAGATCTTAGTGTGGATACTACTCGCTGCAAGCCTGGGAATAACCTTACCAAATCACTTCTGCACACTTATGATAAACAACTTCAACAGGACCCCACCCCTCCTCACACTTCCGTAATGAATTACCTAAATAAGTTAGAAACAAATCACAGTTTTACTCATTCAGAGCCACTTTCTGCAGTTAAGGATGAGGAAACCATAAACGCAAACAGACCCTGTGAAAACGTCTTGCCTTCCAGAGGCCCTCCACATGGTGACTCTAGGGCCGTGGAGGGGGTGTCCGCCCCTGAGATTCTTCCTGACTTTTCACAGCAGGGTTCTGATGTGGAGTGTGAAAGCATAACTTTAATGGAAGATTCATGTAGTTTGGATAATACAATTTATATTCCTTTTGCTAGAAGCTCTTCTAAAAAGAATTCACCACTTTCTAAGAGGATATCCCCCAAGCCACAGGTAAGTGTTGCTGCAACCCAGCTGGTCAGCAATAGTGCCCTGACCCGGGAAACAGAAAGTAAACTGTGTTCACCTGTAATTTGTTTGAATAATGAAGCAAAAGATATATCTGAAAAACTTTCCAGAACAGGTGATGCAGAAGACAAACAACTCCTCAAGAAAATAAAGGAAGCAATTCATAAGATCCCTGCTGCCACCAAGGAGCCAGAGGAACAGGCCTACCACGGCCCATCAGTTTGTCACACCACCAATGTCCAAGCAAAAGGCAACACAGTCTGTGATGGCAGCTTTTTAAATTCTGACCTGATGTCAGACTGGAGCATCTCTTCTTTTTCAACCTTCACTTCTCGTGATGAACAAGACTTCAGAAATGGGCTGGCAGCACTGGATGCCAACATAGCTAGGCTCCAGAAGTCCTTAAGAACTGGTCTTCTGGAGAAATGA
Pdia5 protein disulfide isomerase family A, member 5, transcript variant X2
>XM_004873617.1 ATGAGCTGCGCGAGTGGAGATCCGAGCCGGCGGTGGGCACCGGCGGCGAGGATGGCACGGGCCGGGCCGGCGTGGGCGCTGCTACTGGCGATCTGGGTGATCCTGCCAAATTGGCTGTCCTCTGTAAAGGTCTCCTCATTCATCGAAAGAATATCTGACCCCAAGGACTTGAAGAAACTTCTCAGGACCCGGAATAACGTGCTGGTGCTTTACTCTAAATCTGAGGCAGCAGCTGAAAATCATCTCAGGTTATTGTCCACTGTGGCCCAGGCAGTGAAAGGGCAAGGCACCATCTGCTGGGTGGACTGTGGTGACACAGAGAGTAGAAAATTGTGCAAGAAGATGAAAGTTGACCTCAGCCCAAAGGACAAAAAGGTCGAGTTATTCCATTACCAGGATGGTGCATTTCACACCGAATATAATCGAGCTGTGACACTAAAGTCTGTAGTAGCCTTTTTGAAGGATCCAAAAGGGCCCCCACTGTGGGAAGAAGATCCTGGAGCCAAAGATGTTGTCCACATTGACAATGAAAAGGACTTCAGACGGCTCCTGAAGAAGGAAGAGAAGCCGCTCCTCATGATGTTTTATGCCCCCTGGTGCGGTATGTGCAAGAGGATAATGCCACATTTCCAGAAGGCTGCGACCCAGCTACGAGGCCACTTCGTGCTGGCTGGGATGAACATCTACCCCTCTGAATTTGAAAACATCAAGGAGGAGTACAACGTGCGTGGCTACCCCACCATCTGCTATTTTGAGAAAGGGCGCTTTCTGTTCCAGTATGATAACTACGGGTCCACAGCTGAGGACATTGTGGAATGGCTGAAGAATCCACAGCCGCCACAGCCCCAGGTCCCTGAGACTCCCTGGGCAGATGAGGGCGGCTCCATTTATCACCTGACCGATGAAGACTTTGACCAGTTTGTGAAGGAGCACTCCTCTGTCCTCGTCATGTTCCACGCCCCATGGTGTGGACACTGTAAGAAAATGAAGCCAGAGTTTGAGAGTGCAGCAGAAGTTCTCCATGGAGAAGCAGAGAGCTCTGGTGTCCTTGCAGCTGTCGATGCCACTGTCAACAAGGCCCTGGCAGAAAGATTCCACATCTCAGAGTTCCCAACATTGAAGTATTTTAAGAATGGAGAGAAATATGCAGTGCCCGCGCTCAGAACAAAGAAGAAGTTTATTGAGTGGATGCAGAACCCCAAGTCTCCCCTGCCACCGGAGCCCACATGGGAAGAACAGCAGACAAATGTGTTCCATCTGGCGGGGGACAACTTCCGGGACACCCTGAAGAAGAAGAAACACACCTTGGTCATGTTCTATGCCCCTTGGTGTCCACACTGTAAGCAGGTCATCCCACACTTTACTGCTGCTGCTGATGCCTTCAAAGATGACCGAAAGATTGCCTGTGGAGCCGTGGACTGTGTCAAAGATGGGAACCAGGACCTGTGTCAGCAGGAATCCGTGAAGGCCTACCCCACTTTCCACTACTACCACTACGGAAAGTTTGCTGAGAAGTACGACGGCGACCGGACGGAATTGGCATTTACCAATTTTATTCGAACCCTCCGGGAGGGAGACCTAGAGAAACTAGGGAAAAGGAAGGAGGAATTGTAA
Sec22a SEC22 vesicle trafficking protein homolog A (S. cerevisiae)
>XM_004873618.1 ATGTCTGTGATTTTATCTGCCTCAGTTGTTCGTGTCAGAGATGGACTACCACTTTCTGCTTCTACGGATTATGAACAAAACACAGGAATGCAGGAGTGCAGAAAGTATTTTAAAATGCTCTCGAGAAAACTTGCTCAACTTCCTGATAGATGTACACTGAAAACTGGACATTATAACATTAATTTTATTAGCTCTCTGGGAGTGAGCTACATGATGTTGTGCAGTGAAAATTACCCAAATGTTCTCGCCTTCTCTTTCCTGGATGAGCTTCAGAAGGAGTTCATTACTACTTATAATATGATGAAGACAAATACTGCTGTCAGACCATACTGTTTCATTGAATTTGATAACTTCATTCAGAGGACCAAGCAACGATATAATAATCCCAGGTCTCTTTCAACAAAGATAAATCTGTCTGACATGCAGGTGGAAATCAACCTGAGGCCCCCTTATCAAATTCCTATGTGTGAACTGGGGCCAGCCAATGGAGTAACATCTGCATTTTCTGTTGATTATAAAGGTGCTGGTAAGATTTCTTCTGCTCACCAGCGACTGGAACCAGCAACTCTATCAGGGATTGTGGCATTTATCCTTAGTCTTTTATGTGGAGCTCTGAATTTAATTCGAGGGTTTCATGCCATAGAAAGTCTCCTACAGAGTGATGGTGAAGATTTTAATTACATCATTGCATTTTTCCTTGGAACAGCAGCCTGCCTCTACCAGTGTTATTTACTTGTCTACTACACCGGGTGGCGGAATGTCAAATCTTTTTTGACTTTTGGCTTAATCTGTCTATGCAACATGTATCTCTATGAACTGCGCAACCTCTGGCAGCTTTTCTTTCATGTGACTGTGGGAGCATTTGTCACACTGCAGATCTGGCTGAGGCAAGCCCAGGGCAAGGCTCCTGATTATGATGTCTGA
Ptplb protein tyrosine phosphatase-like (proline instead of catalytic arginine), member b
>XM_004873620.1 ATGGCTGCTTCGGCGGTGGCGACTGCAGCGTCTAAGGGGAATGGGGGTGGCGGTGGCCGGTCAGGGCCCAGCGAAGGCAGTAGCGCGAGAAAGAAGAAGTTCCCGGGGCCGTTGGCCACAGCGTACCTGGTCATCTACAATGTGGTGATGACGGCGGGGTGGCTGGTTATAGCAGTTGGTCTGGTCAGAGCCTATCTGGCTAAAGGGAGCTATCATAGCCTTTATTATTCAATAGAAAAGCCTTTGAAATTCTTCCAAACTGGAGCCTTACTGGAGATTTTACATTGTGCTATTGGAATTGTTCCATCTTCTGTTGTCCTGACTTCTTTCCAGGTGATGTCAAGAGTTTTTCTAATATGGGCAGTAACACATAGTGTCAAAGAGGTACAGACTGAAGACAGTGTCCTCCTGTTTGTTACTGCCTGGACAATCACAGAAATTATCCGTTACTCCTTTTATACATTCAGTCTGTTAAACCATCTGCCTTATCTCATCAAATGGGCCAGGTACACACTTTTCATCGTGCTGTACCCGATGGGCGTGTCAGGAGAGTTGCTCACAATATATGCAGCTCTGCCCTTTGTCAGACAGGCTGGCCTGTACTCCATCAGTTTACCTAACAAATACAATTTCTCCTTTGACTATTATGCATTCCTAATTCTGATAATGATCTCCTACATTCCACTTTTCCCCCAGTTATACTTCCACATGATACACCAGAGAAGAAAAGTCCTTTCTCATACTGAAGAACACAAGAAATTTGAATAG
Mylk myosin light chain kinase, transcript variant X2
Length: 5811 bp Location: 2172718..1952053 Strand: ->XM_004873622.1 ATGGCTGAGAAGACCTTGACCATGGGGGATGTGAAGCTGATTGCCTCATCGCACGTATCCAAAACCTCCCTGAGTGTGGATCCTTCAAGCATTGGCTCCCTACCACTGATGGAGGCCCCTGCTTTCATTCTGCCCCCTCGGAACCTCTGCATCAAAGAAGGCACCACAGCCAAGTTTGAAGGGCGGGTCCGGGGTTACCCAGAGCCCCAGGTGACATGGCACAAAAATGGGCAACCCATCTCCAGTGGGGGCCGCTTCCTGCTGGACTTCGGTGTCCGAGGGACTTTCAGCCTTGCTATTGGTGCTGTCTGTGGGGAGGACAAGGGAAAGTACACCTGTGAAGCCAGCAACAGTAGTGGTGCCCGCCAGGTGACTGTGGAGCTGACTGTGGAAGAGAGTTTTGCCAAGAAGCGTGGTCATCCTGTTGCTTCCAAAAGCCTGGGGGACAGATTTTCAGCCCTAGGAGTGGAAACACGTCCTAGCATCTGGGGTGAGTGCCCACCAAAGTTTGCCACCAAGCTGGGCCGAGCAGTGGTCAAAGAAGGACATATGGGACGATTCTCCTGCAAGGTCACTGGGCGGCCCCAACCTCAGGTCACCTGGCTCAAGGGAAATGTCGCACTGCAGCCGAGTGCCCGTGTTTCTATGTCTGAGAAGAATGGGATGCAGGTCCTGGAAATTCGTGCGGTCACCCAGGAGGATGTGGGCATGTACACATGCCTGGTGGTAAACGGGTCAGGAAAGGCCTCCATGTCGGCAGAGCTCTCCATCCCAGGTTTGGACAAGGTCAACAGGTCATTTGTGAGAGAAACAAAGGCCCCTGATGCTGACATGAGGAGGGAGGTGACCAATGGAATCAAAAAGGGGCTGAAACTGGACAGCCTGGAGACAATGGCCGGAAGTAAGAATAGCTCCAGCCTGCAGAAAGGTGGCTCTCTGGCCTGGGTCACAAACAGCCCTTCACATTCCCTGTGGGAGACTGAACCAGAGCCGTGCAGGGACTCCCCAAGAAAGGTCCAGAAGACTTCCAGCACCATCACCCTGCAGGCCACAAAAGTCCAGCCAGAACCCAGAGCACCAACCTTGGGGGCTCTGTCTCCTTCTGGAGAAGAGCAGAAGAGACCAGCTGCTTCCCAGCCAGCCACCCACCCCACCAGTTGGTCTGGCCTGGAAAGCCCAGAAGTTGTGAGTACAGTTGCCACCAGGAAAACCCCCATGGAAAGCCAGAGAGAGTCAACATTGCCCAAGTTTGAGAACAAGCCCCAAAGCCTAGAAGTCAGCGAACATGAAACAGTCAAGTTCAGGTGCGAAGTTTCAGGGATCCCGAAGCCTGAAGTGGCCTGGTTCCTGGAAGGTATCCCTGTGCAGACAAGAGAAGGCACCACTGAGGTTTATGAGCACGGGGGATCCCATTACCTCTGCCTGCTGAGAGCCCGGGCCAGGGACAGTGGCCAGTACAGCTGCACAGCTTCCAATAGCCAAGGCCAGGTGTCCTGCACCTGGACCCTCCTAGTGGAAAAGCCAGTCGAGATGGAGGTGGTTCCCTCCTTCTCCAGTGTCCTGAAGGACTGCACCGTCATCGAGGGCCAGGATTTTGTGCTGCAGTGCTCTGTGCAGGGGACCCCAGTGCCCCAAATCATTTGGCTACTCAATGGGCAGCCCATCCAGTATGCGCACTCCACCTGCCAGGCTGGCGTGGCTGAGCTCCGCATCCAGGACACCCTGCCAGAGGATGATGGTGTCTATACCTGTCTGGCTGAGAACGCCTTGGGGCAAGTGTCCTGCAGCGCCAGGGTCACCGTCCATGAAAAGAAGAGTGACAGGAAGAGTGTCCTTTTGCCTCTGGCTCCCACCAAGACCACCGAACCTATCTTCCTGCAGGGCCTCTCTGATCTCCGAGTCATGGATGGAAGCCAGGTCACCATGACAGTCCAGGTGTCAGGGAATCCGCCCCCCGAGGTCATCTGGCTTCACAATGGGAATGAGATCCAGGAGTCCGAGGACTTCCACTTTGAACGGAGAGGCACCCAGCACAGCCTCTGCATCCAGGAGGTGTTCCCCGAGGACACGGGCACCTACACCTGTGAGGCCTGGAACAGTGCTGGGGCAGTTCGCACCCAAGCCATGCTCATGGTCCAAGAGCCACAAGATGGCACCCAGCCCTGGTTCATCAGCAAGCCTCGTTCAGTGACAGCCTCTCTGGGGCAAAGTGTCCTCATCTCCTGTGCCATCGCTGGTGACCCCTTTCCCAGCGTGCACTGGCTCCGAGATGGCAAAGCCCTTTCGAAAGACACCGGCCACTTTGAGGTGCTGCAGAATGAGGATGTGTTCACCCTGGTTCTGAAGAATGTGCAGCCCTGGCACGCCGGCCAGTATGAGATCCTGCTCAGGAACCAGGTTGGCGAATGCAGCTGCCAGGTGTCGCTGATGCTACAGAACAGCCCTGCCAGCTCCCTCACTCGGGGGCGGGAGGCTACCAGCCGTGAGGGCCTCTGTGGTGGAGGAGTTGGTGCTGATGGTGGTGGTGACTGCGATGGGACCCTGAGGCCTGGCTGGTTAGCAAGAGGGCAGGGTTGGCTGGAGGAGGAATCCGGTGAGGACGTTCGGGGCCTGCTGAAGAGGCGCGTGGAGACCAGGCTGCACACAGAGGAGGCGATCCGCCAGCAGGAGGTGGAGCAGCTGGATTTCCGTGACCTCCTGGGGAAGAAGGTGAACACCAAGACAGTGTCCGAAGAAGACCTCAAGGAGATCCCAGCTGAGCAGATGGATTTCCGTGCCAACCTGCAGAGGCAAGTGAAACCAAAGACTGTGTCTGAGGAAGAGAGGAAGGTGCATAGTCCCCAACAGGTCGACTTCCGTTCCGTCCTGGCCAAGAAGGGGACTCCCAAGACCCCCGGGCCTGAGAAGGCACCACCTCCAAAACCTGCCACCCCGGATTTCCGCTCGGTGCTGGGCAGCAAGAAGAAAACACCAGCAGAGAATGGTAGCAGCAGTGCAGAGGCCCCAGATACCAAACCGCCACAAAGTCCCATGTCTGTGGGCAATTCAGAGGTTGCAGGATCCCTGAAACCCATGGGCAACGCCAAGCCTGCCGAGATCATGAAACCTGTGGGCAACACTCAGCATGCAGAGATTCTGAAACCTGTGAGCAACGCACAGCCTTCTGGGTCCCTAAAACCCATGGGCAATGCCAAGCCTGCTGAGACCCCGAAACCCCTGAGCAATGCCAAACCTGCTGAAATCCTGAAACCATGTGGGAAAGAAGAACTCAAGAAGGAAGTTAAGAATGATGTGAACTGCAAGAGAGGGCGTGCAGGGGCCACAGATAATGAGAAAAGACCAGAGAGCCAAGGGACGGCCCCGACCTTCATGGAGAAGCTACAAGATGTCCATGTAGCAGAGGGTGAGAAACTGCTACTCCAGTGCCAGGTGTCCTCTGACCCCCCAGCCACCATCACATGGACACTGAATGGAAAGACACTCAAGACCACCAAGTTCATCATCCTCTCCCAAGAAGACTCAGTGTGCTCTGTCTCCATCGAGAAGGCTCTGCCTGAGGACAGGGGCGTGTACAAGTGCGTAGCCAAGAACGGTGCTGGCCAGGCAGCATGTTCCTGCCAAGTCACCGTGGACGATGCACAGGCCGGAGAGAACACCAAGGCCCCGGAGTTGAAATCCCGGAGGTCCAAGAGCTCTCTTCCCCCTGTGCTAGGAACGGAGAGTGATGCAACTGTGAAAAAGAAACCCACCCCCAAGACATCTCCGAAGGCAGCTATGCCCCCTCAGATCATCCAGTTCCCGGAGGACCAGAAGGTGCGTGCAGGAGAGCCTGTGGAGCTGTTTGGGAAAGTGGCCGGCAGCCAGCCCATCACCTGTACCTGGATGAAGTTCCGAAAGCAGATCCAGAACAGTGAGCACATCAAGGTGGAGAACAGCGAGGGGGGCAGCAAGCTCACCATCCTGGCTGCGCGCCAGGAGCATTGCGGCTGCTACACGCTGCTGGTGGAGAACAAGCTGGGCAGCAGGCAGGCCCAGGTCAATCTCACTGTCGTGGACAAGCCAGACCCCCCAGCTGGCACACCTTGCGCTTCTGATATCCGGAGCGCCTCACTGATCCTGTCCTGGTATGGCTCTTCCTATGATGGTGGCAGTGCCGTACAGTCCTACAGCGTTGAGATCTGGAACTCAGTAGACAAGATGTGGAAGGAACTAGCCACATGCCGCAGCACCTCTTTTAACATCCAGGACCTGCTGCCTGACCGGGAGTATAAATTCCGTGTTCGAGCAATCAATGTCTATGGCACAAGCGAGCCAAGCCAGGAGTCTGAGCTCACCTCAGTGGGAGAGAAACCTGAAGAGCCGAAGGATGAAGTGGAGGTGTCAGATGATGATGAGAAGGAGCCTGAAGTGGACTATCGGACAGTGACCGTCAACACTGAACAAAAAGTATCTGACCTGTACAACATCGAGGAGCGATTAGGATCTGGGAAATTTGGACAAGTTTTTCGACTTGTAGAAAAGAAAACTGGAAAAATCTGGGCAGGGAAATTCTTCAAGGCATATTCAGCAAAAGAGAAAGAGAATATCCGGGAGGAGATTAGCATCATGAACTGCCTTCACCATCCCAAGCTGGTCCAGTGTGTGGACGCCTTCGAGGAGAAGGCCAACATCGTGATGGTGCTGGAGATCGTGTCAGGTGGTGAGCTGTTTGAGCGTATCATTGACGAGGACTTCGAGCTGACAGAGCGGGAGTGCATCCAGTACATGAGGCAGATCTCGGAGGGGGTGGCCTACATCCACAAGCAGGGCATCGTGCACCTGGACCTCAAGCCTGAGAACATCATGTGTGTCAACAAGACGGGCACCAGAATCAAGCTCATCGACTTCGGTCTGGCCCGGAGGCTGGAGAATGCAGGGTCTCTGAAGGTCCTCTTTGGCACCCCAGAGTTTGTGGCTCCTGAAGTGATCAACTATGAACCTATCAGCTACGCCACGGACATGTGGAGCATCGGGGTCATCTGCTATATCCTGGTCAGCGGTCTTTCTCCCTTCATGGGTGACAACGACAATGAGACCTTAGCCAATGTTACCTCAGCCACCTGGGACTTCGATGACGAGGCATTTGATGAGATCTCCGAGGATGCCAAGGATTTCATCAGCAACTTGCTGAAGAAAGATATGAAAAACCGCTTGAACTGTACACAGTGTCTTCAGCACCCATGGCTAATGAAAGATACTAAGAACATGGAGGCCAAGAAGCTGTCCAAGGACCGGATGAAAAAGTACATGGCAAGAAGGAAATGGCAGAAAACAGGCAATGCTGTGAGAGCCATCGGAAGACTGTCCTCTATGGCAATGATCTCAGGGCTCAGCGGCAGGAAGTCCTCAACAGGGTCACCGACCAGCCCTCTCAATGCAGAGAAGCTAGAATCTGAAGAAGATGTCTCCCAGGCTTTCCTCGAGGCCGTAGCTGAGGAAAAGCCCCACATAAAACCCTATTTCTCTAAGACCATTCTTGACTTGGAAGTTGTAGAGGGAAGTGCTGCTAGATTTGACTGTAAGATTGAAGGATACCCAGACCCTGAGGTCGTCTGGTTCAAAGATGACCAGTCGATCAGAGAGTCACGCCACTTCCAGATAGACTACGATGAGGATGGGAACTGCTCTTTGATTATTAGTGATGTTTGTGGGGATGACGACGCCAAGTACACCTGCAAGGCTGTCAACAGTCTTGGAGAAGCCACCTGCACAGCAGAGCTCATTGTGGAAACCATGGAGGAAGGAGAGGGGGAAGGGGAAGAGGAAGAATGA
Mylk myosin light chain kinase, transcript variant X5
>XM_004873625.1 ATGGGGGATGTGAAGCTGATTGCCTCATCGCACGTATCCAAAACCTCCCTGAGTGTGGATCCTTCAAGCATTGGCTCCCTACCACTGATGGAGGCCCCTGCTTTCATTCTGCCCCCTCGGAACCTCTGCATCAAAGAAGGCACCACAGCCAAGTTTGAAGGGCGGGTCCGGGGTTACCCAGAGCCCCAGGTGACATGGCACAAAAATGGGCAACCCATCTCCAGTGGGGGCCGCTTCCTGCTGGACTTCGGTGTCCGAGGGACTTTCAGCCTTGCTATTGGTGCTGTCTGTGGGGAGGACAAGGGAAAGTACACCTGTGAAGCCAGCAACAGTAGTGGTGCCCGCCAGGTGACTGTGGAGCTGACTGTGGAAGAGAGTTTTGCCAAGAAGCGTGGTCATCCTGTTGCTTCCAAAAGCCTGGGGGACAGATTTTCAGCCCTAGGAGTGGAAACACGTCCTAGCATCTGGGGTGAGTGCCCACCAAAGTTTGCCACCAAGCTGGGCCGAGCAGTGGTCAAAGAAGGACATATGGGACGATTCTCCTGCAAGGTCACTGGGCGGCCCCAACCTCAGGTCACCTGGCTCAAGGGAAATGTCGCACTGCAGCCGAGTGCCCGTGTTTCTATGTCTGAGAAGAATGGGATGCAGGTCCTGGAAATTCGTGCGGTCACCCAGGAGGATGTGGGCATGTACACATGCCTGGTGGTAAACGGGTCAGGAAAGGCCTCCATGTCGGCAGAGCTCTCCATCCCAGGTTTGGACAAGGTCAACAGGTCATTTGTGAGAGAAACAAAGGCCCCTGATGCTGACATGAGGAGGGAGGTGACCAATGGAATCAAAAAGGGGCTGAAACTGGACAGCCTGGAGACAATGGCCGGAAGTAAGAATAGCTCCAGCCTGCAGAAAGGTGGCTCTCTGGCCTGGGTCACAAACAGCCCTTCACATTCCCTGTGGGAGACTGAACCAGAGCCGTGCAGGGACTCCCCAAGAAAGGTCCAGAAGACTTCCAGCACCATCACCCTGCAGGCCACAAAAGTCCAGCCAGAACCCAGAGCACCAACCTTGGGGGCTCTGTCTCCTTCTGGAGAAGAGCAGAAGAGACCAGCTGCTTCCCAGCCAGCCACCCACCCCACCAGTTGGTCTGGCCTGGAAAGCCCAGAAGTTGTGAGTACAGTTGCCACCAGGAAAACCCCCATGGAAAGCCAGAGAGAGTCAACATTGCCCAAGTTTGAGAACAAGCCCCAAAGCCTAGAAGTCAGCGAACATGAAACAGTCAAGTTCAGGTGCGAAGTTTCAGGGATCCCGAAGCCTGAAGTGGCCTGGTTCCTGGAAGGTATCCCTGTGCAGACAAGAGAAGGCACCACTGAGGTTTATGAGCACGGGGGATCCCATTACCTCTGCCTGCTGAGAGCCCGGGCCAGGGACAGTGGCCAGTACAGCTGCACAGCTTCCAATAGCCAAGGCCAGGTGTCCTGCACCTGGACCCTCCTAGTGGAAAAGCCAGTCGAGATGGAGGTGGTTCCCTCCTTCTCCAGTGTCCTGAAGGACTGCACCGTCATCGAGGGCCAGGATTTTGTGCTGCAGTGCTCTGTGCAGGGGACCCCAGTGCCCCAAATCATTTGGCTACTCAATGGGCAGCCCATCCAGTATGCGCACTCCACCTGCCAGGCTGGCGTGGCTGAGCTCCGCATCCAGGACACCCTGCCAGAGGATGATGGTGTCTATACCTGTCTGGCTGAGAACGCCTTGGGGCAAGTGTCCTGCAGCGCCAGGGTCACCGTCCATGAAAAGAAGAGTGACAGGAAGAGTGTCCTTTTGCCTCTGGCTCCCACCAAGACCACCGAACCTATCTTCCTGCAGGGCCTCTCTGATCTCCGAGTCATGGATGGAAGCCAGGTCACCATGACAGTCCAGGTGTCAGGGAATCCGCCCCCCGAGGTCATCTGGCTTCACAATGGGAATGAGATCCAGGAGTCCGAGGACTTCCACTTTGAACGGAGAGGCACCCAGCACAGCCTCTGCATCCAGGAGGTGTTCCCCGAGGACACGGGCACCTACACCTGTGAGGCCTGGAACAGTGCTGGGGCAGTTCGCACCCAAGCCATGCTCATGGTCCAAGAGCCACAAGATGGCACCCAGCCCTGGTTCATCAGCAAGCCTCGTTCAGTGACAGCCTCTCTGGGGCAAAGTGTCCTCATCTCCTGTGCCATCGCTGGTGACCCCTTTCCCAGCGTGCACTGGCTCCGAGATGGCAAAGCCCTTTCGAAAGACACCGGCCACTTTGAGGTGCTGCAGAATGAGGATGTGTTCACCCTGGTTCTGAAGAATGTGCAGCCCTGGCACGCCGGCCAGTATGAGATCCTGCTCAGGAACCAGGTTGGCGAATGCAGCTGCCAGGTGTCGCTGATGCTACAGAACAGCCCTGCCAGCTCCCTCACTCGGGGGCGGGAGGCTACCAGCCGTGAGGGCCTCTGTGGTGGAGGAGTTGGTGCTGATGGTGGTGGTGACTGCGATGGGACCCTGAGGCCTGGCTGGTTAGCAAGAGGGCAGGGTTGGCTGGAGGAGGAATCCGGTGAGGACGTTCGGGGCCTGCTGAAGAGGCGCGTGGAGACCAGGCTGCACACAGAGGAGGCGATCCGCCAGCAGGAGGTGGAGCAGCTGGATTTCCGTGACCTCCTGGGGAAGAAGGTGAACACCAAGACAGTGTCCGAAGAAGACCTCAAGGAGATCCCAGCTGAGCAGATGGATTTCCGTGCCAACCTGCAGAGGCAAGTGAAACCAAAGACTGTGTCTGAGGAAGAGAGGAAGGTGCATAGTCCCCAACAGGTCGACTTCCGTTCCGTCCTGGCCAAGAAGGGGACTCCCAAGACCCCCGGGCCTGAGAAGGCACCACCTCCAAAACCTGCCACCCCGGATTTCCGCTCGGTGCTGGGCAGCAAGAAGAAAACACCAGCAGAGAATGGTAGCAGCAGTGCAGAGGCCCCAGATACCAAACCGCCACAAAGTCCCATGTCTGTGGGCAATTCAGAGGTTGCAGGATCCCTGAAACCCATGGGCAACGCCAAGCCTGCCGAGATCATGAAACCTGTGGGCAACACTCAGCATGCAGAGATTCTGAAACCTGTGAGCAACGCACAGCCTTCTGGGTCCCTAAAACCCATGGGCAATGCCAAGCCTGCTGAGACCCCGAAACCCCTGAGCAATGCCAAACCTGCTGAAATCCTGAAACCATGTGGGAAAGAAGAACTCAAGAAGGAAGTTAAGAATGATGTGAACTGCAAGAGAGGGCGTGCAGGGGCCACAGATAATGAGAAAAGACCAGAGAGCCAAGGGACGGCCCCGACCTTCATGGAGAAGCTACAAGATGTCCATGTAGCAGAGGGTGAGAAACTGCTACTCCAGTGCCAGGTGTCCTCTGACCCCCCAGCCACCATCACATGGACACTGAATGGAAAGACACTCAAGACCACCAAGTTCATCATCCTCTCCCAAGAAGACTCAGTGTGCTCTGTCTCCATCGAGAAGGCTCTGCCTGAGGACAGGGGCGTGTACAAGTGCGTAGCCAAGAACGGTGCTGGCCAGGCAGCATGTTCCTGCCAAGTCACCGTGGACGATGCACAGGCCGGAGAGAACACCAAGGCCCCGGAGTTGAAATCCCGGAGGTCCAAGAGCTCTCTTCCCCCTGTGCTAGGAACGGAGAGTGATGCAACTGTGAAAAAGAAACCCACCCCCAAGACATCTCCGAAGGCAGCTATGCCCCCTCAGATCATCCAGTTCCCGGAGGACCAGAAGGTGCGTGCAGGAGAGCCTGTGGAGCTGTTTGGGAAAGTGGCCGGCAGCCAGCCCATCACCTGTACCTGGATGAAGTTCCGAAAGCAGATCCAGAACAGTGAGCACATCAAGGTGGAGAACAGCGAGGGGGGCAGCAAGCTCACCATCCTGGCTGCGCGCCAGGAGCATTGCGGCTGCTACACGCTGCTGGTGGAGAACAAGCTGGGCAGCAGGCAGGCCCAGGTCAATCTCACTGTCGTGGACAAGCCAGACCCCCCAGCTGGCACACCTTGCGCTTCTGATATCCGGAGCGCCTCACTGATCCTGTCCTGGTATGGCTCTTCCTATGATGGTGGCAGTGCCGTACAGTCCTACAGCGTTGAGATCTGGAACTCAGTAGACAAGATGTGGAAGGAACTAGCCACATGCCGCAGCACCTCTTTTAACATCCAGGACCTGCTGCCTGACCGGGAGTATAAATTCCGTGTTCGAGCAATCAATGTCTATGGCACAAGCGAGCCAAGCCAGGAGTCTGAGCTCACCTCAGTGGGAGAGAAACCTGAAGAGCCGAAGGATGAAGTGGAGGTGTCAGATGATGATGAGAAGGAGCCTGAAGTGGACTATCGGACAGTGACCGTCAACACTGAACAAAAAGTATCTGACCTGTACAACATCGAGGAGCGATTAGGATCTGGGAAATTTGGACAAGTTTTTCGACTTGTAGAAAAGAAAACTGGAAAAATCTGGGCAGGGAAATTCTTCAAGGCATATTCAGCAAAAGAGAAAGAGAATATCCGGGAGGAGATTAGCATCATGAACTGCCTTCACCATCCCAAGCTGGTCCAGTGTGTGGACGCCTTCGAGGAGAAGGCCAACATCGTGATGGTGCTGGAGATCGTGTCAGGTGGTGAGCTGTTTGAGCGTATCATTGACGAGGACTTCGAGCTGACAGAGCGGGAGTGCATCCAGTACATGAGGCAGATCTCGGAGGGGGTGGCCTACATCCACAAGCAGGGCATCGTGCACCTGGACCTCAAGCCTGAGAACATCATGTGTGTCAACAAGACGGGCACCAGAATCAAGCTCATCGACTTCGGTCTGGCCCGGAGGCTGGAGAATGCAGGGTCTCTGAAGGTCCTCTTTGGCACCCCAGAGTTTGTGGCTCCTGAAGTGATCAACTATGAACCTATCAGCTACGCCACGGACATGTGGAGCATCGGGGTCATCTGCTATATCCTGGTCAGCGGTCTTTCTCCCTTCATGGGTGACAACGACAATGAGACCTTAGCCAATGTTACCTCAGCCACCTGGGACTTCGATGACGAGGCATTTGATGAGATCTCCGAGGATGCCAAGGATTTCATCAGCAACTTGCTGAAGAAAGATATGAAAAACCGCTTGAACTGTACACAGTGTCTTCAGCACCCATGGCTAATGAAAGATACTAAGAACATGGAGGCCAAGAAGCTGTCCAAGGACCGGATGAAAAAGTACATGGCAAGAAGGAAATGGCAGAAAACAGGCAATGCTGTGAGAGCCATCGGAAGACTGTCCTCTATGGCAATGATCTCAGGGCTCAGCGGCAGGAAGTCCTCAACAGGGTCACCGACCAGCCCTCTCAATGCAGAGAAGCTAGAATCTGAAGAAGATGTCTCCCAGGCTTTCCTCGAGGCCGTAGCTGAGGAAAAGCCCCACATAAAACCCTATTTCTCTAAGACCATTCTTGACTTGGAAGTTGTAGAGGGAAGTGCTGCTAGATTTGACTGTAAGATTGAAGGATACCCAGACCCTGAGGTCGTCTGGTTCAAAGATGACCAGTCGATCAGAGAGTCACGCCACTTCCAGATAGACTACGATGAGGATGGGAACTGCTCTTTGATTATTAGTGATGTTTGTGGGGATGACGACGCCAAGTACACCTGCAAGGCTGTCAACAGTCTTGGAGAAGCCACCTGCACAGCAGAGCTCATTGTGGAAACCATGGAGGAAGGAGAGGGGGAAGGGGAAGAGGAAGAATGA
Mylk myosin light chain kinase, transcript variant X6
Length: 5676 bp Location: 2134662..1952053 Strand: ->XM_004873626.1 ATGTGCCGGTGTGTTCCCCTGGCCCACTGTGCTCAGACCATGGGGGATGTGAAGCTGATTGCCTCATCGCACGTATCCAAAACCTCCCTGAGTGTGGATCCTTCAAGCATTGGCTCCCTACCACTGATGGAGGCCCCTGCTTTCATTCTGCCCCCTCGGAACCTCTGCATCAAAGAAGGCACCACAGCCAAGTTTGAAGGGCGGGTCCGGGGTTACCCAGAGCCCCAGGTGACATGGCACAAAAATGGGCAACCCATCTCCAGTGGGGGCCGCTTCCTGCTGGACTTCGGTGTCCGAGGGACTTTCAGCCTTGCTATTGGTGCTGTCTGTGGGGAGGACAAGGGAAAGTACACCTGTGAAGCCAGCAACAGTAGTGGTGCCCGCCAGGTGACTGTGGAGCTGACTGTGGAAGAGAGTTTTGCCAAGAAGCGTGGTCATCCTGTTGCTTCCAAAAGCCTGGGGGACAGATTTTCAGCCCTAGGAGTGGAAACACGTCCTAGCATCTGGGGTGAGTGCCCACCAAAGTTTGCCACCAAGCTGGGCCGAGCAGTGGTCAAAGAAGGACATATGGGACGATTCTCCTGCAAGGTCACTGGGCGGCCCCAACCTCAGGTCACCTGGCTCAAGGGAAATGTCGCACTGCAGCCGAGTGCCCGTGTTTCTATGTCTGAGAAGAATGGGATGCAGGTCCTGGAAATTCGTGCGGTCACCCAGGAGGATGTGGGCATGTACACATGCCTGGTGGTAAACGGGTCAGGAAAGGCCTCCATGTCGGCAGAGCTCTCCATCCCAGGTTTGGACAAGGTCAACAGGTCATTTGTGAGAGAAACAAAGGCCCCTGATGCTGACATGAGGAGGGAGGTGACCAATGGAATCAAAAAGGGGCTGAAACTGGACAGCCTGGAGACAATGGCCGGAAGTAAGAATAGCTCCAGCCTGCAGAAAGGTGGCTCTCTGGCCTGGGTCACAAACAGCCCTTCACATTCCCTGTGGGAGACTGAACCAGAGCCGTGCAGGGACTCCCCAAGAAAGGTCCAGAAGACTTCCAGCACCATCACCCTGCAGGCCACAAAAGTCCAGCCAGAACCCAGAGCACCAACCTTGGGGGCTCTGTCTCCTTCTGGAGAAGAGCAGAAGAGACCAGCTGCTTCCCAGCCAGCCACCCACCCCACCAGTTGGTCTGGCCTGGAAAGCCCAGAAGTTGTGAGTACAGTTGCCACCAGGAAAACCCCCATGGAAAGCCAGAGAGAGTCAACATTGCCCAAGTTTGAGAACAAGCCCCAAAGCCTAGAAGTCAGCGAACATGAAACAGTCAAGTTCAGGTGCGAAGTTTCAGGGATCCCGAAGCCTGAAGTGGCCTGGTTCCTGGAAGGTATCCCTGTGCAGACAAGAGAAGGCACCACTGAGGTTTATGAGCACGGGGGATCCCATTACCTCTGCCTGCTGAGAGCCCGGGCCAGGGACAGTGGCCAGTACAGCTGCACAGCTTCCAATAGCCAAGGCCAGGTGTCCTGCACCTGGACCCTCCTAGTGGAAAAGCCAGTCGAGATGGAGGTGGTTCCCTCCTTCTCCAGTGTCCTGAAGGACTGCACCGTCATCGAGGGCCAGGATTTTGTGCTGCAGTGCTCTGTGCAGGGGACCCCAGTGCCCCAAATCATTTGGCTACTCAATGAAAAGAAGAGTGACAGGAAGAGTGTCCTTTTGCCTCTGGCTCCCACCAAGACCACCGAACCTATCTTCCTGCAGGGCCTCTCTGATCTCCGAGTCATGGATGGAAGCCAGGTCACCATGACAGTCCAGGTGTCAGGGAATCCGCCCCCCGAGGTCATCTGGCTTCACAATGGGAATGAGATCCAGGAGTCCGAGGACTTCCACTTTGAACGGAGAGGCACCCAGCACAGCCTCTGCATCCAGGAGGTGTTCCCCGAGGACACGGGCACCTACACCTGTGAGGCCTGGAACAGTGCTGGGGCAGTTCGCACCCAAGCCATGCTCATGGTCCAAGAGCCACAAGATGGCACCCAGCCCTGGTTCATCAGCAAGCCTCGTTCAGTGACAGCCTCTCTGGGGCAAAGTGTCCTCATCTCCTGTGCCATCGCTGGTGACCCCTTTCCCAGCGTGCACTGGCTCCGAGATGGCAAAGCCCTTTCGAAAGACACCGGCCACTTTGAGGTGCTGCAGAATGAGGATGTGTTCACCCTGGTTCTGAAGAATGTGCAGCCCTGGCACGCCGGCCAGTATGAGATCCTGCTCAGGAACCAGGTTGGCGAATGCAGCTGCCAGGTGTCGCTGATGCTACAGAACAGCCCTGCCAGCTCCCTCACTCGGGGGCGGGAGGCTACCAGCCGTGAGGGCCTCTGTGGTGGAGGAGTTGGTGCTGATGGTGGTGGTGACTGCGATGGGACCCTGAGGCCTGGCTGGTTAGCAAGAGGGCAGGGTTGGCTGGAGGAGGAATCCGGTGAGGACGTTCGGGGCCTGCTGAAGAGGCGCGTGGAGACCAGGCTGCACACAGAGGAGGCGATCCGCCAGCAGGAGGTGGAGCAGCTGGATTTCCGTGACCTCCTGGGGAAGAAGGTGAACACCAAGACAGTGTCCGAAGAAGACCTCAAGGAGATCCCAGCTGAGCAGATGGATTTCCGTGCCAACCTGCAGAGGCAAGTGAAACCAAAGACTGTGTCTGAGGAAGAGAGGAAGGTGCATAGTCCCCAACAGGTCGACTTCCGTTCCGTCCTGGCCAAGAAGGGGACTCCCAAGACCCCCGGGCCTGAGAAGGCACCACCTCCAAAACCTGCCACCCCGGATTTCCGCTCGGTGCTGGGCAGCAAGAAGAAAACACCAGCAGAGAATGGTAGCAGCAGTGCAGAGGCCCCAGATACCAAACCGCCACAAAGTCCCATGTCTGTGGGCAATTCAGAGGTTGCAGGATCCCTGAAACCCATGGGCAACGCCAAGCCTGCCGAGATCATGAAACCTGTGGGCAACACTCAGCATGCAGAGATTCTGAAACCTGTGAGCAACGCACAGCCTTCTGGGTCCCTAAAACCCATGGGCAATGCCAAGCCTGCTGAGACCCCGAAACCCCTGAGCAATGCCAAACCTGCTGAAATCCTGAAACCATGTGGGAAAGAAGAACTCAAGAAGGAAGTTAAGAATGATGTGAACTGCAAGAGAGGGCGTGCAGGGGCCACAGATAATGAGAAAAGACCAGAGAGCCAAGGGACGGCCCCGACCTTCATGGAGAAGCTACAAGATGTCCATGTAGCAGAGGGTGAGAAACTGCTACTCCAGTGCCAGGTGTCCTCTGACCCCCCAGCCACCATCACATGGACACTGAATGGAAAGACACTCAAGACCACCAAGTTCATCATCCTCTCCCAAGAAGACTCAGTGTGCTCTGTCTCCATCGAGAAGGCTCTGCCTGAGGACAGGGGCGTGTACAAGTGCGTAGCCAAGAACGGTGCTGGCCAGGCAGCATGTTCCTGCCAAGTCACCGTGGACGATGCACAGGCCGGAGAGAACACCAAGGCCCCGGAGTTGAAATCCCGGAGGTCCAAGAGCTCTCTTCCCCCTGTGCTAGGAACGGAGAGTGATGCAACTGTGAAAAAGAAACCCACCCCCAAGACATCTCCGAAGGCAGCTATGCCCCCTCAGATCATCCAGTTCCCGGAGGACCAGAAGGTGCGTGCAGGAGAGCCTGTGGAGCTGTTTGGGAAAGTGGCCGGCAGCCAGCCCATCACCTGTACCTGGATGAAGTTCCGAAAGCAGATCCAGAACAGTGAGCACATCAAGGTGGAGAACAGCGAGGGGGGCAGCAAGCTCACCATCCTGGCTGCGCGCCAGGAGCATTGCGGCTGCTACACGCTGCTGGTGGAGAACAAGCTGGGCAGCAGGCAGGCCCAGGTCAATCTCACTGTCGTGGACAAGCCAGACCCCCCAGCTGGCACACCTTGCGCTTCTGATATCCGGAGCGCCTCACTGATCCTGTCCTGGTATGGCTCTTCCTATGATGGTGGCAGTGCCGTACAGTCCTACAGCGTTGAGATCTGGAACTCAGTAGACAAGATGTGGAAGGAACTAGCCACATGCCGCAGCACCTCTTTTAACATCCAGGACCTGCTGCCTGACCGGGAGTATAAATTCCGTGTTCGAGCAATCAATGTCTATGGCACAAGCGAGCCAAGCCAGGAGTCTGAGCTCACCTCAGTGGGAGAGAAACCTGAAGAGCCGAAGGATGAAGTGGAGGTGTCAGATGATGATGAGAAGGAGCCTGAAGTGGACTATCGGACAGTGACCGTCAACACTGAACAAAAAGTATCTGACCTGTACAACATCGAGGAGCGATTAGGATCTGGGAAATTTGGACAAGTTTTTCGACTTGTAGAAAAGAAAACTGGAAAAATCTGGGCAGGGAAATTCTTCAAGGCATATTCAGCAAAAGAGAAAGAGAATATCCGGGAGGAGATTAGCATCATGAACTGCCTTCACCATCCCAAGCTGGTCCAGTGTGTGGACGCCTTCGAGGAGAAGGCCAACATCGTGATGGTGCTGGAGATCGTGTCAGGTGGTGAGCTGTTTGAGCGTATCATTGACGAGGACTTCGAGCTGACAGAGCGGGAGTGCATCCAGTACATGAGGCAGATCTCGGAGGGGGTGGCCTACATCCACAAGCAGGGCATCGTGCACCTGGACCTCAAGCCTGAGAACATCATGTGTGTCAACAAGACGGGCACCAGAATCAAGCTCATCGACTTCGGTCTGGCCCGGAGGCTGGAGAATGCAGGGTCTCTGAAGGTCCTCTTTGGCACCCCAGAGTTTGTGGCTCCTGAAGTGATCAACTATGAACCTATCAGCTACGCCACGGACATGTGGAGCATCGGGGTCATCTGCTATATCCTGGTCAGCGGTCTTTCTCCCTTCATGGGTGACAACGACAATGAGACCTTAGCCAATGTTACCTCAGCCACCTGGGACTTCGATGACGAGGCATTTGATGAGATCTCCGAGGATGCCAAGGATTTCATCAGCAACTTGCTGAAGAAAGATATGAAAAACCGCTTGAACTGTACACAGTGTCTTCAGCACCCATGGCTAATGAAAGATACTAAGAACATGGAGGCCAAGAAGCTGTCCAAGGACCGGATGAAAAAGTACATGGCAAGAAGGAAATGGCAGAAAACAGGCAATGCTGTGAGAGCCATCGGAAGACTGTCCTCTATGGCAATGATCTCAGGGCTCAGCGGCAGGAAGTCCTCAACAGGGTCACCGACCAGCCCTCTCAATGCAGAGAAGCTAGAATCTGAAGAAGATGTCTCCCAGGCTTTCCTCGAGGCCGTAGCTGAGGAAAAGCCCCACATAAAACCCTATTTCTCTAAGACCATTCTTGACTTGGAAGTTGTAGAGGGAAGTGCTGCTAGATTTGACTGTAAGATTGAAGGATACCCAGACCCTGAGGTCGTCTGGTTCAAAGATGACCAGTCGATCAGAGAGTCACGCCACTTCCAGATAGACTACGATGAGGATGGGAACTGCTCTTTGATTATTAGTGATGTTTGTGGGGATGACGACGCCAAGTACACCTGCAAGGCTGTCAACAGTCTTGGAGAAGCCACCTGCACAGCAGAGCTCATTGTGGAAACCATGGAGGAAGGAGAGGGGGAAGGGGAAGAGGAAGAATGA
Mylk myosin light chain kinase, transcript variant X4
Length: 5835 bp Location: 2134662..1952053 Strand: ->XM_004873624.1 ATGTGCCGGTGTGTTCCCCTGGCCCACTGTGCTCAGACCATGGGGGATGTGAAGCTGATTGCCTCATCGCACGTATCCAAAACCTCCCTGAGTGTGGATCCTTCAAGCATTGGCTCCCTACCACTGATGGAGGCCCCTGCTTTCATTCTGCCCCCTCGGAACCTCTGCATCAAAGAAGGCACCACAGCCAAGTTTGAAGGGCGGGTCCGGGGTTACCCAGAGCCCCAGGTGACATGGCACAAAAATGGGCAACCCATCTCCAGTGGGGGCCGCTTCCTGCTGGACTTCGGTGTCCGAGGGACTTTCAGCCTTGCTATTGGTGCTGTCTGTGGGGAGGACAAGGGAAAGTACACCTGTGAAGCCAGCAACAGTAGTGGTGCCCGCCAGGTGACTGTGGAGCTGACTGTGGAAGAGAGTTTTGCCAAGAAGCGTGGTCATCCTGTTGCTTCCAAAAGCCTGGGGGACAGATTTTCAGCCCTAGGAGTGGAAACACGTCCTAGCATCTGGGGTGAGTGCCCACCAAAGTTTGCCACCAAGCTGGGCCGAGCAGTGGTCAAAGAAGGACATATGGGACGATTCTCCTGCAAGGTCACTGGGCGGCCCCAACCTCAGGTCACCTGGCTCAAGGGAAATGTCGCACTGCAGCCGAGTGCCCGTGTTTCTATGTCTGAGAAGAATGGGATGCAGGTCCTGGAAATTCGTGCGGTCACCCAGGAGGATGTGGGCATGTACACATGCCTGGTGGTAAACGGGTCAGGAAAGGCCTCCATGTCGGCAGAGCTCTCCATCCCAGGTTTGGACAAGGTCAACAGGTCATTTGTGAGAGAAACAAAGGCCCCTGATGCTGACATGAGGAGGGAGGTGACCAATGGAATCAAAAAGGGGCTGAAACTGGACAGCCTGGAGACAATGGCCGGAAGTAAGAATAGCTCCAGCCTGCAGAAAGGTGGCTCTCTGGCCTGGGTCACAAACAGCCCTTCACATTCCCTGTGGGAGACTGAACCAGAGCCGTGCAGGGACTCCCCAAGAAAGGTCCAGAAGACTTCCAGCACCATCACCCTGCAGGCCACAAAAGTCCAGCCAGAACCCAGAGCACCAACCTTGGGGGCTCTGTCTCCTTCTGGAGAAGAGCAGAAGAGACCAGCTGCTTCCCAGCCAGCCACCCACCCCACCAGTTGGTCTGGCCTGGAAAGCCCAGAAGTTGTGAGTACAGTTGCCACCAGGAAAACCCCCATGGAAAGCCAGAGAGAGTCAACATTGCCCAAGTTTGAGAACAAGCCCCAAAGCCTAGAAGTCAGCGAACATGAAACAGTCAAGTTCAGGTGCGAAGTTTCAGGGATCCCGAAGCCTGAAGTGGCCTGGTTCCTGGAAGGTATCCCTGTGCAGACAAGAGAAGGCACCACTGAGGTTTATGAGCACGGGGGATCCCATTACCTCTGCCTGCTGAGAGCCCGGGCCAGGGACAGTGGCCAGTACAGCTGCACAGCTTCCAATAGCCAAGGCCAGGTGTCCTGCACCTGGACCCTCCTAGTGGAAAAGCCAGTCGAGATGGAGGTGGTTCCCTCCTTCTCCAGTGTCCTGAAGGACTGCACCGTCATCGAGGGCCAGGATTTTGTGCTGCAGTGCTCTGTGCAGGGGACCCCAGTGCCCCAAATCATTTGGCTACTCAATGGGCAGCCCATCCAGTATGCGCACTCCACCTGCCAGGCTGGCGTGGCTGAGCTCCGCATCCAGGACACCCTGCCAGAGGATGATGGTGTCTATACCTGTCTGGCTGAGAACGCCTTGGGGCAAGTGTCCTGCAGCGCCAGGGTCACCATCCAAGAAAAAAAGGCAAACAGTGACAGGAAGAGTGTCCTTTTGCCTCTGGCTCCCACCAAGACCACCGAACCTATCTTCCTGCAGGGCCTCTCTGATCTCCGAGTCATGGATGGAAGCCAGGTCACCATGACAGTCCAGGTGTCAGGGAATCCGCCCCCCGAGGTCATCTGGCTTCACAATGGGAATGAGATCCAGGAGTCCGAGGACTTCCACTTTGAACGGAGAGGCACCCAGCACAGCCTCTGCATCCAGGAGGTGTTCCCCGAGGACACGGGCACCTACACCTGTGAGGCCTGGAACAGTGCTGGGGCAGTTCGCACCCAAGCCATGCTCATGGTCCAAGAGCCACAAGATGGCACCCAGCCCTGGTTCATCAGCAAGCCTCGTTCAGTGACAGCCTCTCTGGGGCAAAGTGTCCTCATCTCCTGTGCCATCGCTGGTGACCCCTTTCCCAGCGTGCACTGGCTCCGAGATGGCAAAGCCCTTTCGAAAGACACCGGCCACTTTGAGGTGCTGCAGAATGAGGATGTGTTCACCCTGGTTCTGAAGAATGTGCAGCCCTGGCACGCCGGCCAGTATGAGATCCTGCTCAGGAACCAGGTTGGCGAATGCAGCTGCCAGGTGTCGCTGATGCTACAGAACAGCCCTGCCAGCTCCCTCACTCGGGGGCGGGAGGCTACCAGCCGTGAGGGCCTCTGTGGTGGAGGAGTTGGTGCTGATGGTGGTGGTGACTGCGATGGGACCCTGAGGCCTGGCTGGTTAGCAAGAGGGCAGGGTTGGCTGGAGGAGGAATCCGGTGAGGACGTTCGGGGCCTGCTGAAGAGGCGCGTGGAGACCAGGCTGCACACAGAGGAGGCGATCCGCCAGCAGGAGGTGGAGCAGCTGGATTTCCGTGACCTCCTGGGGAAGAAGGTGAACACCAAGACAGTGTCCGAAGAAGACCTCAAGGAGATCCCAGCTGAGCAGATGGATTTCCGTGCCAACCTGCAGAGGCAAGTGAAACCAAAGACTGTGTCTGAGGAAGAGAGGAAGGTGCATAGTCCCCAACAGGTCGACTTCCGTTCCGTCCTGGCCAAGAAGGGGACTCCCAAGACCCCCGGGCCTGAGAAGGCACCACCTCCAAAACCTGCCACCCCGGATTTCCGCTCGGTGCTGGGCAGCAAGAAGAAAACACCAGCAGAGAATGGTAGCAGCAGTGCAGAGGCCCCAGATACCAAACCGCCACAAAGTCCCATGTCTGTGGGCAATTCAGAGGTTGCAGGATCCCTGAAACCCATGGGCAACGCCAAGCCTGCCGAGATCATGAAACCTGTGGGCAACACTCAGCATGCAGAGATTCTGAAACCTGTGAGCAACGCACAGCCTTCTGGGTCCCTAAAACCCATGGGCAATGCCAAGCCTGCTGAGACCCCGAAACCCCTGAGCAATGCCAAACCTGCTGAAATCCTGAAACCATGTGGGAAAGAAGAACTCAAGAAGGAAGTTAAGAATGATGTGAACTGCAAGAGAGGGCGTGCAGGGGCCACAGATAATGAGAAAAGACCAGAGAGCCAAGGGACGGCCCCGACCTTCATGGAGAAGCTACAAGATGTCCATGTAGCAGAGGGTGAGAAACTGCTACTCCAGTGCCAGGTGTCCTCTGACCCCCCAGCCACCATCACATGGACACTGAATGGAAAGACACTCAAGACCACCAAGTTCATCATCCTCTCCCAAGAAGACTCAGTGTGCTCTGTCTCCATCGAGAAGGCTCTGCCTGAGGACAGGGGCGTGTACAAGTGCGTAGCCAAGAACGGTGCTGGCCAGGCAGCATGTTCCTGCCAAGTCACCGTGGACGATGCACAGGCCGGAGAGAACACCAAGGCCCCGGAGTTGAAATCCCGGAGGTCCAAGAGCTCTCTTCCCCCTGTGCTAGGAACGGAGAGTGATGCAACTGTGAAAAAGAAACCCACCCCCAAGACATCTCCGAAGGCAGCTATGCCCCCTCAGATCATCCAGTTCCCGGAGGACCAGAAGGTGCGTGCAGGAGAGCCTGTGGAGCTGTTTGGGAAAGTGGCCGGCAGCCAGCCCATCACCTGTACCTGGATGAAGTTCCGAAAGCAGATCCAGAACAGTGAGCACATCAAGGTGGAGAACAGCGAGGGGGGCAGCAAGCTCACCATCCTGGCTGCGCGCCAGGAGCATTGCGGCTGCTACACGCTGCTGGTGGAGAACAAGCTGGGCAGCAGGCAGGCCCAGGTCAATCTCACTGTCGTGGACAAGCCAGACCCCCCAGCTGGCACACCTTGCGCTTCTGATATCCGGAGCGCCTCACTGATCCTGTCCTGGTATGGCTCTTCCTATGATGGTGGCAGTGCCGTACAGTCCTACAGCGTTGAGATCTGGAACTCAGTAGACAAGATGTGGAAGGAACTAGCCACATGCCGCAGCACCTCTTTTAACATCCAGGACCTGCTGCCTGACCGGGAGTATAAATTCCGTGTTCGAGCAATCAATGTCTATGGCACAAGCGAGCCAAGCCAGGAGTCTGAGCTCACCTCAGTGGGAGAGAAACCTGAAGAGCCGAAGGATGAAGTGGAGGTGTCAGATGATGATGAGAAGGAGCCTGAAGTGGACTATCGGACAGTGACCGTCAACACTGAACAAAAAGTATCTGACCTGTACAACATCGAGGAGCGATTAGGATCTGGGAAATTTGGACAAGTTTTTCGACTTGTAGAAAAGAAAACTGGAAAAATCTGGGCAGGGAAATTCTTCAAGGCATATTCAGCAAAAGAGAAAGAGAATATCCGGGAGGAGATTAGCATCATGAACTGCCTTCACCATCCCAAGCTGGTCCAGTGTGTGGACGCCTTCGAGGAGAAGGCCAACATCGTGATGGTGCTGGAGATCGTGTCAGGTGGTGAGCTGTTTGAGCGTATCATTGACGAGGACTTCGAGCTGACAGAGCGGGAGTGCATCCAGTACATGAGGCAGATCTCGGAGGGGGTGGCCTACATCCACAAGCAGGGCATCGTGCACCTGGACCTCAAGCCTGAGAACATCATGTGTGTCAACAAGACGGGCACCAGAATCAAGCTCATCGACTTCGGTCTGGCCCGGAGGCTGGAGAATGCAGGGTCTCTGAAGGTCCTCTTTGGCACCCCAGAGTTTGTGGCTCCTGAAGTGATCAACTATGAACCTATCAGCTACGCCACGGACATGTGGAGCATCGGGGTCATCTGCTATATCCTGGTCAGCGGTCTTTCTCCCTTCATGGGTGACAACGACAATGAGACCTTAGCCAATGTTACCTCAGCCACCTGGGACTTCGATGACGAGGCATTTGATGAGATCTCCGAGGATGCCAAGGATTTCATCAGCAACTTGCTGAAGAAAGATATGAAAAACCGCTTGAACTGTACACAGTGTCTTCAGCACCCATGGCTAATGAAAGATACTAAGAACATGGAGGCCAAGAAGCTGTCCAAGGACCGGATGAAAAAGTACATGGCAAGAAGGAAATGGCAGAAAACAGGCAATGCTGTGAGAGCCATCGGAAGACTGTCCTCTATGGCAATGATCTCAGGGCTCAGCGGCAGGAAGTCCTCAACAGGGTCACCGACCAGCCCTCTCAATGCAGAGAAGCTAGAATCTGAAGAAGATGTCTCCCAGGCTTTCCTCGAGGCCGTAGCTGAGGAAAAGCCCCACATAAAACCCTATTTCTCTAAGACCATTCTTGACTTGGAAGTTGTAGAGGGAAGTGCTGCTAGATTTGACTGTAAGATTGAAGGATACCCAGACCCTGAGGTCGTCTGGTTCAAAGATGACCAGTCGATCAGAGAGTCACGCCACTTCCAGATAGACTACGATGAGGATGGGAACTGCTCTTTGATTATTAGTGATGTTTGTGGGGATGACGACGCCAAGTACACCTGCAAGGCTGTCAACAGTCTTGGAGAAGCCACCTGCACAGCAGAGCTCATTGTGGAAACCATGGAGGAAGGAGAGGGGGAAGGGGAAGAGGAAGAATGA
Mylk myosin light chain kinase, transcript variant X1
Length: 5829 bp Location: 2134662..1952053 Strand: ->XM_004873621.1 ATGTGCCGGTGTGTTCCCCTGGCCCACTGTGCTCAGACCATGGGGGATGTGAAGCTGATTGCCTCATCGCACGTATCCAAAACCTCCCTGAGTGTGGATCCTTCAAGCATTGGCTCCCTACCACTGATGGAGGCCCCTGCTTTCATTCTGCCCCCTCGGAACCTCTGCATCAAAGAAGGCACCACAGCCAAGTTTGAAGGGCGGGTCCGGGGTTACCCAGAGCCCCAGGTGACATGGCACAAAAATGGGCAACCCATCTCCAGTGGGGGCCGCTTCCTGCTGGACTTCGGTGTCCGAGGGACTTTCAGCCTTGCTATTGGTGCTGTCTGTGGGGAGGACAAGGGAAAGTACACCTGTGAAGCCAGCAACAGTAGTGGTGCCCGCCAGGTGACTGTGGAGCTGACTGTGGAAGAGAGTTTTGCCAAGAAGCGTGGTCATCCTGTTGCTTCCAAAAGCCTGGGGGACAGATTTTCAGCCCTAGGAGTGGAAACACGTCCTAGCATCTGGGGTGAGTGCCCACCAAAGTTTGCCACCAAGCTGGGCCGAGCAGTGGTCAAAGAAGGACATATGGGACGATTCTCCTGCAAGGTCACTGGGCGGCCCCAACCTCAGGTCACCTGGCTCAAGGGAAATGTCGCACTGCAGCCGAGTGCCCGTGTTTCTATGTCTGAGAAGAATGGGATGCAGGTCCTGGAAATTCGTGCGGTCACCCAGGAGGATGTGGGCATGTACACATGCCTGGTGGTAAACGGGTCAGGAAAGGCCTCCATGTCGGCAGAGCTCTCCATCCCAGGTTTGGACAAGGTCAACAGGTCATTTGTGAGAGAAACAAAGGCCCCTGATGCTGACATGAGGAGGGAGGTGACCAATGGAATCAAAAAGGGGCTGAAACTGGACAGCCTGGAGACAATGGCCGGAAGTAAGAATAGCTCCAGCCTGCAGAAAGGTGGCTCTCTGGCCTGGGTCACAAACAGCCCTTCACATTCCCTGTGGGAGACTGAACCAGAGCCGTGCAGGGACTCCCCAAGAAAGGTCCAGAAGACTTCCAGCACCATCACCCTGCAGGCCACAAAAGTCCAGCCAGAACCCAGAGCACCAACCTTGGGGGCTCTGTCTCCTTCTGGAGAAGAGCAGAAGAGACCAGCTGCTTCCCAGCCAGCCACCCACCCCACCAGTTGGTCTGGCCTGGAAAGCCCAGAAGTTGTGAGTACAGTTGCCACCAGGAAAACCCCCATGGAAAGCCAGAGAGAGTCAACATTGCCCAAGTTTGAGAACAAGCCCCAAAGCCTAGAAGTCAGCGAACATGAAACAGTCAAGTTCAGGTGCGAAGTTTCAGGGATCCCGAAGCCTGAAGTGGCCTGGTTCCTGGAAGGTATCCCTGTGCAGACAAGAGAAGGCACCACTGAGGTTTATGAGCACGGGGGATCCCATTACCTCTGCCTGCTGAGAGCCCGGGCCAGGGACAGTGGCCAGTACAGCTGCACAGCTTCCAATAGCCAAGGCCAGGTGTCCTGCACCTGGACCCTCCTAGTGGAAAAGCCAGTCGAGATGGAGGTGGTTCCCTCCTTCTCCAGTGTCCTGAAGGACTGCACCGTCATCGAGGGCCAGGATTTTGTGCTGCAGTGCTCTGTGCAGGGGACCCCAGTGCCCCAAATCATTTGGCTACTCAATGGGCAGCCCATCCAGTATGCGCACTCCACCTGCCAGGCTGGCGTGGCTGAGCTCCGCATCCAGGACACCCTGCCAGAGGATGATGGTGTCTATACCTGTCTGGCTGAGAACGCCTTGGGGCAAGTGTCCTGCAGCGCCAGGGTCACCGTCCATGAAAAGAAGAGTGACAGGAAGAGTGTCCTTTTGCCTCTGGCTCCCACCAAGACCACCGAACCTATCTTCCTGCAGGGCCTCTCTGATCTCCGAGTCATGGATGGAAGCCAGGTCACCATGACAGTCCAGGTGTCAGGGAATCCGCCCCCCGAGGTCATCTGGCTTCACAATGGGAATGAGATCCAGGAGTCCGAGGACTTCCACTTTGAACGGAGAGGCACCCAGCACAGCCTCTGCATCCAGGAGGTGTTCCCCGAGGACACGGGCACCTACACCTGTGAGGCCTGGAACAGTGCTGGGGCAGTTCGCACCCAAGCCATGCTCATGGTCCAAGAGCCACAAGATGGCACCCAGCCCTGGTTCATCAGCAAGCCTCGTTCAGTGACAGCCTCTCTGGGGCAAAGTGTCCTCATCTCCTGTGCCATCGCTGGTGACCCCTTTCCCAGCGTGCACTGGCTCCGAGATGGCAAAGCCCTTTCGAAAGACACCGGCCACTTTGAGGTGCTGCAGAATGAGGATGTGTTCACCCTGGTTCTGAAGAATGTGCAGCCCTGGCACGCCGGCCAGTATGAGATCCTGCTCAGGAACCAGGTTGGCGAATGCAGCTGCCAGGTGTCGCTGATGCTACAGAACAGCCCTGCCAGCTCCCTCACTCGGGGGCGGGAGGCTACCAGCCGTGAGGGCCTCTGTGGTGGAGGAGTTGGTGCTGATGGTGGTGGTGACTGCGATGGGACCCTGAGGCCTGGCTGGTTAGCAAGAGGGCAGGGTTGGCTGGAGGAGGAATCCGGTGAGGACGTTCGGGGCCTGCTGAAGAGGCGCGTGGAGACCAGGCTGCACACAGAGGAGGCGATCCGCCAGCAGGAGGTGGAGCAGCTGGATTTCCGTGACCTCCTGGGGAAGAAGGTGAACACCAAGACAGTGTCCGAAGAAGACCTCAAGGAGATCCCAGCTGAGCAGATGGATTTCCGTGCCAACCTGCAGAGGCAAGTGAAACCAAAGACTGTGTCTGAGGAAGAGAGGAAGGTGCATAGTCCCCAACAGGTCGACTTCCGTTCCGTCCTGGCCAAGAAGGGGACTCCCAAGACCCCCGGGCCTGAGAAGGCACCACCTCCAAAACCTGCCACCCCGGATTTCCGCTCGGTGCTGGGCAGCAAGAAGAAAACACCAGCAGAGAATGGTAGCAGCAGTGCAGAGGCCCCAGATACCAAACCGCCACAAAGTCCCATGTCTGTGGGCAATTCAGAGGTTGCAGGATCCCTGAAACCCATGGGCAACGCCAAGCCTGCCGAGATCATGAAACCTGTGGGCAACACTCAGCATGCAGAGATTCTGAAACCTGTGAGCAACGCACAGCCTTCTGGGTCCCTAAAACCCATGGGCAATGCCAAGCCTGCTGAGACCCCGAAACCCCTGAGCAATGCCAAACCTGCTGAAATCCTGAAACCATGTGGGAAAGAAGAACTCAAGAAGGAAGTTAAGAATGATGTGAACTGCAAGAGAGGGCGTGCAGGGGCCACAGATAATGAGAAAAGACCAGAGAGCCAAGGGACGGCCCCGACCTTCATGGAGAAGCTACAAGATGTCCATGTAGCAGAGGGTGAGAAACTGCTACTCCAGTGCCAGGTGTCCTCTGACCCCCCAGCCACCATCACATGGACACTGAATGGAAAGACACTCAAGACCACCAAGTTCATCATCCTCTCCCAAGAAGACTCAGTGTGCTCTGTCTCCATCGAGAAGGCTCTGCCTGAGGACAGGGGCGTGTACAAGTGCGTAGCCAAGAACGGTGCTGGCCAGGCAGCATGTTCCTGCCAAGTCACCGTGGACGATGCACAGGCCGGAGAGAACACCAAGGCCCCGGAGTTGAAATCCCGGAGGTCCAAGAGCTCTCTTCCCCCTGTGCTAGGAACGGAGAGTGATGCAACTGTGAAAAAGAAACCCACCCCCAAGACATCTCCGAAGGCAGCTATGCCCCCTCAGATCATCCAGTTCCCGGAGGACCAGAAGGTGCGTGCAGGAGAGCCTGTGGAGCTGTTTGGGAAAGTGGCCGGCAGCCAGCCCATCACCTGTACCTGGATGAAGTTCCGAAAGCAGATCCAGAACAGTGAGCACATCAAGGTGGAGAACAGCGAGGGGGGCAGCAAGCTCACCATCCTGGCTGCGCGCCAGGAGCATTGCGGCTGCTACACGCTGCTGGTGGAGAACAAGCTGGGCAGCAGGCAGGCCCAGGTCAATCTCACTGTCGTGGACAAGCCAGACCCCCCAGCTGGCACACCTTGCGCTTCTGATATCCGGAGCGCCTCACTGATCCTGTCCTGGTATGGCTCTTCCTATGATGGTGGCAGTGCCGTACAGTCCTACAGCGTTGAGATCTGGAACTCAGTAGACAAGATGTGGAAGGAACTAGCCACATGCCGCAGCACCTCTTTTAACATCCAGGACCTGCTGCCTGACCGGGAGTATAAATTCCGTGTTCGAGCAATCAATGTCTATGGCACAAGCGAGCCAAGCCAGGAGTCTGAGCTCACCTCAGTGGGAGAGAAACCTGAAGAGCCGAAGGATGAAGTGGAGGTGTCAGATGATGATGAGAAGGAGCCTGAAGTGGACTATCGGACAGTGACCGTCAACACTGAACAAAAAGTATCTGACCTGTACAACATCGAGGAGCGATTAGGATCTGGGAAATTTGGACAAGTTTTTCGACTTGTAGAAAAGAAAACTGGAAAAATCTGGGCAGGGAAATTCTTCAAGGCATATTCAGCAAAAGAGAAAGAGAATATCCGGGAGGAGATTAGCATCATGAACTGCCTTCACCATCCCAAGCTGGTCCAGTGTGTGGACGCCTTCGAGGAGAAGGCCAACATCGTGATGGTGCTGGAGATCGTGTCAGGTGGTGAGCTGTTTGAGCGTATCATTGACGAGGACTTCGAGCTGACAGAGCGGGAGTGCATCCAGTACATGAGGCAGATCTCGGAGGGGGTGGCCTACATCCACAAGCAGGGCATCGTGCACCTGGACCTCAAGCCTGAGAACATCATGTGTGTCAACAAGACGGGCACCAGAATCAAGCTCATCGACTTCGGTCTGGCCCGGAGGCTGGAGAATGCAGGGTCTCTGAAGGTCCTCTTTGGCACCCCAGAGTTTGTGGCTCCTGAAGTGATCAACTATGAACCTATCAGCTACGCCACGGACATGTGGAGCATCGGGGTCATCTGCTATATCCTGGTCAGCGGTCTTTCTCCCTTCATGGGTGACAACGACAATGAGACCTTAGCCAATGTTACCTCAGCCACCTGGGACTTCGATGACGAGGCATTTGATGAGATCTCCGAGGATGCCAAGGATTTCATCAGCAACTTGCTGAAGAAAGATATGAAAAACCGCTTGAACTGTACACAGTGTCTTCAGCACCCATGGCTAATGAAAGATACTAAGAACATGGAGGCCAAGAAGCTGTCCAAGGACCGGATGAAAAAGTACATGGCAAGAAGGAAATGGCAGAAAACAGGCAATGCTGTGAGAGCCATCGGAAGACTGTCCTCTATGGCAATGATCTCAGGGCTCAGCGGCAGGAAGTCCTCAACAGGGTCACCGACCAGCCCTCTCAATGCAGAGAAGCTAGAATCTGAAGAAGATGTCTCCCAGGCTTTCCTCGAGGCCGTAGCTGAGGAAAAGCCCCACATAAAACCCTATTTCTCTAAGACCATTCTTGACTTGGAAGTTGTAGAGGGAAGTGCTGCTAGATTTGACTGTAAGATTGAAGGATACCCAGACCCTGAGGTCGTCTGGTTCAAAGATGACCAGTCGATCAGAGAGTCACGCCACTTCCAGATAGACTACGATGAGGATGGGAACTGCTCTTTGATTATTAGTGATGTTTGTGGGGATGACGACGCCAAGTACACCTGCAAGGCTGTCAACAGTCTTGGAGAAGCCACCTGCACAGCAGAGCTCATTGTGGAAACCATGGAGGAAGGAGAGGGGGAAGGGGAAGAGGAAGAATGA
LOC101706147 ropporin-1-like
Length: 639 bp Location: 2351097..2324771 Strand: ->XM_004873628.1 ATGCCTGTGATGGACAGGCAAGTCTGCATCCCCCCGGAGCTGCCGGAACTGCTCAAGCAGTTCACCAAAGCCGCCATCCGGATGCAGCCCCAGGACCTCATCCAGTGGGGTGTCGAGTACTTTGAGGCTATAGCTCGAGGAGAGACTCCTCCAATGAGAGAGCAGTCTGAGCGAGTCGCCTTGTCCAACTGGACAGAACTGACGCCGGAGCTGTTAAAGATCCTGCATTCTCAGGTTGCTGGCAGACTGATCATCCATGCAGATGAGTTGGCCCAGATGTGGAAGGTGCTGAATCTCCCAACAGATCTGTTTAATAGCTTGATGAATGTGGGTCGCTTCACAGAAGAGATTGAATGGCTGAAGTTTTTAGCCCTTGCTTGCAGCTCGCTTGGAGTTACCATTGCCAAAACTCTCAAGATAATATGTGAAGTTTTATCCTGCGACCATGCTGGTGGGCCTCCCCGGATCCCCTTCAGCACTTTTCAGTTTCTCTACACGTATATAGCTGAAGTGGATGGGGAGATCTCTGCGTCCCACGTCAGCAGAATGCTAAACTACATTGAACATGAAGTAATTGGTCCTGATGGTTTAATCAAGGTGAATGACTTTACCCAAAACCCCAGGGTTCAGCTGGAATAA
Iqcb1 IQ motif containing B1, transcript variant X3
>XM_004873583.1 ATGAAGCCAATAGGTACAGACTCAAGGATATTATCTGTAGCTGCTGAAGTTGCCAAAAGTCCTGAACAGAATGTGCCTATTATTTTGTTGAAGATAAATGAAATAATAAACAACACACCATTAGGAAGCTCAGAGTTGAAGAAAATCAAACAAGATATATATTGTTACGACCTCATTCAGTATTGCCTCTTGGTCCTCGGGCAAGATTATTCTCGAATCCAGGGTGGTTGGACTACAATTTCTCAGCTTACACAGATAGTAAGCCACTGTTGTGTGGGCTTAGAGCCAGGAGAAGATGCAGAAGAATTTTACAAGGAATTACTTCCATTGGCTGCAGAAAATTTTCTAGTTTTGGGGAGACGATTGCAAGCATGTTTTGTCAATGCAACTAAGGGTGAAGAAAAAGATGAATTACTACACTTTTTCCAAATTGTGACTGCTTCTCTCTTATGGCTGTTGGGAGGCCATGTTCAACTCATACAGAATGTACTACAAAGTGATCATTTCTTACACTTACTGCAATCTGATAATGTTCAAATAGGATCTACAGTCATGATGCTGCTACAGAATATATTACAGATGAACAGTGGTGATCTACTCAAAGTAGAAGGCAAAGCTCTGCATTCTATTTTAGATGAAGTCATTTCCAAGCTTTTATCAACCCCTAGTCCGCTCATAAGAAGTACTGCTATGAAGCTTCTACTGTTGATGGCTCAATCCCATCAAGAAATTTTTATTTCACTGAGACTAAGTCCTTGCTACAAAGGACTCAGAAATCTAATAAGTAAACAAGGAATTGGGACAGAATTTAGTCAAGAACTTGAACAGCTCATTGGCCTTTTAAGCCCTAAGATCTATCAGGAAGTAGAAGAGCAGAAACTACATCAAGCAGCTTGCTTGATTCAAGCTTATTGGAAGGGCTTCCAGACTAGAAAAAGATTTAAGAAGCTTCCATCTGCTGTGATTGCTTTGCAGAGGAGTTTCAGATCTAAAAGAACAAAGATATTGCTGAAGCTAACTAGGCAGAAGGAAGAAAACGATCTCAGATTACAATTGCAAATTGAAAGGCAGAGAGCGATGAGACTTTCTCGAGAATTACGGCTTAGTATGCTTGAAATAGTTCACCCAGGTCAAGTGGAGAAATACAATCAGGAGTTGGAAGAGAAATCAGCATTAATTATCCAGAAGCATTGGAGAGGGTACAGGGAAAGGAAAAAGTTCCACCAACAGAGGCCATCTCTCACAGAGTATAAAGCAGCGGTCATACTTCAAAGAGCAGTTCTTAAATTCCTAGCAAAGTGCCATAAGAAAAAGAAACTATCTGCCCCTTGGCAAGGACTCCAAGAACTCACTGATACACACAGAGTTCAACTGAAGCAACAAGTGGATGACTATATCAGAAGACATCCAGGCTCTCAAATGTCAGATGGGGCCAGCAAGGAGCTCCATGCCCAAGCTCAAGAACGGCTGCAACACTACTTTATGAGCAGGGCCCTCGAAGAGAGAGCCCAGCAGCACAGAGAGGCTCTGATGGCTCAGATCAGCACCAGTATTGAACAGCTAATGAAGGCACCAACTCTGAAGGACGCAGAAGGGAAAGAACCTGAGCTCTTCCTAAGTAGATCCAGACCTGTGGCAGCCAAGGCCAAACAGGCCCATCTCATTACCCTGAAGCACACACAAGCACCCTGGTGGAAGAAGCTTGGGGAAGGACCAGGCGATGAGACTGATATTCCAAAGGATGAGCTTACCATAGAATTAGGAACCTTATTCATTGGTGGAACAAACCCCCTTAGGGAATTACCCTGA
Iqcb1 IQ motif containing B1, transcript variant X2
Length: 1809 bp Location: 112700..56653 Strand: ->XM_004873582.1 ATGAAGCCAATAGGTACAGACTCAAGGATATTATCTGTAGCTGCTGAAGTTGCCAAAAGTCCTGAACAGAATGTGCCTATTATTTTGTTGAAGATAAATGAAATAATAAACAACACACCATTAGGAAGCTCAGAGTTGAAGAAAATCAAACAAGATATATATTGTTACGACCTCATTCAGTATTGCCTCTTGGTCCTCGGGCAAGATTATTCTCGAATCCAGGGTGGTTGGACTACAATTTCTCAGCTTACACAGATAGTAAGCCACTGTTGTGTGGGCTTAGAGCCAGGAGAAGATGCAGAAGAATTTTACAAGGAATTACTTCCATTGGCTGCAGAAAATTTTCTAGTTTTGGGGAGACGATTGCAAGCATGTTTTGTCAATGCAACTAAGGGTGAAGAAAAAGATGAATTACTACACTTTTTCCAAATTGTGACTGCTTCTCTCTTATGGCTGTTGGGAGGCCATGTTCAACTCATACAGAATGTACTACAAAGTGATCATTTCTTACACTTACTGCAATCTGATAATGTTCAAATAGGATCTACAGTCATGATGCTGCTACAGAATATATTACAGATGAACAGTGGTGATCTACTCAAAGTAGAAGGCAAAGCTCTGCATTCTATTTTAGATGAAGTCATTTCCAAGCTTTTATCAACCCCTAGTCCGCTCATAAGAAGTACTGCTATGAAGCTTCTACTGTTGATGGCTCAATCCCATCAAGAAATTTTTATTTCACTGAGACTAAGTCCTTGCTACAAAGGACTCAGAAATCTAATAAGTAAACAAGGAATTGGGACAGAATTTAGTCAAGAACTTGAACAGCTCATTGGCCTTTTAAGCCCTAAGATCTATCAGGAAGTAGAAGAGCAGAAACTACATCAAGCAGCTTGCTTGATTCAAGCTTATTGGAAGGGCTTCCAGACTAGAAAAAGATTTAAGAAGCTTCCATCTGCTGTGATTGCTTTGCAGAGGAGTTTCAGATCTAAAAGAACAAAGATATTGCTGAAGCTAACTAGGCAGAAGGAAGAAAACGATCTCAGATTACAATTGCAAATTGAAAGGCAGAGAGCGATGAGACTTTCTCGAGAATTACGGCTTAGTATGCTTGAAATAGTTCACCCAGGTCAAGTGGAGAAATACAATCAGGAGTTGGAAGAGAAATCAGCATTAATTATCCAGAAGCATTGGAGAGGGTACAGGGAAAGGAAAAAGTTCCACCAACAGAGGCCATCTCTCACAGAGTATAAAGCAGCGGTCATACTTCAAAGAGCAGTTCTTAAATTCCTAGCAAAGTGCCATAAGAAAAAGAAACTATCTGCCCCTTGGCAAGGACTCCAAGAACTCACTGATACACACAGAGTTCAACTGAAGCAACAAGTGGATGACTATATCAGAAGACATCCAGGCTCTCAAATGTCAGATGGGGCCAGCAAGGAGCTCCATGCCCAAGCTCAAGAACGGCTGCAACACTACTTTATGAGCAGGGCCCTCGAAGAGAGAGCCCAGCAGCACAGAGAGGCTCTGATGGCTCAGATCAGCACCAGTATTGAACAGCTAATGAAGGCACCAACTCTGAAGGACGCAGAAGGGAAAGAACCTGAGCTCTTCCTAAGTAGATCCAGACCTGTGGCAGCCAAGGCCAAACAGGCCCATCTCATTACCCTGAAGCACACACAAGCACCCTGGTGGAAGAAGCTTGGGGAAGGACCAGGCGATGAGACTGATATTCCAAAGGATGAGCTTACCATAGAATTAGGAACCTTATTCATTGGTGGAACAAACCCCCTTAGGGAATTACCCTGA
Eaf2 ELL associated factor 2, transcript variant X2
Length: 783 bp Location: 112843..168553 Strand: +>XM_004873585.1 ATGAATGGACCAGCGAGACTTGCGCACTTGGGCCGTCGCGAGCGAGTTCTCAAGTTAGGCGAGAGTTTCGAGAAGCAGCCGCGCTACGCCTTCCACACTGTACGCTATGATTTCAAACCTGCTTCTATTGACACTTCTTGTGAAGGACACCTTGAAGTTGGCAAAGGTGAACAGGTGACAATAACTCTGCCAAATATAGAAGGTTCAACTACACCAGTAACTGTTTTCAAAGGTTCAAAGAAGCCTTACTTAAAAGAGTGCATTTTGATTATTAACCATGATACTGGAGAATGTCGACTAGAAAAACTAAGCAGCAACATCACTGTAAAAAAAACAAGAGTTGAAAGAAGCAGTAAAATTCACCATCATGTAGAACAGCAGCAACAAATACAAAATTCAACTAGGATTCCCAGTCTTATAAAGCATTCTCCATCTGAAGACAAGATAGCCCCAACATCGCTAATGGATGACATTGAAAGAGAACTAAAGGCAGAAGCTAGTCTAATGGACCAGATGAGTAGTTGCGATAGTTCATCAAATTCCACAAGTTCATCATCATCAAGTAGTGAAGATAGTTCTAGTGAATCAGATGATGAAGAGGGCAGGTCTTCTAATCCAGGGAATTGTATCTCAGGGCGTCCTACCATGTCTGCCATACCACAGTCCAGGACTTCTGATACAGATGCTGGTCGTGAGAGATTTCATGACAACAGTGGCTTTCTGATGAATACTCTACGTAATGATTTGCAGCTGAGTGACTCAGGAAGTGACAGTGATGACTGA
Ildr1 immunoglobulin-like domain containing receptor 1, transcript variant X3
>XM_004873591.1 ATGGGCCCCAAGCTGCCCACACCTTGGCTGCTACTCTTCAACTGGCTCCCAACAGGATGCCTGTCCTTGCTGGTGACGGTCCAGGACACAGAACGCTATGTCACTCTGTTTGCCTCCGTTACCCTCAAATGTGACTATACCACCTCTGCCCAGCTCCAGGATGTGGTGGTGACCTGGCGTTTCAAGTCCTTCTGCAAGGACCCCATCTTTGACTACTTCTCTGCCTCGTACCAGGCAGCTCTATCTCTTGGCCAAGACCCGTCCAATGACTGCAATGATAACCAGAGGGAAGTTCGCATTGTGGCCCAGAGGCGGGGGCAGAATGAGCCAGTGCTGGGGGTGGATTACCGACAGCGCAAGATCACCATCCAGAACCGAGCGGATCTTGTGATTAATGAAGTGATGTGGTGGGACCATGGGGTGTACTACTGCACCATCGAGGCTCCGGGGGACACATCCGGAGACCCAGATAAGGAGGTGAAGCTCATCGTCCTGCACTGGCTGACAGTGATTTTCATCATTCTGGGAGCCTTTCTCCTGTTGCTGTTGATCGGAATATGTTGGTGCCAGTGCTGCCCACAGTACTGCTGCTGCTACATCCGCTGCCCCTGCTGCCCCACCCGCTGTTGCTGCCCTGAGGAAGCCCTGGCCCACCAACGCTACATGAAGCAGGCTCAGGCCCTAGGTCCTCAGATGATGGAAAAACCCCTGTTCTGGGGTGCGGACAGGAGCTCCCAGCTCTCATCTTATACAGTGAACCCGCTGCTGCAGCGAGATTTGTCCTTACAGTCCAGCCTCCCACAGATGCCAATGACTCAAACCTCTGCTCATCCTCCTACCACCAATGGTGTCCTGGAGTATTTGGAGAAAGAGCTGCGGAACCTCAACCCAGCACAGCCTCTGCCTCCTGACCACAAAGCCAGATCTGGCCACCCCTGCAGCATGCTGTCCTCCCTGGGCTCTGAGGTTGTGGAGCGCAGAATCATCCGCCTGCCTCCGCTCATCAGAGACCTGCCATCCTTGAGCAGGACCAGTGATGCGTCACACCAGCAGTGGCTCACCCCGGTTCCCTCCAGACCCTGGGATCGGAGGGAGGGCAGAAGGCAGCACCATTACTCTGATTTCCACCAGGAGCTCCAGGACAGAAGGCCAAAACCCTGGGCATCTGGAAGAAGGGAGCTGGACCACCCTTGGAGAGGATGGCACCGCTGCTCCAGGCGGCATAGGTCACCCTCGGCCTGGTCAGACCCGGACAGCCTCAGTGATGGCCCCTCATCCAGTGAGACACGCTGGCCACCCAGCTGTCCCCATCCCAGGAGCCACCATGAGGTGCGGCCCCACAGGCCTAGCCCTGGGGAGGACTACCGGAGGACCAGGAGACCCCGGCCCCGAAGCTACTCCCCTCCCATGCCCTCTGGCCTCAGTTCCTGGAGCTCTGATGAGGAGAAGGAGACACCACCACCCAGAGACCAGGGGTCCCGAAGTCATCATAGCCGGTCTTATTCCCCAACCTGGCCCGAGGAGAAGCCACCCAGCTACCGCTCACTAGATGTCACTGCAGGCAAGAATGGCAGGAAAAAAGGGAGTGTGGAGAGGCGCTCGGAGAGAGAGAGCTCCCATAGTGGAAGGAGTGTGGTCATTTAG
Ildr1 immunoglobulin-like domain containing receptor 1, transcript variant X2
Length: 1656 bp Location: 300512..270453 Strand: ->XM_004873590.1 ATGGGCCCCAAGCTGCCCACACCTTGGCTGCTACTCTTCAACTGGCTCCCAACAGGATGCCTGTCCTTGCTGGTGACGGTCCAGGACACAGAACGCTATGTCACTCTGTTTGCCTCCGTTACCCTCAAATGTGACTATACCACCTCTGCCCAGCTCCAGGATGTGGTGGTGACCTGGCGTTTCAAGTCCTTCTGCAAGGACCCCATCTTTGACTACTTCTCTGCCTCGTACCAGGCAGCTCTATCTCTTGGCCAAGACCCGTCCAATGACTGCAATGATAACCAGAGGGAAGTTCGCATTGTGGCCCAGAGGCGGGGGCAGAATGAGCCAGTGCTGGGGGTGGATTACCGACAGCGCAAGATCACCATCCAGAACCGAGCGGATCTTGTGATTAATGAAGTGATGTGGTGGGACCATGGGGTGTACTACTGCACCATCGAGGCTCCGGGGGACACATCCGGAGACCCAGATAAGGAGGTGAAGCTCATCGTCCTGCACTGGCTGACAGTGATTTTCATCATTCTGGGAGCCTTTCTCCTGTTGCTGTTGATCGGAATATGTTGGTGCCAGTGCTGCCCACAGTACTGCTGCTGCTACATCCGCTGCCCCTGCTGCCCCACCCGCTGTTGCTGCCCTGAGGAAGCCCTGGCCCACCAACGCTACATGAAGCAGGCTCAGGCCCTAGGTCCTCAGATGATGGAAAAACCCCTGTTCTGGGGTGCGGACAGGAGCTCCCAGCTCTCATCTTATACAGTGAACCCGCTGCTGCAGCGAGATTTGTCCTTACAGTCCAGCCTCCCACAGATGCCAATGACTCAAACCTCTGCTCATCCTCCTACCACCAATGGTGTCCTGGAGTATTTGGAGAAAGAGCTGCGGAACCTCAACCCAGCACAGCCTCTGCCTCCTGACCACAAAGCCAGATCTGGCCACCCCTGCAGCATGCTGTCCTCCCTGGGCTCTGAGGTTGTGGAGCGCAGAATCATCCGCCTGCCTCCGCTCATCAGAGACCTGCCATCCTTGAGCAGGACCAGTGATGCGTCACACCAGCAGTGGCTCACCCCGGTTCCCTCCAGACCCTGGGATCGGAGGGAGGGCAGAAGGCAGCACCATTACTCTGATTTCCACCAGGAGCTCCAGGACAGAAGGCCAAAACCCTGGGCATCTGGAAGAAGGGAGCTGGACCACCCTTGGAGAGGATGGCACCGCTGCTCCAGGCGGCATAGGTCACCCTCGGCCTGGTCAGACCCGGACAGCCTCAGTGATGGCCCCTCATCCAGTGAGACACGCTGGCCACCCAGCTGTCCCCATCCCAGGAGCCACCATGAGGTGCGGCCCCACAGGCCTAGCCCTGGGGAGGACTACCGGAGGACCAGGAGACCCCGGCCCCGAAGCTACTCCCCTCCCATGCCCTCTGGCCTCAGTTCCTGGAGCTCTGATGAGGAGAAGGAGACACCACCACCCAGAGACCAGGGGTCCCGAAGTCATCATAGCCGGTCTTATTCCCCAACCTGGCCCGAGGAGAAGCCACCCAGCTACCGCTCACTAGATGTCACTGCAGGCAAGAATGGCAGGAAAAAAGGGAGTGTGGAGAGGCGCTCGGTGTCCCATGAGAAGCAAAACATCAGCAGTAGTGGAAATAGCTTCCTCCTGTGA
Kpna1 karyopherin alpha 1 (importin alpha 5)
>XM_004873602.1 ATGACCACCCCAGGAAAAGAGAACTTTCGCCTGAAAAGTTACAAGAACAAATCTCTAAATCCAGATGAGATGCGTAGAAGGAGGGAGGAAGAAGGATTACAGCTACGAAAGCAGAAAAGAGAGGAGCAGTTATTCAAGCGAAGAAATGTTGCTACAGCAGAAGAAGAAACAGAAGAAGAAGTTATGTCAGATGGTGGCTTTCATGAGGCCCAGATCAACAACATGGAGATGGCACCAGGTGGTGTTATTACTTCTGACATGATTGAGATGATATTTTCTAATAGCCCAGAGCAACAACTTTCTGCAACACAGAAATTCAGAAAACTGCTTTCAAAAGAACCTAACCCTCCTATTGATGAAGTTATCAGCACACCAGGAGTTGTGGCCAGGTTTGTGGAATTCCTCAAACGAAAAGAGAATTGTACACTGCAGTTTCAAATAAGTTGGCTAATCACATTGTTGGGTTTTTTTTCTGGTTCTTCATTCGTAACTAGGATTGTGATTCAGGCAGGAGCAGTGCCCATCTTCATAGAATTGCTCAGCTCAGAGTTTGAAGATGTCCAGGAACAGGCAGTCTGGGCTCTGGGCAACATTGCTGGAGATAGTACCATGTGCAGGGACTATGTCCTAGACTGCAATATCCTTCCTCCTCTTTTGCAGTTATTTTCAAAACAAAACCGCCTGACCATGACCCGGAATGCAGTATGGGCTTTGTCTAATCTCTGTAGAGGGAAAAGTCCACCTCCAGAATTTGCAAAGGTTTCCCCTTGTCTGAATGTGCTTTCCTGGTTGCTTTTTGTCAATGACACTGATGTATTGGCTGATGCCTGCTGGGCCCTCTCCTATCTATCAGATGGACCCAATGATAAAATTCAAGCAGTCATTGATGCAGGAGTATGTAGGAGACTTGTGGAGCTACTGATGCATAATGATTATAAAGTGGTTTCTCCTGCTTTGCGGGCTGTGGGAAACATTGTCACAGGGGATGATATTCAGACACAGGTAATTTTGAATTGCTCGGCTCTTCAGAGTTTATTGCATTTGCTGAGTAGCCCTAAAGAATCTATCAAAAAGGAAGCATGTTGGACAATATCCAATATCACAGCTAGAAATAGAGCACAGATCCAGACCGTGATAGATGCAAACATTTTCCCAGCCCTCATTAGTATATTACAAACTGCTGAGTTTCGAACAAGAAAAGAAGCTGCTTGGGCCATCACAAATGCAACTTCTGGAGGATCAGCTGAACAGATTAAGTACCTAGTAGAACTGGGTTGTATCAAGCCGCTTTGTGATCTTCTCACTGTCATGGACTCTAAGATTGTACAAGTTGCCTTAAATGGCTTAGAAAATATCCTGAGGCTTGGAGAACAAGAAGCCAAAAGGAATGGCACTGGCATTAACCCTTACTGTGCTTTGATTGAAGAAGCTTATGGTCTGGATAAAATCGAGTTCCTTCAGAGTCATGAAAACCAGGAGATCTACCAGAAGGCCTTTGATCTTATTGAGCACTATTTTGGGACCGAAGATGAAGACAGCAATATTGCTCCCCAGGTTGACCTTAGCCAGCAGCAGTACATCTTCCAGCAGTGTGAGGCTCCTATGGAAGGTTTCCAGCTTTGA
Dtx3l deltex 3-like (Drosophila), transcript variant X2
Length: 1941 bp Location: 871087..879244 Strand: +>XM_004873604.1 ATGAACCCGGAATCCAGCATTACGTTGCCCCAGTCACAAGCTGAAACCCAGTTTGGTGCAAAGCCTTCCCATGAAGGATCTGTTCCCAATGCTGTGGACCCCTGTGTCCAAAAGATCTTTCTCACTGTAACAGCTGACCTGAACTGTGACCTGTTCTCCAAAGAGCAGAGGTCACAGGTAGCCACTGTCTGCCCCACTATCAAAAAGACGGAGGGTCACAATGGAATTGAGAGTGTGTGTGGTGACTTCAGAGATATTGAAAAAATATACCACTTCTTGAGTATGCAGCTCCTGGGAAATGAGCAGAAACAGGAGTCTTCCCCTTCCACCACGGAGAGGAAGCCCCCTGACCAGCATGACTGGGTCAGCAGATTTTCTCCTTCTGAACCCCAAACCAGCTCAGAAGAAAAAGGAAACCATTTTGAAGTTCCCTTGTTTTTGCTTGAATACTTCAAATATACCTGTCCTGATAAAATAAATTCAATCAAGGAGAGATTTGGTGTAAACATCAAAATTCAATCCAGTTCCCTTCCCAGTATGGTCTGTGTAGACTTCACCTGCAGTCAATCAGGTGACCTAGAAGCAGCTCGAGAGTATTTTGTCAGTGAGTTTCAGAAGAAAACAGAATCTCTGAAGCATGAACATGTCCCTTTAGCAGACAGTAAACAGGCAAATGAAATCAAACACAAACTAAGCTGCTGTTTTCCAAAGCTTCTCATAAAGGAGCACAGAAAGGGGCTAACTCTCCTCGGAACCATAGACGACATCACAACTGCCAAACAAAAAATGTCTGAAGGTTTTGTCAAGCCACCTGTGAAAATCTTGGTCCCCAATTCCATGACCAATGCAATTGAGGTTGATACTGCCCGTTATAAACTTCTAGCTGAATTACTCCAGGAGATAGCAGAGATAGAGCAGAAGTACAACACTCACTGTAAGGTTTGGGAGAAAAACCAGAAAACCTACATTCAATTCAATCCTAAGGACAAAGAGGTAAATCTGTCTGTGCATGCTTATGCAAGCTTCATTGATGCCCTTCAGCATGCCTCCTCTCTGCTGATGAGTGAAGTCCTTCTACTGAAAGATTTGGGTAAGGAGAGAAAACACCTGCGCAGGACCAAATTTGCTGATGACTTTAGCAAAAAACATCCAAATGTACATTTTGCACTGGATCAAGCGTCAATAACTTTGACCGGCTTGCCAGATCACCTTGCACAGGCCAAGCAGTTTTTTTTACAACTGTTGCCATCGGTTGGAGAGAAACTGAACGATGATCTTGAAACCCTCATACACCTTGATAGTAATGACTCAAAAGCAGCTTCACCTCCACTCAAGGGCTCTGCAAGTTCTGTGAGCTCAGAAATGGATAAGAAAGAAACAGACATCTGCAGCATCTGCATGGACACCATTAGTAACAAATATGTGCTTCCAAAGTGTAAGCATGAATTCTGTGACCCTTGTATCAAGAAATCCATGTCATATAAGCCAGTATGTCCTCTATGTCAGACTTCCTATGGTATCCAGAAAGGGAATCAGCCAGAAGGAACCATGACTTACACCCTGATGAAAGAACCACTTCCAGGTTATAAATCCTGTGGCACCATTGTGATTAAATACTCCATGAAGGGAGGCATACAAACAAGAGAGCATCCAAACCCAGGAAGGCCCTATTTTGGAACACAGCGAACTGCATACTTACCTGATAATGAGGAAGGAAAAGAGATTTTGCAACTGCTTCAAGTAGCCTTTAAACACAAGCTAATTTTCACAGTGGGATATTCTTCAACACAAAATATCTCAGATGTCATTACATGGAATGATATCCACCACAAAACATCCCGGTTTGGAGGACCATCAGAATATGGCTACCCTGATCCTAATTACCTGAAACGCGTTAAGGAAGAGCTGAAAGCTAAAGGAATTGAACAAGAAAACCACTAG
Hspbap1 HSPB (heat shock 27kDa) associated protein 1, transcript variant X2
Length: 1485 bp Location: 1101025..1023981 Strand: ->XM_004873609.1 ATGGCAGCGGGCACCCAGGAGAGCCCTCTCTTGGCCCTGGCAGCTGGAGCTGCCCGGAACAAAGGTGAATATGTCAAACCTTTTACACCAGAGAAAGCAAAAGGAATTATAATGTCTTTACAGCAACCTGCAGTCTTCTGTAACATGGTTTCTGACTGGCCTTCGAGACACTGGACGGCTGCACACCTTTCTGAGGTCCTTCATGGCAAGCAGATTCGATTCAGAATGGGAATGAAGAACACAGACACAGTTCCTCAGTTTGAAACCACGTGTAATTATGTGGAAGCTACACTTGAAGAGTTTCTGACCTGGAACTGTGACCAATCTAGTATTTCTGGACCATTTAGAGATTATGATCATTCCAAATTCTGGGCTTATGCTGATTATAAATATTTTGTCAACCTATTTGAAGACAATTCAGATGTTTTTCAGGATGTGCTGTGGTCTGACTTCGGGTTTCCTGGGAGAGACGGCCAGGAAAGTACACTGTGGATCGGCTCCCTGGGCGCACATACCCCCTGTCACCTGGACACCTATGGTTGTAACTTAGTCTTCCAGGTGCAAGGAAGGAAAGAATGGCATCTCTTTCCTCCTGAAGATACACCTTTCCTTTATCCAACTAGAATTCCTTATGAAGAATCTAGCGTGTTCAGTAAAACCAATGTTGTCAATCCAGATTTAAAGTGTTTTCCTCGATTCCAGAAAGCTCGAAGGCATATGGTCACACTGAGCCCAGGACAGGAAGAGGACCACCTAGCCCGGGTGGAAGAGGCAGTAACTCGTATGGTTGTATGTGCACTGAAAACTTCCGAGGATCCACACAGCACCCGAGCTTGGTTAAACCCCACCGAGGTACTCTGGTTTTTACTGTGGCTGCTGGCCCTAACTAGAGCATTTGTTTCAACCTTAACTCAGTGTGCACAACCATTCCAAAGAGTGTTTCTTTTCCCTCAGGTTGAGGCAACATCCCATGAAGTCAACTGTCGCTACTTAAATGGAGCTGTTTCTGCCTTTTTTGATCATCACAGAACACCCAAGGCAGTAGAAATTCAAGCACTGAAAACAAATAGGGAGAATGTGGAAAAGAAAGAATTAAATGTGTCCAGCCACATGGAGGTGGCCCAAACACACAACCAGGACTTAAGCCTGGCACCTGGAAAACAGGATGCAGTGAGCCTCTTTGGCCCTGATCTGTTCCCTGTAACACCAGGACCTAAAGAAGAACACCCTTCAGAAAGAGGTGGCATATTTGAAAAAGATGGTAAAGAACTGGTTGACAAAGATGGAGAATACTTCGCAAAATCCTGCTGTGCCAGGAGGCAACAAATGAGTAAAAGTGAAAATGTGGTGGAACAGACTGCTTCAAATAGTACTCCAGGCCTATCTCAGGCATTCATTTCTACAGATGATTTGCTGGACTGCTTGGTGAATCCACAGGTAACCAGAATGGTAGCGCAACTTTTGATACAGGGGAAAAGCTTGTGA
Hspbap1 HSPB (heat shock 27kDa) associated protein 1, transcript variant X3
>XM_004873610.1 ATGGCAGCGGGCACCCAGGAGAGCCCTCTCTTGGCCCTGGCAGCTGGAGCTGCCCGGAACAAAGGTGAATATGTCAAACCTTTTACACCAGAGAAAGCAAAAGGAATTATAATGTCTTTACAGCAACCTGCAGTCTTCTGTAACATGGTTTCTGACTGGCCTTCGAGACACTGGACGGCTGCACACCTTTCTGAGGTCCTTCATGGCAAGCAGATTCGATTCAGAATGGGAATGAAGAACACAGACACAGTTCCTCAGTTTGAAACCACGTGTAATTATGTGGAAGCTACACTTGAAGAGTTTCTGACCTGGAACTGTGACCAATCTAGTATTTCTGGACCATTTAGAGATTATGATCATTCCAAATTCTGGGCTTATGCTGATTATAAATATTTTGTCAACCTATTTGAAGACAATTCAGATGTTTTTCAGGATGTGCTGTGGTCTGACTTCGGGTTTCCTGGGAGAGACGGCCAGGAAAGTACACTGTGGATCGGCTCCCTGGGCGCACATACCCCCTGTCACCTGGACACCTATGGTTGTAACTTAGTCTTCCAGGTGCAAGGAAGGAAAGAATGGCATCTCTTTCCTCCTGAAGATACACCTTTCCTTTATCCAACTAGAATTCCTTATGAAGAATCTAGCGTGTTCAGTAAAACCAATGTTGTCAATCCAGATTTAAAGTGTTTTCCTCGATTCCAGAAAGCTCGAAGGCATATGGTCACACTGAGCCCAGGACAGGTCCTCTTTGTTCCCAGACACTGGTGGCATTATGTAGAATCCATTGATCCTGTCACTGTCAGTATAAACTCATGGATTGAGCTGGAAGAGGACCACCTAGCCCGGGTGGAAGAGGCAGTAACTCGTATGGTTGTATGTGCACTGAAAACTTCCGAGGATCCACACAGCACCCGAGCTTGGTTAAACCCCACCGAGGTTGAGGCAACATCCCATGAAGTCAACTGTCGCTACTTAAATGGAGCTGTTTCTGCCTTTTTTGATCATCACAGAACACCCAAGGCAGTAGAAATTCAAGCACTGAAAACAAATAGGGAGAATGTGGAAAAGAAAGAATTAAATGTGTCCAGCCACATGGAGGTGGCCCAAACACACAACCAGGACTTAAGCCTGGCACCTGGAAAACAGGATGCAGTGAGCCTCTTTGGCCCTGATCTGTTCCCTGTAACACCAGGACCTAAAGAAGAACACCCTTCAGAAAGAGGTGGCATATTTGAAAAAGATGGTAAAGAACTGGTTGACAAAGATGGAGAATACTTCGCAAAATCCTGCTGTGCCAGGAGGCAACAAATGAGTAAAAGTGAAAATGTGGTGGAACAGACTGCTTCAAATAGTACTCCAGGCCTATCTCAGGCATTCATTTCTACAGATGATTTGCTGGACTGCTTGGTGAATCCACAGGTAACCAGAATGGTAGCGCAACTTTTGATACAGGGGAAAAGCTTGTGA
Sema5b sema domain, seven thrombospondin repeats (type 1 and type 1-like), transmembrane domain (TM) and short cytoplasmic domain, (semaphorin) 5B, transcript variant X1
>XM_004873612.1 ATGGTGGTCCCAGGACCCCTGGCTGTGTCACTGTTGCTGCCCAGCCTCGCTCTGCTGGTGGCCCACCTTTCCAGCTCCCATGATGTCTCCAGTGAGCCAAGCGGTGAGCAGCAACTCTGCACCCTGAGAGAGCACCCCACTGTGACCTTTGAAGATCTGAAGCCGTGGGTCTCTAACTTCACCTACCCTGGAGCTCGAGATTTCTCTCAACTTGCTCTGGATCCTACCAGGAATCAGCTCATCGTGGGAGCCAGGAACTACCTCTTCAGACTCAGCCTTGCCAATGTCTCCCTCCTTCAGGCCACAGAGTGGGCCTCCAATGAGGACACACGCCGCTCGTGCCAGAGCAAAGGGAAGACTGAGGAGGAGTGCCAGAACTACGTGCGGGTCCTGATCCTCACTGGCCGGAAGGTGTTCATGTGTGGCACCAACGCCTTTTCCCCCGTGTGCTCCAGCAGACAGGTGGGGAACCTCAGCAGAACCATTGAGAAGATCAACGGTGTGGCCCGCTGTCCCTACGACCCTCGCCACAACTCCACAGCTGTCATCTCCTCCCAGGGGGAGCTGTACGCGGCCACGGTTATCGACTTCTCTGGTCGGGACCCTGCCATCTACCGTAGCCTGGGCAGTGGGCCACCGCTTCGCACTGCCCAGTATAACTCCAAGTGGCTCAATGAGCCAAACTTTGTGGCAGCCTATGACATAGGGCTGTTTGCATACTTCTTTCTGCGGGAGAATGCGGTGGAGCACGACTGTGGGCGCACTGTGTACTCTCGGGTGGCCCGAGTATGCAAGAACGATGTGGGGGGCCGCTTCCTGCTGGAGGACACGTGGACCACATTCACGAAGGCCCGGCTTAACTGCTCCCGCCCGGGTGAGGTTCCCTTCTACTACAACGAGCTGCAGAGTGCCTTCCACCTGCCCGAGCAGGACCTCATCTACGGAGTCTTCACCACCAATGTAAACAGCATTGCCGCTTCTGCTGTCTGCGCCTTCAACCTCAGTGCCATCTCCCAAGCTTTCAATGGCCCGTTCCGTTACCAGGAGAACCCCAGGGCTGCCTGGCTCCCCATCGCCAACCCCATTCCCAATTTCCAGTGTGGCACCTTGCCTGAGACTGGCCCCAACGAGAACCTCACAGAGCGCAGCCTGCAGGACGCGCAGCGCCTATTCCTGATGAGCGAGGCCGTGCAGCCCGTGACACCCGAGCCCTGTGTCACCCAGGACAGCGTGCGTTTCTCGCACCTCGTGGTGGACCTAGTGCAGGCCAAGGACACGCTCTACCACGTGCTCTACATCGGCACCGAGTCGGGCACCATCCTGAAGGCGCTGTCCACCACCAGCCGCAGCCTCCACGGCTGCTACCTGGAGGAACTGCACGTGCTGCCGCCCGGGCGCCACGAGCCCCTGCGCAGCCTTCGCATTCTGCACAGCGCGCGCGCGCTCTTCGTGGGGCTGAGCGACGGCGTGCTGCGCGTCCCGCTGGAGAGGGCATGCCTGGGGGCACGGGACCCGTACTGTGGCTGGGACGGGAAACAGCAGCGGTGCAGCACTCTCGAGGACAGCGCCAACATGAGCCTCTGGACCCAGAACATCACAGCCTGTCCTGTTCAAAATGTGACACGGGATGGGGGCTTTGGCCCATGGTCACCTTGGCAGCCTTGCGAGCACCTAGATGGAGAGAACTCGGGCTCCTGCATGTGCAGGGCCCGAGCCTGCGACTCCCCTCGACCCCGCTGTGGGGGTCTCAACTGCCAGGGCCCGGCCATCCACATTGCCAATTGCTCCAGGAACGGGGCGTGGACGCCATGGTCCTCCTGGGCACAGTGCAGCACGTCATGTGGGATTGGCTTCCAGGTCCGCCAGCGAAGCTGCAGCAACCCTGCGCCCCGCCACGGGGGCCGCATCTGTGTGGGCAAGAGCCGCGAGGAGCGGTTCTGTAACGAAAACACGCTTTGCCCGGTGCCTATCTTCTGGGGCTCCTGGGGCTCCTGGAGCAAGTGCAGCAGCAACTGCGGAGGCGGCGTGCAGTCCAGGCGTCGCGCCTGCGAGAATGGCAACTCCTGCCCTGGCTGCGGCGTGGAGTTCAAGACCTGCAACCCCGAGGCCTGCCCCGAGGTGCGGCGCAACACGCCGTGGACGCCGTGGCTGCCTGTGAACGTGACGCAGGGCGGGGCACGGCAGGAGCAGCGCTTCCGCTTTACGTGCCGTGCGCCCCTGCCCGACCCCCATGGCCTGCAGTTTGGCCGGAGGAGGACAGAGACGCGAACGTGCCCTGCTGACGGCTCCGGGGCCTGCGACACGGACGCCCTGGTGGAGGAGCTACTGCGCAGTGGCAGCGCCTCCCCGCACACGCTGAGCGGGGGCTGGGCCGCCTGGGGCCCGTGGTCGTCCTGTTCTCGAGACTGCGAGCTGGGCTTCCGCGTCCGCAGAAGAACATGCACCAACCCAGAGCCCCGCAACGGAGGCCTGCCCTGCGCGGGCGACGCCGCCGAGTACCAGGACTGCAACCCGCAGGCCTGCCCAGTTCGGGGAGCCTGGTCCTGCTGGACCACGTGGTCCCAGTGCTCAGCCTCCTGCGGTGGGGGGCACTATCAGCGCACACGTTCCTGCACCAGCCCGGCACCCTCCCCAGGTGAGGACATCTGTCTGGGGCTGCACACGGAGGAGGCACTATGCGCCACACAGGCATGCCCAGGTACTGGGTGCATTTGGCTGGGGCTGGGGGACATCAAGGAGCCTCGGGTTCCCAGTAGGGGTTGGTGTTGGAGTACTCGACCTCATCCCACCTCACTCCCCACAGAAGGCTGGTCACCGTGGTCTGAGTGGGGTGAATGCACTGAGGATGGAACCCAGAGCCGCAGCCGGCACTGTGAAGAGCTTGTCCCAGGGCCCGGTGCCTGTGCTGGCAACAGCAGCCAGAACCGCCCCTGCCCCTACAGTGAGATTCCCATAATCCTGCCTGCCTCTAGTATGGAGGAGACTGCTGGCTGTGGAGGGTTTAATCTCATCCACCTGGTGGTCACAGGCGTCTCCTGCTTTCTGGGCTCTGGGCTCCTGACCGTGGCAGTATACCTCTCTTGCCAACACTGCCAGCGCCAGTCTCAGGAGTCCACACTTGTTCATCCTGCCACCCCCAACCACCTGCACTACAAGGGCACCCCCAAGAATGAGAAGTACACACCTATGGAGTTCAAGACCCTGAACAAGAATAACTTGATCCCTGATGACAGAGCCAACTTCTACCCTCTTCAGCAGACTAATGTGTATACGACCACCTATTACCCCAGCCCCCTGAACAAGCCCAGCTTCCGACCTGAGGCCTCACCTGGACAGCGGTGCTTCCCCAACAGCTGA
Adcy5 adenylate cyclase 5
>XM_004873619.1 ATGTCAGGCTCCAAGAGCGTGAGCCCCCCGGGCTACGCGGCGCAGACCGCAGCGGCGCCGACGCCCCGGGGAGGCCCCGAGCACCGCTCCGCGTGGGGCGAAGCCGATTCCCGCGCCAACGGCTATCCCCACGCTCCCGGGGGTTCGAACCGCGGCTCTGCCAAGAAACCTGGCGGGGCGACCACCCCTCAGCGGCAGCAGCGCCTGGCCAGCCGCTGGCGCAGCGACGACGACGACGACGCTCCGCTGAGCGGCGACGACCCCCTGGCCGGGGGCTTCGGCTTCAGCTTCCGCTCCAAGTCTGCCTGGCAGGAGCGCGGCGGCGAGGACTGCGGTCGAGGCAGCCGGCGGCAGCGGCGGGGCGCGGCCGGCGGGGGCAGCACCCGGGCGCCCCCTGCGGGCGGCGGTGGCGGCGCTGCGGCCGCGGCGGGCGGGACGGAGGTGCGCCCCCGCTCGGTGGAGCTGGGACTGGAGGAGCGGCGGGGCAAGGGCCGCGAGGCCGAGGAGCTGGAGGCCGGCGCTGTCGAGGGCTGCGAGGGGTCCGGGGATGGCGGCAGCTCAGCGGGCTCGAGCTCCGGGCCCGGCGCGGTGCTGTCGCTGGGCGCCTGCTGCCTGGCCTTGCTGCAGATATTCCGCTCCAAGAAGTTCCCGTCGGACAAGCTGGAGCGGCTGTACCAGCGCTACTTCTTCCGCTTGAACCAGAGCAGCCTCACCATGCTGATGGCCGTGCTGGTGCTTGTGTGTCTTGTCATGCTGGCCTTCCACGCGGCGCGGCCTCCGCTCCAGCTGCCTTACCTGGGGGTGCTGGCCGCCGCCGTGGGTGTGATCCTTGTCATGGCCGTGCTCTGCAACCGCGCAGCCTTCCACCAGGACCACATGGGCCTGGCGTGCTACGCGCTCATCGCTGTGGTGCTGGCTGTCCAGGTCGTGGGCCTGCTGATGCCACAGCCGCGCAGCGCCTCCGAGGGCATCTGGTGGACCGTGTTCTTCATCTACACCATCTACACGCTGCTGCCCGTGCGCATGCGGGCCGCGGTGCTCAGCGGGGTGCTCCTGTCTGCGCTCCACCTGGCCATCGCCCTTCGCACCAATGCTCAGGACCAGTTCCTGCTCAAGCAGCTTGTTTCCAATGTCCTCATTTTCTCCTGCACCAACATTGTGGGTGTCTGCACCCACTACCCAGCTGAGGTGTCCCAGAGACAGGCCTTCCAGGAGACCCGGGAGTGCATCCAGGCACGGCTCCACTCGCAGCGGGAGAACCAGCAGCAGGAGCGGCTTTTGCTGTCAGTCCTTCCCCGTCATGTTGCCATGGAGATGAAAGCAGACATCAATGCCAAGCAGGAGGATATGATGTTCCACAAGATTTACATCCAGAAGCATGACAACGTGAGCATCCTGTTTGCTGACATCGAGGGCTTCACCAGCCTGGCATCCCAGTGCACTGCCCAGGAACTAGTCATGACCCTCAACGAGCTCTTCGCCCGCTTTGACAAGCTCGCTGCGGAGAATCACTGTTTACGCATTAAGATCCTGGGGGATTGTTACTACTGCGTCTCAGGGCTGCCTGAGGCCAGGGCCGACCACGCCCACTGCTGTGTGGAGATGGGCATGGACATGATCGAGGCCATCTCGTTGGTCCGGGAGGTGACAGGGGTGAACGTGAACATGCGTGTGGGAATTCACAGCGGGCGAGTACACTGCGGTGTCCTTGGTCTCAGGAAGTGGCAGTTCGACGTCTGGTCTAACGACGTCACGCTGGCCAACCACATGGAGGCCGGGGGCAAGGCGGGACGCATCCACATCACCAAGGCCACACTCAACTACCTGAACGGGGACTACGAGGTGGAGCCAGGCTGTGGGGGCGAGCGCAATGCCTACCTCAAGGAACACAGCATCGAGACCTTCCTCATCCTGCGCTGCACCCAGAAGCGGAAAGAAGAGAAGGCTATGATCGCCAAGATGAACCGCCAGAGAACCAACTCCATCGGGCACAACCCGCCACACTGGGGGGCTGAGCGCCCCTTCTACAACCACCTAGGCGGCAACCAGGTGTCCAAGGAGATGAAGCGGATGGGCTTTGAAGACCCCAAAGACAAGAATGCCCAGGAGAGTGTAAACCCTGAGGATGAAGTGGACGAGTTCCTGGGCCGGGCGATTGATGCCAGGAGCATTGACCGGCTGCGGTCTGAGCACGTCCGAAAGTTCCTTCTGACCTTCCGGGAGCCAGACTTAGAGAAGAAGTACTCCAAGCAGGTGGATGACCGCTTCGGTGCCTATGTGGCCTGTGCCTCACTCGTCTTCCTTTTCATCTGCTTTGTCCAGATCACCATTGTGCCCCACTCCATGTTCATGCTGAGTTTCTACCTGACCTGTTTCCTACTGCTGGCCTTGGTGGTGTTTGTGTCCATGATCTACTCCTGTGTGAAGCTCTTCCCCAGCCCCCTGCAGATCCTCTCCAGGAAGATCGTGCGGTCCAAGATGAACAGCACGCTGGTCGGGGTGTTCACCATTACCCTGGTGTTCTTGTCGTCTTTTGTCAACATGTTCACCTGCAATGCCGAGGACCTGGTGGGCTGCCTGGCAGAGGAGCACAACATCAGCGCCGGCCAGGTCAACGCGTGCCATGTGGCAGAGTCGGCCTTCAACTACAGCCTGGCCGACGAGCGGGGCTTCTGCGGCAGCCTCTGGCCCAACTGCAATTTCCCCGAGTACTTCACCTACAGTGTGCTGCTCAGCCTGCTGGCCTGCTCCGTGTTCCTGCAGATCAGCTGCATCGGGAAGCTGGTGCTCATGCTGGCCATCGAGCTCATCTACGTGCTGGTCATTGAGGTGCCTGGTGTCACGCTCTTTGACAACGCTGACCTGCTGGTCACCACCAACGCCATAGACTTCAGCAACAACGGGACCTCCCAGTGCCCTGAGCATGCGACCAAGGTGGCTCTGAAGGTGGTGACACCCATCATCATCTCGGTCTTCGTGCTGGCCCTGTACCTGCATGCCCAGCAGGTGGAGTCCACTGCCCGCCTCGACTTCCTCTGGAAACTGCAGGCCACAGAGGAGAAGGAAGAGATGGAGGAGCTGCAGGCCTACAACCGGCGGCTGCTACACAACATCCTGCCCAAGGATGTGGCTGCCCACTTCCTGGCCCGTGAGCGGCGCAATGATGAGCTCTACTACCAGTCCTGCGAGTGTGTGGCCGTCATGTTTGCCTCCATTGCCAACTTCTCTGAGTTCTATGTGGAGCTGGAGGCCAACAACGAGGGTGTTGAGTGTCTGCGGCTGCTCAATGAGATCATCGCCGACTTTGATGAGATCATCAGTGAGGATCGGTTCAGGCAGCTGGAGAAGATCAAGACCATCGGCAGCACCTACATGGCTGCTTCGGGCCTCAACGACTCCACCTACGACAAGGCGGGCAAGACCCACATCAAAGCCCTGGCTGACTTCGCCATGAAGCTGATGGACCAGATGAAGTACATCAATGAGCACTCCTTCAACAACTTCCAGATGAAGATTGGGCTCAACATCGGCCCTGTGGTAGCTGGGGTGATTGGGGCTCGCAAGCCTCAGTACGACATCTGGGGCAATACAGTGAACGTGGCCAGCCGCATGGACAGCACCGGTGTGCCTGACCGCATCCAGGTCACCACAGACATGTACCAGGTGTTGGCTGCCAACACGTACCAGCTGGAGTGCCGGGGCGTGGTCAAAGTGAAGGGCAAAGGCGAGATGATGACCTACTTCCTCAACGGAGGTCCCCCCCTCAGTTAG
Parp14 poly (ADP-ribose) polymerase family, member 14, transcript variant X1
>XM_004873606.1 ATGGCTGCGCCCCGCTCCTTCCCGCTGCTGGTCGAGGGGTCCTGGGGCCCTGACCCTCCCAAGAACCTCAGCACCAAGCTGCAGTTGTACTTCCAGAGCCCCAAGCGGTCCGGCGGCGGGGGGGAGTGTGAGGTCCGCAGGGATCCGGAGAACCCGGCGCGCTTCCTGGTGCTCTTCTCCGAGGACGTTCGGCAGAAAGTTCTGCAAAAAATGAATCACGAGTTAGTCTTGCCAGGAAAAGGGACATTCCAGTTAACTGTCCAGCTGCCCACTGCTCCAGATGAACCCCCAGTCTCTAAGGAGAAAATTTCAGCAAATGAATCCAAGATGGAAGAAAATGTCAAAGAACCAGTTGTGTCAGAAGAACCAGATATGGAACTCTCTCTCAATAGTAGATCAGAAAAGATGGAAGATCTCCCCAAAGAATGTGAAAATGTTTCCAATTTGGTGGCATTTGAAAATATCAAGGCAAACATGACTGACATGATGATGACCTTGTTAGTGGAGAATGTAAGTGGCCTGACCAGTGATGACTTTCAGGTGGAAGTAATACAAGATTTCAGCGTTGCTGTGGTTACCTTTAAAAAACATACAGACACTATGAAATTTGTTCATGATTGTGCCAGACACCATTCGATTCAACAACTAAAACTGTTTCCAAGACTTCTGGAAGAGACAAAGACAATCCGGGTTGAAAACCTGCCCCCTGGTGTTGATGACTACCAGTTACAACTTTTCTTTGAAAATCCTTTCCATGGAGGGGGAAGAGTGGCCCATGTTGAATGCTTTCCTGAAGAGAGTTCAGCTCTGATTGAATTTTGTGACAGAAAAGTGTTAGATACCATCATGACCAAGAAACACAACTTCAATAAAATGCCGCTTTCTGTCTTCCCCTACTATACCTCTTTGGGCACAGCCTTGTATGGAGAGGAACAGCCTCTGATTAAGCTACCAGCACCATTCCAAGAGTCACTTGATCTGCCTTTATGGAAGTTCTTTCAGAAAAAGGATCACTTGATTAAGGAACTGGATGATGAAATGAGACGTCATCACTGTGAGCTAACATGGTCCCAACTGGACAGTAAAGTTACCATCAGACCTGCAGCCACCTTAGTCAATCAAGGAAGACTGAGAATCAAGACATGGCAGAAAGATGCTTCTACAGCACTCTATGGCATCAGATCTACATATGCAGTTACCTCATTTAAGGTGGCTCCAGTAGTTTGGGACATCATAAAAAATGACTTAGAAGATGATAGGATTTTGATTGAGTTTGATACATCTAAGGAGACTGTAACCTTAGCAGGAAAATCAGAAGATATCCAAAATGTTCATCCACAAATCAAAGAATTACTAGAAAGAACGACTCAAAAAATTCAAAGGGAAGAGCAAAGTCTGAAGGAAAAAGTGGCCATTTCTTCAGAAAAGCATTTTCTTTTGCACCACAGTGGTGTTCTGCAGCATGTGTGCACAGAGTGCCCGGAGATGGAGATTTGTTATGATGCAGACACTCAGTGCCTGTGCCTTAAAGGACCCCAGGCAGATGTGTACAAAGTAAAGTGTGAAATCCAGGAAAAGGTGTACACCATGGCTAAGAAAACCACTGAGGTCTCTCCTGAGGTCTTTCAGTTTTTGCAGCAAGTAGACCATAAAGAATTCTCTAAGTCTTTTTTTATAGCACAAAAAAATCTTACCGTTTATGAGCTCAAGGACACAACTGTTCTCTTAACCAGCTGTTCTTCTGAAGTCTTGGTAGAAGCTGAAAAACAAATGCTCAGTGCCTTAAATTATAAACGCATTGAAGTTGAGGACAAGACAATTCTTACAAACAACAAATGGAAAAAGTTCATTGGCAATATCCAAAAGAAATCTAATTCCTCCACATGCATTATGATAATCAGTGAATTCACTGTAGGAAGCCCAGCTGGAGTCATTGTTGCAGGCCTTGTGAAGGAAGTAAATGAAATCTATAGTGTGATTTTTGACTTCTTGGAAAAAAACATGAAAATAGAAAGATTGATTGAAATAAAGCCATCCTTGGTTATAGACTATTTAAAGGCAGAAAAGAAGCAGTTCTGGTCAAAAATAAAGAAGGGAGATGTGCAGGTAGTTTTCAATCCAGAGCACAACCAAAAAGGCATTTTACTAATTGGACCCAAGTGCCAAGTTCTAGAAGGTATGAATTTTGTCAAGGAAGCTGAGAAGTCTGTCTTTGTTAAAAGCATCCCTATTGACAAGCCAGGAGCCAGGCAGTTCTTCCAAGATAAAGCATGGTTTTATAGAGGTGAGGTCAGGAAGTTATATGGTTGTTTCATTGAACTCCTAGAGAATGAAGAAAAGAAGGTAGGAGGCAAAACTGCTGGGCAGAAGTACCTCATCCAGAGGGAAGTGGCCCCTGGTATCTTCCTGATTGTCCAGCAGGGTGACTTGACTCAGTTTCCAGTCAATATAGTGGTGAATGCAGCAAACGAGGACCTCAAGCATATTGCCGGCCTTGCTGCTGCTCTCTCAAAAGCAGCTGGCCCGGAACTTCAAGCAGACTGTGACAAGATAGTGAAGAGAGACGGCCGGCTCCTGCCAGGCAATGTCGTCCTCTCGAAGGCAGGGAAGCTCCCTTGCCAGCATGTGATCCATGCAGTAGGGCCCCGGTGGGATGGACATGAGGCCCCAAGGTGCGTGTACTTGTTAAAGAAAGCTGTGGAAAATAGTCTTCTTTTGGCAGAAAAACACAAGTGCCGGTCCATAGCCATTCCTGCTATTAGTTCTGGAGTCTTTGGCTTTCCCTTACAGCAGTGTGTGGAGTCCATTGTTCTGTCCATCAAGGAAAACTTCCAACATAGGCAGGATGGGTGGACCTTGAAAGAGATTTATCTTGTGGACTCATTGGAGAAGACAGCGGAGGCTTTTGCTAAAGCTGTGACAACTATATTTAAATACCCTCTGCCTGAGAGATCATCCCCACCTAATACAGTTGGACCAGCAGCAAAACCTGTGACAACATCCCAGGAAATGGCATCTCTGACAGCCCCAGGAGGCCTGAAGATCCTATTGGTGAAAAATGGTGTGCAGGATGCTACGACTCATGTTGTTGTTAACTCCATTCCTTCGGATCTTGGACTCAACCGAGGGCCCCTTTCTCGGGCCCTCTTGGAAAAAGCTGGGCCAGAAATCCAGAAGGAGCTGTATGCAGCTGGACAAGGCATCACTGTGGACGTGGGCGCGATTCTCCAAACAAGTGGTTGCAATCTGCAGTGCCGCCATGTGCTTCACGTGGTGACTCCATCATGGACAAATGACACATCTGCACAAAAGATCATGGAAGACATAATCAGACACTGTTTGGAGATCACTGAGAGACTGTCTTTACAATCAATTGCATTTCCAGCAATAGGAACGGGAAACTTGGGATTTCCTAAAACCGTACTTGCTGAATTACTCCTTTCAGAAGTGCTCAAATTTAGTAGCAAAATGCAGCTGAAAACTTTACAAGAGGTTCACTTTCTGGTGCACCCAAGTGATCATGAAAATATTCAGGCCTTTTCAGTTGAATTTGCCAGAAGGAGTAATGGAAATCTTAATGATACAGTTCCCAAGGCTGAAGATGATAAGCAAGGTTTCTATGGCACTATTTCGAGCCCTAATTTAGGAGTGCATGAAATGAAGATCGGCCCCATCCTCTTCCAGGTGGCCTCTGGGGATATCACCAAAGAAGCTGCAGATGTGATTGTAAATTCAACGTCACACAAATTTAATCTTAAAGCAGGGGTCTCCAAAGCAATTTTAGAAAATGCAGGACAAGAAGTGGAACAGGAATGTGCTCTCCTAGGTCAACAGGGCAAAAATGAGTATATAATTACCAAAGGTGGATCACTGATGTGCAAGAACATTATTCATGTTGTTGGAGGTAGTAATGTCAAGAGATCAGTTTCTTGTGTTCTACAAGAAACTGAGAAACGGAATTACTCCTCCATTTGCCTTCCAGCCATTGGGACAGGAAGTGCTGGACAAGACCAAAACAAGGTTGCTGAAGCTATGCTTGATGCTATTGAAGACTTTACCCAGAACGGGTCAGTTCAATATGTGAAAAAAGTTAAAGTTGTTATCGTTCAGCCCCAAGTACTGGATGTGTTTTATGCCAACATGAAAAAGAGAGAAGGGTCTCGAGCTTCTCACCAACCATCGATGATGTCTAAATTTGCCTCCTTTTTTGGCCTTTCAAAACCACCTCACCCCAAAAAGAAGCCCTTGGTTTTGGAAAAGAAAACAGAACTGGCGGTCTTCCAGTTGTGTGGTGAAAACAGCAACTGCGTGGACCAAGCTATCCTCTGGTTAAAGGACCTGATTACAAAGGAGCAGTATTCTTACACCAATACAGATGAGTGTATGAAAGATTTTGATGAAAAGGAGTATCAGGAACTGAACGAGCTGCAGAAGAAGTTAAATATTACCATTTTTCTGGACCGGAAGAGACCTTTCATTGAAGTTTTGGGAATTACCAGAGATGTGATGGAGGCCAGAGATAAAATTGAAGAAATGGTCAAGAAGGTGAGATCAGCCAAAGAAGAAGAAAACAGGGCAGATTGTATCAGTGAATTTATAGAATGGCAATATTGTAAGGATAACACTTTTCATCGTTTTGACAAAATAACCAATCTGCAATTGGAAGATGCAAGGAGAGCAAAGAACAAGAGCATTGTTGTCAAAATTAACAATCAATCCTACACAGTGAACTTGAAAGACTTCACTGCCAGGAGTCCACATGGACACAGTGTAACTATTCAGCGCTTCACAAAATCTGAAGTTGACCTTCCTGGGCACTGGAGTGACATGAAGCAGCAGAATCTCTGTGTGGTCCAGCTGCAGCCTGGTGATACGGAATTCAATACCGTGGCAGGAACGTTTAATCAGACCTGCTCACAATTTGTCATTGAGAAGATTGAGAGGATCCAGAATCCAGATCTCTGGAATAGCTACCAGGCAAAGAAAAAGATCATGGATGGCAAGAATGGCCAGGTCATCAATGAGAAGCTGCTCTTCCATGGCACAGATGTTGACTCGGTGCCTCACGTCAATGGGAATGGATTTAACCGCAGTTACGCTGGAAAGAATGCTGTGGCATATGGAAAGGGAACCTATTTTGCTGTCAGTGCCAGTTATTCTGCCAATGACACATACTCCAGACCAGATGCAAATGGGAAAAAGCATATGTATTATGTGCGAGTACTCACTGGAGTGTACACAAACGGAAACAGCTCGTTAATTGTGCCTCCTTCAAGGGACCCTCAAAATCCTACTGACCTGTACGACACGGTCACGGACAATGTGCACAACCCGAGTTTATTTGTGGTGTTTTATGATTACCAAGCATACCCAGAATACCTCATTACTTTTAGAAGATAA
Ccdc58 coiled-coil domain containing 58, transcript variant X1
>XM_004873597.1 ATGGCGGCGCCCAGTGGCGGTGTGAATTGCGAGGAGTTCGCCGAGTTCCAGGAATTACTCAAGGTGATGAGGACAATTGATGACAGAATAGTCCATGAATTAAACACTACGGTTCCAACAGCTTCCTTTGCAGGGAAAATTGATGCCAGCCAAACCTGTAAACAACTTTATGAGTCTTTGACGGCAGCTCATGCTAGTAGAGACAGAGTCATAAAAAATTGTATAGCCCAGACCTCAGCAGTAGTAAAAAACCTACGAGAAGAGAGAGAAAAGAATTTGGATGATTTAACGTTATTAAAGCAACTTAGAAAAGAGCAGACAAAGTTGAAATGGATGCAGTCAGAACTGAATGTTGAAGAAGTGGTAAATGACAGGAGCTGGAAGGTGTTTAATGAACGCTGCCGAATTCACTTCAAGCCTCCAAAGAATGAATAA
Parp9 poly (ADP-ribose) polymerase family, member 9
>XM_004873629.1 ATGCTCTACCCACTTGCTGAGACTGACTTTTCTGTTCAAAGCTTTAGCTGGCAAATTCCCATTAATCACAGTGACTTCACAATATTAAAAAATCATGAGAGTCGGCTGTCCGACGTCCTACAGACTAAGTTTGGCTGTATCTCCACTCTGATCTCTCCAGCCCTGGCAGGTAACAGCCAGCCTCTTGCTCAGCAAGTCTTCAGAAAAAGGCTGAGTCCTGGACTAGAGTTGTCTGTCTGGAAGGATGACCTCACCAGACATGCTGTTGATGCTGTGGTGAATGCAGCCAATGAAGATCTTTGCCATGGGGGAGGCCTGGCTGGGGCCCTGGTGAGAGCTGGGGGCCATGAAATCCAAGAGCAGAGCAGACGATGGGTGGCCAGTTATGGTAAAGTACCAGCTAGTGAGATAGCTATCACTGGAGCAGGACGGCTTCCCTGCAGACTGATTATCCATGCTGTTGGGCCTCGGTGGGAGGCAATGGATTCACTGAGATGTATTGATAAATTGCAAAGGGTTATTGCCAGAATTCTGCAGTATGTGAACTATGAAAATACAAGCATTACGACAGTTGCAATTCCAGCCCTGAGCTCTGGAATTTTCCAGTTTCCTCTGGATTTGTGTACGCAGACTATTTTACAAACTATTCAGTGGTATCTTCAAGGGATGCAATTGGTTAGTAATTTGAAAGAAATTCACTTGGTAAGCAACGAGGACCCTACTGTGGCTGCCTTGAAAGCTGCTTCAGAAGTCTTCCTAGGGGAGAATGAGCTGGGCCCCTGGATGAGTCAAGAAACCACTCCTCCTGTCAGTATTCACACAATGCAGGGGCTGACCCTACAGATTATCCAGGGCCACATTGAACAGCAGACGACAGATGTGATTGTTAACTCTGTAAACCCATTCGATATTAAAAGCGAACCTGTGTCAAAATCAATTCTACAACAGGCAGGAAATGAAATAGAATGGGAACTTACTGACAGAATACCTAAACTGCTTTCAGTTTCCAAATTTGTACTGGTCACAGAAGGATTTGAATTGTCCTGCCGATATGTATTTCATGTACTGTGGCATTTAACATATCCTAAACATCTGCTATTGAAAAATGCAGTAAAGGAATGTTTGGAAAAATGCCTTGAGCTAAATAAAACTTCCATTTCCTTTCCTGCCCTTGGGACTGGAAGCATTGGTATAAAGAAGAATACAGTAGCAGAGATCATGTTTGATGAAGTTTTAACATTTGCCAAGTACCATTTGAACGAAAAACTAACTGTGAAGTTTGTGATCTTTCCAGAGGATCTGGGGACATATAAGGCTTTCAGTGCTGAAATGGCAAAGAAATCCAAGATGCTGAGTCTCAACAGTCATAGAGTCCCCCACCAGTGGACCAGAGAAGACCAAAGAGAAAATGGGCTTAAAGATGGATCCCCTGGAGTCAATCTTATGGGATTCAACCTGGAAGAGATGCATGAGGCTGAAGCATGGATCCAAAAGATCCTGACCTCCCAGGACCACCACATCATTGAGAATAATCACATTCTGTACCTTGGGAAAAAGGAACATGAATTTTTGTCTGACCTCCAAACAACCACAAGTGTCTGCATCTCAGAAGTTATCAGCCTGGAAAAGGCAAAATTGGAGATTAAAGGAGCTCAGACTGACTGCATTGAGGTGGTTCTGAAGATTGAACGTATGCTGTGTGAAGTTCAGGAGGAAATTGTAAGAAAAAAGGAGCAAGGTTTTAAGAACTTGTCAGGACAATGGACTGATCAGCAAGGAAAACCCCAAGATGAAGTGAAGGAAGTGAAGATCCTGTTTCTGCGATTCCCAGTGCTTTTAACACAAGAACTTGAGGAGCAAAAGAAACAGTTTGAAAAACATGGTTTGCTGGTTATAAAGGTGGAGAAGATAGAAAACATGGTTCTTACGGCTGCCTTCCAAAGAAAGAAGAAAATGATGGAAGGGAGAACACACAGGGAGCCTGTGAGCCGCAGGCTGTTTCAGCAAGTCCCACGTCAGTTCTGCAACGCGGTATGCAGAGTCGGTTTCCAGAGATTGTACTCTGTGCCCTGCGACCCAAAATATGGAGCTGGCATATACTTCACCAGGAACCTCAAAAACCTAGCAGACAAGGCCAAGAAAACACCTGCCACCGATAAGCTGATCTATGTGTTTGAGGCTGATGTACTCACAGGCTCCTTCTGCCAGGGTCATCAATTAAATATTGTCCCTCTACCACTGAGTCCTGGAGCCATAGATGGTCATGATAGTATGGTTGACAATATGTACAGCCCTGAAACCTTTGTTATTTTTAGTGGCACACAGGCTATGCCCCAGTATTTGTGGATATGCACCCAGGATCATGAACAGTCACAGGATTATTCATCAGGACCAGTGATGTTCTCTTCACAGCAGCCTTGGGGGAAATTCTCAAGAAGCAGCTCTGTTGACTAA