Gene Name | Heterocephalus glaber isolate NMR 29 unplaced genomic scaffold, HetGla_female_1.0 scaffold00138, whole genome shotgun sequence |
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Arsj arylsulfatase family, member J
>XM_004870033.1 ATGGCCGCCTGGGGCTGCGCGGGGCCACCGCCTCCGCTGCCTGCGCAGGCCCGGGGCTGGCCTGGAAGAGTGGTAGCTATGGCTGCCCTGGCAGGATTCTGGGTCCTGAGCCTCATCGCCTATGGTTACCTGTCCTTCGGCCAGCGCTTAGAGAAGGAGGAGGGGTCTTGGCGAGCTCTAGCTTCGGAAAGACTGGAGCCCTCGCAGCCTCATCTCATCTTCATCCTAGCTGATGATCAGGGATTTAGAGACGTGGGCTACCACGGTTCTGAAATAAGGACGCCTACTCTGGACAAGCTCGCTGCCGAAGGAGTTAAACTGGAGAACTACTACGTCCAGCCCATTTGCACACCATCCAGGAGTCAGTTTATTACTGGAAAGTATCAGATACACACAGGTCTTCAACATTCTATCATAAGACCTACCCAACCCAACTGTTTACCTCTGGACAATGCAACCCTACCTCAGAAACTGAAGGAAGTTGGATATTCAACGCATATGGTGGGAAAATGGCACTTGGGATTTTATAGGAAAGAATGCATGCCCACCAAGAGAGGGTTTGATACCTTTTTTGGTTCCCTTTTGGGAAGTGGTGATTACTACACACACTACAAATGTGACAGTCCTGGCATGTGTGGCTATGACTTGTATGAGAACGACAATGCTGCTTGGGACCACGACAATGGCATATACTCCACACAGATGTACACTCAGAGAGTGCAGCAAATCCTAGCTTCCCATAACCCCACAAAACCTATATTTTTATATATTGCCTACCAAGCTGTCCACTCACCACTGCAAGCCCCGGGCAAGTACTTTGAACACTACCGATCCATTATCAACATAAACCGTCGCAGATACGCCGCCATGCTTTCCTGCTTGGACGAAGCAATTCACAATGTGACCTTGGCCCTGAAGGCATATGGTTTCTATAACAACAGCATTATCATTTACTCTTCAGATAATGGTGGCCAGCCGACCGCAGGAGGAAGTAATTGGCCTCTCAGAGGTAGCAAAGGAACATATTGGGAAGGGGGGATCCGGGCTGTTGGCTTTGTGCACAGCCCACTTCTGAAAAACAAGGGAACTGTATGTAAGGAACTTGTGCACATCACCGACTGGTATCCCACTTTGATTTCACTGGCTGAAGGACAGATTGATGAAGACACTCAACTCGATGGTTATGATGTCTGGGAGACCATCAGTGAAGGCCTTCGTTCACCCCGAGTTGATATTTTGCACAACATTGACCCCATTTACACCAAGGCAAAAAATGGATCTTGGGCAGCGGGCTATGGGATCTGGAACACAGCCATCCAGTCAGCCATCAGGGTGCAGCACTGGAAGCTTCTCACTGGAAACCCTGGCTACAGTGACTGGGTTCCCCCTCAGTCTTTCAGCAACCTGGGGCCAAACAGGTGGCACAATGAACGGATTACCTTGTCGACTGGCAAGAGCATATGGCTTTTTAACATCACAGCTGACCCGTACGAGAGGGTAGATCTCTCTAGCAGATATCCAGGCATCGTGAAAAAGCTCCTGAAGAGGCTTTCCCAGTTTAACAAGACTGCAGTGCCTGTTAGATACCCACCCAAAGACCCCAGGAGTAACCCTCGGCTCAATGGAGGAGTCTGGGGACCATGGTACAAAGAGGAAAACAAGAAAAGGAAAGCAAACAAAAATAAAGCTGAGAAAAAGAAAAAGAAAAGTAAGAACAAGAAGAAGAAACAGCCAAAAGCACGCTCATCCCCAAATTGCCATTCATGTATTATTCATGGTTAA
Ugt8 UDP glycosyltransferase 8, transcript variant X1
Length: 1626 bp Location: 1182690..1255677 Strand: +>XM_004870034.1 ATGAAGTCTTACACTCTGTATTTCATGCTCCTGTGGAGTGCTGTTGGAATAGCGAGGGCTGCCAAAATCATCATCGTGCCGCCAATTATGTTTGAAAGCCATATGTACATTTTCAAGACGCTGGCCACAGCATTGCACGAGAGAGGCCACCACACAGTGTTCCTCTTCTCAGAAGGCAGAGACATCGCCCCATCTAATCATTACAGCCTCCAGCGCTACCCAGGGATTTTCAACAGCACCACCTCAGATGCTTTCATGCAGTCCAAAATGCGGAATATATTCTCTGGGAGGTTGACAGCAATCGAACTATTTGACATACTAGATCATTACACTAAGAACTGTGACATGATTGTTGGCAACCAGCCCCTAATCCAGAATCTGAAAAAAGAGAAGTTTGACCTGCTGCTGGTGGACCCAAATGACATGTGTGGATTTGTGATAGCTCATCTCCTAGGGGTTAAATATGCTGTATTTTCAACTGGCCTTTGGTATCCTGCTGAAGCAGGGGCTCCTGCTCCATTAGCCTACGTGCCAGAGTTTAATTCACTCCTCACAGACCACATGAACTTGCTGCAAAGGATGAAAAATACCGGCGTTTACCTTATTTCTAGAATAGGAGTCAGCTTTCTGGTTCTTCCCAGATATGAAAGAATAATGCAGAAGTACAACCTGGTGCCAGAGAAGTCCATGTATGACCTGGTCCATGGCTCCAGCCTGTGGATGCTGTGCACTGATGTGGCACTCGAGTTTCCAAGACCCACTCTGCCTAATGTCGTTTATGTTGGAGGGATCCTGACCAAACCAGCCAGTCCATTGCCAGAAGACCTCCAGAGGTGGGTGGATGGTGCTCATGAACACGGCTTTGTCTTGGTTTCCTTTGGAGCTGGGGTCAAGTACCTCTCAGAAGACATTGCTTACAAATTGGCAGGAGCTCTGGGGAGATTGCCTCAAAAAGTGATCTGGAGGTTTTCTGGAACCAAACCAACGAATCTAGGAAACAACACGAAACTCATAGAGTGGTTACCGCAGAATGACCTGCTTGGACACTCAAATATTAAAGCCTTTCTGAGTCATGGAGGTCTGAACAGTATTTTTGAAACTATGTATCATGGTGTACCTGTAGTTGGAATCCCACTCTTTGGAGATCATTATGATACTATGACCCGGGTGCAGGCTAAAGGCATGGGGATATTGCTTGAATGGAAGACTGTTACTGAAGGGGAGTTATATGAAGCTCTGGTGAAAGTTATCAGTGATCCCAGCTACCGCCAGAGGGCTCAGAAGCTGTCAGAAATCCACAAGGACCAGCCTGGCCACCCTGTCAACCGGACTGTCTACTGGATAGACTACATCCTTCGTCACAATGGAGCCCACCACCTGCGGGCCGCTGTGCACCGGATCTCTTTCTGTCAGTATTTCTTACTGGATATTGCTTGTGTGCTCTTACTGAGTGCTGCCTTTTTTTACTTCCTCTTGTCCTGGGTAACAAAATTTATCTACAGAAAAATCAGAAGTCTGTGGTCTAGAATTAAGCATAGCACAGTTAATGGACATTATCACAGTGGAATTCTGAATGGCAAATACAAAAGACCTGGCCATATGAAGCATGAGAAGAAAGTGAAATGA
Ndst3 N-deacetylase/N-sulfotransferase (heparan glucosaminyl) 3
>XM_004870038.1 ATGAGTTTTATCATGAAGCTTCACAGACACTTTCAAAGGACTGTCATTCTGCTTGCCACTTTTTGTATGGTGAGCATTATTATTTCTGCTTACTATCTGTACAGTGGCTACAAACAGGAAAATGAACTCTCTGAGATGGCTTTAGAAGTAGACTGTAGTGACCTGCAACACCTACCATATCGGCTAATGGAAGTGAAGACAACAAAGCTCTTTGATGCCTCAAGGACAGATCCCATAGTCCTGGTGTTTGTAGAAAGCCAGTACTCATCCCTTGGTCAAGACATAATTATGATTCTAGAATCAAGCAGATTCCAATATCACATTGAAATTGCTCCTGGAAAAGGAGATCTCCCAGCACTTATAGACAAAACTAAAGGCAAATACATTCTCATCATTTATGAGAATATTTTAAAGTATATTAATATGGACTCTTGGAATCGAAGCCTTCTAGATAAATACTGTTTGGAATATGGTGTGGGTGTTATTGGATTCCACAAAACTAGTGAGAAGAGTCTACAGAGCTTTCAGTTAAAAGGTTTCCCTTTTTCCATATATGGAAACCTTGCAGTAAAAGATTGTTGTATTAATCCTCACTCTCCATTGCTTCATGTGACCAAGTCTTCTAAGCTCGAAAAAGGCTCTTTACCTGGAACCGACTGGACAGTTTTTCAGATTAATCACTCAGCTTACCAACCAGTAATATCTGCCAAAGTAAAGACCCCAGAAAACTTTTCTCCTCCCATCTCTAAAGGTGCTTTTTATGCCACTATCATACATGACTTGGGGCTTCATGATGGAATTCAGAGAGTTCTCTTTGGCAACAACTTAAACTTTTGGCTACATAAGCTCATCTTTGTAGATGCCATCTCCTTCTTGTCAGGGAAGAGACTGACATTGTCCTTGGACAGGTATATTCTCGTGGACATTGATGATATATTTGTGGGGAAGGAGAGAACAAGGATGAACACCAACGATGTTAAGGCCCTGCTTGATACTCAGAATCTTTTACGTGCACAAATCACAAATTTTACATTCAACCTGGGATTTTCAGGGAAATTTTACCATACAGGAACTGAAGAGGAAGATGAAGGGGATGACTGTCTGTTGGGATCTGTGGATGAGTTCTGGTGGTTTCCTCACATGTGGAGTCATATGCAGCCCCACCTCTTTCATAATGAGTCATCTTTGGTGGAGCAGATGATTCTCAACAAAAAATTTGCCTTAGAGCATGGCATTCCTACTGACATGGGCTATGCAGTAGCCCCACATCATTCAGGTGTCTATCCTGTACATGTTCAGCTTTACGAGGCTTGGAAGAAAGTTTGGAATATTAAAATCACCAGCACTGAAGAATATCCACATCTGAAACCAGCTAGATATCGGAGAGGATTCATCCACAAAAACATCATGGTTCTTCCAAGACAGACCTGTGGGCTTTTCACTCACACAATTTTCTACAAAGAATATCCAGGAGGCCCTAAAGAGCTGGACAAAAGTATTCAAGGAGGTGAACTTTTCTTCACTGTTGTACTCAACCCAATCAGTATTTTCATGACTCATTTGTCCAACTATGGGAATGACCGACTGGGATTATATACATTTGTTAATCTGGCCAACTTTGTACAGACCTGGACCAACCTGCGTCTTCAGACTCTGCCTCCAGTGCAACTAGCTCACAAGTATTTTGAGCTGTTTCCTGATCAGAAAGACCCTCTCTGGCAGAATCCATGCGATGACAAACGCCACAGAGACATTTGGTCTAAAGAAAAAACCTGTGATCGCTTACCAAAATTCTTGGTAATAGGACCCCAGAAAACTGGTACCACTGCTTTGTATTTGTTCCTGGTTATGCATCCTTCCATCCTTAGTAACTCCCCCAGCCCAAAAACCTTTGAGGAGGTACAGTTCTTTAATAGAAATAACTACCACAGGGGGATTGATTGGTACATGGATTTCTTTCCAGTTCCATCGAATGTCACCACTGACTTTCTGTTTGAGAAGAGTGCAAATTACTTCCACTCTGAGGAAGCTCCTAAAAGAGCTGCTTCCCTTGTCCCCAAAGCCAAGATCATCACCATTCTCATTGACCCGTCAGACCGAGCATATTCCTGGTATCAGCATCAGCGATCACATGAAGACCCTGCAGCTCTAAAGTTCAGCTTCTATGAAGTCATCTCTGCCAGGCCCCATGCACCCTCGGAACTCAGAACCTTGCAGAAGAGATGTTTGGTTCCTGGGTGGTATGCCAGTCACATCGAGAGATGGCTTGTTTATTTCCCCCCCTTTCAGTTGCTAATTATCGATGGGCAGCAGCTAAGAACTGATCCAGCTACAGTGATGGATGAAGTTCAGAAGTTTCTAGGAGTCTCTCCTCACTATAATTACTCAGAAGCGTTAACATTTGATTCTCATAAAGGCTTCTGGTGTCAGTTACTGGAAGAAGGTAAAACAAAATGCCTTGGAAAGAGTAAAGGAAGAAAATACCCTCCAATGGATTCTGATAGCAGAGCATTTCTGTCAAGCTACTACAGAGATCACAACGTGGAACTCTCAAAGCTGCTTCACAAACTGGGGCAGCCTCTGCCATCCTGGCTGAGACAGGAGCTGCAGAAAGTGAGATAG
Synpo2 synaptopodin 2, transcript variant X2
Length: 3696 bp Location: 5697124..5893128 Strand: +>XM_004870044.1 ATGGGCACCGGAGATTTCATCTGCATTTCCATGACTGGAGGGGCCCCCTGGGGCTTCCGATTGCAAGGTGGCCGGGAGCAGAAGCAACCCTTACAAGTTGCAAAGATTCGAAGCCAGAGCAAAGCCTCAGGGTCTGGGCTGTGTGAGGGGGATGAGGTGGTGTCTATCAATGGCAACCTGTGTGCGGACCTCACCTACCCAGAAGTCATCAAACTCATGGAAAGCATCACAGACTCTCTCCAGATGCTCATCAAAAGACCATCCAGTGAAATAAATGAGGCTGTGGTCTCTGAAACTGAAAACAAAAACCTGGAGCATCTCACACAGGAGGGGTACGTGGAAAGTACCACCCTGCAGATTCGACCAGCTACAGAGACCCAGTACAGAGAATTCTCCATCTCCCTGGCCAAGAGCGGAGCTCCTGTAGCTGAGGACCAAAGAAGTGGTTCCGATTGTGCCTGGAGTATAAAAGAAGAAGGAGGCCCCAGCTATCAAACAGCTCCCCAAATGCTCGACTCTCTAGAGGGATCCTTGACAGAAGAGGTTGTCTCAAGAGAAAAGGCAGAAGCAGGGAGGCTGGGCACTGTGGTGGAGCTACAACTGTCACTTCCACAGGACAGACACAAGGACTCCAGCAGCCCTGCTGTGGGTCTCCTGAGAGCTAAAAAGCCAAAATCTCCTGACCCAGACCTGTGCTTGCAGCATGAGGGGGCTGTCCTCATAAATTCCATCCCTGCTGATGAGAAAGCAGACCTTTCTCTGAGGTCCAGCAAGACACTCCAGGTCTCCAGCAGCAGAGAGCCGAGAGTGATCCATGGGAGTGGAGTAGCAGCTGGGGGGCTGGCCCAGGTGGAAGTGATCCTTGATTGCTCTGACAGGCAGAAGACTGAAGGGTGCAGGCTGCAGGCAGAAAAGGGGTGTGTGGCTTCTCCAGGGGAAGGAGGGCAGTCCGAAGCACCTCCTTCTCTGGTCTCCTTTGCCGTCTCATCAGAAAGCACAGAGCAGGGGGAAGATCCACGCTGGGAAAAAGATCACAGCAGACCACACAAGCACAGAGCGCGGCACTCACGGCTCAGGAGGAGTGAAAGCCTATCAGAAAAACAAGTGAAGGAAGCAAAATCTAAATGCAAAAGCATTGCCCTTCTTCTCACTGATGCCCCCAACCCCAACTCCAAGGGGGTGTTGATGTTTAAGAAGCGCCGGCGGAGGGCCAGGAAGTACACCCTAGTCAGCTACGGTACTGGTGAGCTTGAACGAGAAGCAGACGAAGAGGAGGAGGAGGAAGGTGACAAAGAGGCTACATGTGAAGTGGCATTTCTCGGCACAAGTGAGTCAGAAGTGGATGAAGAGTTGCTGTCTGACATTGAAAACACCCAAGTAGTAAACTTTGACTGGGATTCTGGACTGGTGGACATTGAGAAGAAACTGAACAGAGAGGATAAGATGGAGATGTTGCCAGACACCACAGGAAAAGGAGCCCTCATGTTTGCCAAGAGGAGGGAGAGAATGGATCAGATCACAGCGCAGAGAGAAGAGGAGAGGGTTGCTGGAGCACCAGGCAGAGAGGTGGAGATTGCCCAGACAGATGGCCTGAAAACCGTGACTTCATACCAAAGGAAGGAAGAGGAATCGATGAGAATGCAGACCTCTGTGAGCAAAAGCTACATCCACATGGGCCATAGTCTTGGCCAGGTGCCCCAACAGAATGGCTTCAGTGGAGGATCCGAGACAGCAGAGGCCCAGAGGCCAATGCCTATGAACAGAACGGCCAAGCCCTTCCCTGGCTCTGCAAACCAGCAAGCAGCTCCCTTCTCGCCGACCCACAACGTCCCAAGTCCCATCACTGACTTCCCTGCTCCTCCACCTTATTCTGCGGTCACTCCTCCACCCGAAGCCTTCTCCAGAGGGGTATCAAGTCCCATTGCTGGCCCAGCACAGCCCCCTCCCTGGCCTCAGCCTGCTCCATGGTCCCAGCCAGCCTTTTATGATGCAACTGAGAGGATAGCGTCCCGGGATGAGAGGATTGCAGTGCCAGCAAAAAGAACAGGGATATTGCAAGAAGCCAAAAGGAGAAGCACCACAAAACCCATGTTCACATTTAAAGAGCCCAAAGTAAGCCCAAATCCTGAACTCTTGTCACTTCTTCAAAATTCAGAAGGCAAACGGGGCACTGGAGCTGGTGGCGATTCCGGACCTGAAGAAGACTACCTCAGCTTAGGAGCAGAGGCTTGTAACTTCATGCAAAGCTCCTCTGCTAAGCAAAAGACCCCACCTCCTGTTGCTCCAAAACCTGCAGTCAAGTCCTCATCCTCCCAACCAGTTACTCCGGTTTCTCCAGTCTGGTCTCCAGGAGCAGCTGCAACCCAACCTCCTGCCTTCCACACATCAAACCCATCACAGGGCACGGTGGTCTCCTCCATCAAAATAGCTCAGCCTTCTTGCCCTCCTGCCCGGCCTGCAAGTGTGCTGAACCTGTCTGGTCCCTTTAAAGGACCACAAGCAGCAGTAGCCAGTCAGAATTACATCCCCAAGCCAACAGCACCCATACCAACAGTCAGTGCTGCTCATGCTGGTGCAATGGGACCATCCAACGAGCTTCCCGGAATGAGTGGGAAAGGAGCCCAGCTCTTCGCTAAGAGGCAGTCGAGAATGGAGAAGTATGTGGTGGATTCCAACACTGTCCTGGCCCACACTGCCAGGGCTCAGTCTCCCACTCCATCCCTACCAGCCAGTTGGAAGTATTCCTCCAACATCCGAGCGCCTCCTCCTGTGGCCTACAATCCTATCCACTCTCCCTCCTACCCGCTGGCTGCCATCAAGTCTCAGTCATCAGGCCCACAGGCCTCCAAAGTGAGCAAGAAAAAGGGCAAGAAACCCCTCAATGCTTTGGATGTCATGAAGCACCAGCCATATCAGCTCAATGCATCCTTGTTTACTTTCCAGCCTCCAGATGCAAAGGATGGCCTTCCCCCAAAGTCATCAGTCAAGGTCAATTCAGCCCCTGCCATGAAGCAAGCTCTTCCTTCCAGGCCAGTGAATGCCACCTCACCCACGAAGGTACAGGCTTCGTCTGTGTACTCAGTACCGGCCTACACCTCTCAGTCTACCTTCTTTGCAGAGGCCACCTCCCCAGTCAGTGCATCCCCAGTGCCTGAGAGTGGGCACTCCCTGTCCCTTCCTGGAAAACCAGTCCCACCCATCATTTCTACAACATCTCCTTGGGTATACCAGCCTGCTTATAATTACTTCCGCAAACCAGCAGATGGGCTGGAGAAAGCAAACAGGAGACCAACACCTTGGGAAGCAGCAGCAAAGTCTCCTCTTGGCCTTGTGGATGATGCTTTCAAACCCAGAAACATCCAAGAGTCCATTGTGGCAAATGTGGTCTCAGCAGCTCGGAGGAAGGTGCTTCAGGGGCCCCCAGGACATTGGAATGAGAAACTGTCCTATGTTCCTCAAACACAGAAGGTCAATATGGACTTATTTGAAAGGCAAGAGTATCATGTTACCTCCGTAGCTAATAATAGCATGCCTACCAACTTTCAGTATGGTTCACAGTTGCCATATGCATATCATAGGCAGGCTTCTAGAAATGATTCTGAAATAATGTCCTTGGAGACCAGGTCTGATTACTGCCTCCCCATAGCTGATTGCAACTATAACCCACACCCCAGGGGATGGAGACACCAAACATGA
Mettl14 methyltransferase like 14
Length: 1371 bp Location: 5508886..5533395 Strand: +>XM_004870039.1 ATGGATAGTCGCTTACAGGAGATCCGGGAGCGACAGAAGTTACGGCGACAGCTCCTTGCTCAGCAGTTGGGAGCTGAAAGTGCTGACAGCATCGGAGCTGTGTTAAATAGCAAAGAGGAGCAGAGAGAAATTGCTGAAACAAGGGAAACTTGTAGGGCTTCCTATGATACTGCTGCTCCAAATGCAAAACGTAAGTGCTTGGATGAAGGAGAGCCAGATGAAGACAAAGTGGAAGAATATAAGGATGAACTAGAAATGCAACAGGAAGAAGAAAATTTGCCATATGAAGAAGAAATTTACAAAGATTCTAGTACTTTTCTTAAGGGAACACAGAGTTTAAATCCTCATAATGATTACTGCCAACATTTTGTAGACACTGGACATAGACCTCAGAATTTCATCAGGGATGTAGGTTTAGCTGACAGATTTGAAGAATACCCAAAACTGAGGGAACTCATTAGGCTAAAGGATGAATTAATAGCTAAATCTAACACTCCTCCTATGTACTTACAAGCAGATATAGAAGCTTTTGATATCAGAGAACTAACACCCAAATTTGATGTGATTCTTTTGGAACCTCCTTTAGAAGAATATTACAGAGAGACTGGCATCACTGCTAATGAAAAATGCTGGACTTGGGATGATATAATGAAGTTAGAAATCGATGAGATTGCAGCACCCCGATCATTTATTTTTCTGTGGTGTGGTTCTGGGGAGGGACTGGACCTTGGAAGAGTGTGTTTACGAAAATGGGGATACAGAAGATGTGAAGATATTTGTTGGATTAAAACCAATAAAAACAACCCTGGGAAAACTAAGACTTTAGATCCAAAGGCTGTTTTCCAGAGAACAAAGGAACATTGCCTTATGGGGATCAAAGGAACTGTGAAGCGTAGCACAGATGGGGACTTTATTCATGCTAATGTTGACATTGACTTAATTATCACAGAAGAACCTGAAATTGGAAATATAGAAAAACCTGTAGAAATTTTTCATATAATCGAGCATTTTTGTCTTGGTAGACGACGTCTTCATCTATTTGGAAGAGATAGTACAATTCGACCAGGCTGGCTTACAGTTGGACCAACGCTAACAAACAGCAACTACAATGCGGAAACATATGCATCTTATTTCAGTGCCCCAAATTCCTACCTGACTGGATGTACAGAGGAAATTGAGAGACTTCGACCCAAGTCGCCCCCACCCAAATCTAAATCTGATCGTGGCGGTGGAGCTCCCAGGGGTGGAGGGAGAGGGGGAACTTCTGCTGGCCGGGGTCGAGAAAGAAATCGATCCAACTTCCGAGGAGAAAGAGGTGGCTTTAGAGGGGGCCGTGGAGGAACACACAGAGGTGGCTTTCCACCTCGATGA
Myoz2 myozenin 2
>XM_004870046.1 ATGCTATCACATAGTACCATGGTGAAGCAGAGAAAAGAGCAAGCATCAGCCATCATGAAGGAAATCCACAGAAATGATATAGATGGCATGGATCTGGGCAAGAAAGTCAGCATCCCCCAAGACATCATGTTGGAAGAATTATCTCATCTCAGTAATCGTGGTGCCAGGTTATTCAAGATGCGTCAAAGAAGATCTGACAAATATACATTCGAAAATTTCCAGTATGAAACTAAAGCACAAATAAATCACAATCTTGCTATGCAAAATGAGAAGATGGATGGAAGAGACTTGGAAGGTAGTTCACAGCAAGCACCCTTGACTCCTCCCAACACCCCAGATCCACGAAGCCCTCCAAACCCAGAGAACATCGCACCAGGATATTCTGGACCACTGAAGGAAATTCCTCCTGAAAGATTCAACACCACAGCTGTCCCTAAGTACTATCAGTCTCCCTGGGAACAGGCCATTAGCAATGATCCGGAGCTTTTAGAGGCTTTGTACCCTAAACTTTTCAAGCCTGAAGGAAAGATGGAACTGCCTGATTATAGGAGCTTTAACAGAGTTGCCACCCCATTTGGAGGGTTTGAAAAAGCATCAAAAATGGTTAAATTCAAAGTTCCAGATTTTGAGCTGTTATTGTTAACAGATCCCAGGTTCATGATCTTTGCCAATCCTCTTTCTGGCAGACGGTCCTTCAATAGGACTCCTAAAGGATGGATATCTGAGAATATTCCTATAGTGATAACGACAAAACCTACAGAGGACACCACTGTCCCAGAAACTGAAGACCTGTGA
Sec24d SEC24 family, member D (S. cerevisiae), transcript variant X3
Length: 2973 bp Location: 5631817..5540934 Strand: ->XM_004870042.1 ATGAGTCAACAAGGTTATGTGGCTACACCGCCCTATTCTCAGTCCCAGTCTGGAATAGGCCTCTCTCCCCTTCATGGGCACTATGGGGATCCTTCCCATGCAGCTTCTCCGCCAGGTATGATGAAGCCAGTTGGGAACTTGGGGGCTACGGCCCCTGTGGTGATGATGTCTCCCAGCCCACCACCTCCTGGACCCCATCAGTTAGGCCAGAATGGAGCTCAGGCCTCAGGTCATTCTCCCCAAAGATTTCCAGGCCTTCTACCTGTCAACAGTGCAGCACCCTCTTATGCACAGTATCAGCCCTCGACACAACCATCTTATCCAAGTCCTGTGTCCACTTCATCTGTCACCCACCTGGGCAGTCAGCTCAGTGCTATGCATATCAACAGCTATGGTTCGGGCATGGCTCCCCCCAGCCAGGCACCCCCTGGCCCTCCATCAGTAGCATCCTTCCAGGGTCCTCCACGACCTCCACAGCCATCCGTTTTGCAGCCTGGATCCCAGGTTCTCCCACCACCCCCGACCACACTGAATGGCCCTGGAGTCTCACCACTGTCTCTACCAGCGCACAGGCAGGATGGGCTGCCTGGGCTACCACCTCTGAATACCCAGTACCAGCCCCCACCTCCGCCAGGCCCTGTGCTGGGTGCTGGGTATTCTCCACAGCAGCAGGCAGCCAACTATGGCCCACAGATGGCAGGTGCACAGCTCTCCTACCCAGGCAGCTTCCCTGAGTGTCCAGCACAGATGGCCGGGACACCCCCACCCCCGAAGAAGCTGGATCCTGACTCCATCCCCAGCCCTATCCAGGTGATCGAGAATGACAGAGCTACAAGAGGGGGACAAGTTTATTCCACCAACACTAGAGGCCAGGTGCCTCCCCTGGTCACTACCGACTGTGTAGTACAAGACCAAGGCAACGCTAGCCCTCGATACATCCGCTGCACTACGTACTGTTTCCCGTGCACATCAGATATGGCTAAGCAGGCTCAGATTCCACTAGCTGCTATCATCAAACCCTTTGCCACAATCCCTTCAAATGAGACTCCCCTTTACTTGGTAAATCATGGAGAGAATGGACCAGTCAGGTGTAACAGGTGCAAGGCCTACATGTGCCCATTCATGCAGTTCATCGAGGGAGGAAGGCGGTATCAGTGTGGGTTTTGCAACTGTGTGAATGACGTTCCACCATTCTACTTCCAACATCTGGACCACATTGGAAGAAGACTGGACCACTATGAGAAGCCTGAGTTATCTCTAGGATCATATGAATTCGTTGCTACTTTGGATTACTGCAGAAAAAATAAGCCTCCCAACCCACCAGCCTTTATCTTCATGATTGATGTTTCATATAGTAACATAAAGAATGGACTCGTCAAGCTCATATGTGAAGAACTGAAGACTGTGCTGGAAAAACTTCCAAAGGAAGAGCAAGAAGAGACATCTGCAATCCGAGTTGGTTTTATCACATACAACAAAGTTCTCCATTTCTTCAATGTGAAGAGTAATCTGGCCCGGCCTCAGATGATGGTGGTGACTGATGTTGGGGAAGTCTTTGTCCCATTGCTGGATGGGTTCCTTGTCAACTATCAAGAATCCCAGTCTGTGATTCACAATTTATTGGACCAGATTCCAGAGATATTTGCAGACTCTAATGAAAATGAAACTGTCTTTGCTCCTGTCATCCAAGCTGGCATGGAAGCATTAAAGGCAGCAGAATGTCCAGGGAAGCTGTACATCTTTCATTCCTCCTTGCCAACTGCCGAAGCACCAGGGAAGCTCAAAAACAGAAATGACAAAAAGCTACTTAATACAGACAAAGAGAAGATACTTTTCCAGCCCCAAACCAGTGTCTATGACTCTCTGGCCAAGGACTGTGTGGCCCACGGCTGCTCGATGACTGTCTTCCTCTTCCCCAGTCAGTACGTGGATGTGGCGTCTTTGGGTCTTGTCCCTCAGCTCACTGGAGGAACTCTTTACAAATACAACAATTTCCAGATGCATTTGGATAGCCAACAATTTTTGAATGACCTCAGAAATGACATTGAAAAGAAAATAGGCTTTGATGCTATTATGAGAGTTCGTACCAGCACAGGCTTCAGAGCCACTGATTTCTTTGGTGGAGCTTTTATGAACAATACCACTGATGTGGAAATGGCTGCTATTGATTGTGACAAGGCAGTGACTGTGGGGTTCAAGCATGATGACAAGCTGAATGAAGACAGTGGAGCCCTAATCCAGTGTGCTGTGCTTTACACAACCATTGGTGGCCAAAGAAGACTTCGAATTCACAATCTTGGCTTAAACTGCAGCTCCCAGTTAGCTGATCTTTACAACAGCTGTGAGACAGATGCCCTTATCAACTTCTTTGCCAAGTCAGCCTTTAAAGCAGTTTTACATCAGCCTTTGAAGGTCATCCGGGAAATTTTAGTTAATCAGACTGCCCATATGTTGGCTTGTTACCGAAAAAATTGCACAAATCCATCTGCTGTGAACCAGCTTATTCTCCCAGATTCCATGAAAATATTTCCAGTATACATGAATTGCTTGTTAAAAAACTGTGTGCTCCGTAGTAGACCAGAGATCTCCACAGACGAGCGGGCGTACCAGAGACAGCTGGTCATGACCATGGGTGTGGCTGACTCGCAGCTTTTCTTCTACCCACAACTCCTGCCTATACACACATTAGACCTGAAGAGTACAATGTTACCTGCTGCTGTTCGTTGCTCCGAGTCTCGACTTTCAGAGGAAGGGATATTCCTTCTGGCTAATGGTCTAAACATGTTCCTGTGGTTGGGAGTAAGTAGCCCACCAGAATTGATCCAAGGGATATTTAATGTTCCATCTTTTGCACATATCAACACAGATATGACATTGCTGCCTGAGGTGGGAAATCCACACTCTCAACAACTCAGAATGATAATGAATATTATCCAACAAAAGAAGCCATATTCAATGAAGTTCAGGTGGTAA
Tram1l1 translocation associated membrane protein 1-like 1
Length: 1110 bp Location: 4076249..4075090 Strand: ->XM_004870037.1 ATGGGGCTCCGTAAGAAGGGCTCCAAGAACCCCCCGGTCCTGAGCCACGAATTCATTCTGCAGAACCATGCGGACATGGTGTCCTGCGTGGGGATGTTCTTCGTGCTGGGGCTGATGTTCGAGGGCACCGCCGAGGTGTCCATTGTCTTCCTGACCCTGCAGCACGGCGTCCCTGCGGGAGGAGGCGCGGCCCCGGGCTCCCGCACCCTGTACCACTACGGCGTCAAGGACCTGGCCACCGTGTTCTTCTACATGCTGGTGGCCATCATCGTCCACGCCACCATCCAGGAGTATGTGCTGGATAAGATCGGCAAGAGGATGCACTTCACCAAAGCCAGGCAGAACAAGTTAAATGAGTCCGGGCAATTGAGTGTGTTCTACGTGGTGTCCTGCATCTGGGGCACCCTCATCCTCATCTCTGAGAACTGCCTGGCAGACCCAACCCTCCTGTGGAGGGCGCATCCCCATAACCTGATGACCTTCCAGATGAAGTTCTTCTACATATCACAGTTGGCTTACTGGTTTCATGGTTTTCCGGAGCTCTACTTCCAGAAAGTCAAAAAACAAGATATCCCTGGTCAACTCATCTACATCGGTCTTCACCTCTTCCACATTTCTGGAGCTTATCTTCTGTACTTGAATCACCTGGGACTCCTTCTTTTGGTGCTGCATTATTTTGTTGAATTACTTTCTCACCTGTGCGGCTTGTTTTATTTTAGTGATGAAAAGTACCAGAAAGGGGTTTCTCTATGGGCCCTTGTATTTATTTCAGGGAGACTTGTGACTTTAATTGTCTCCATAGTCACCGTTGGGTTTCATCTGGCGGGATCACAGACTTGGAATACTACGGATGCTCTTACTGGAAACGTAAATGTATTGGCCGCTAAAATCGCTGTTCTGTCTTCCAGTTGCTCCATCCAAGTGTATATAACATGGACTTTGATTACAGTCCGAGTTCAGAGGTGGGTGGAAGATTCTACTCTCCAGGCCTCATCTGTGAAGAAGAAGCGATCCACGAGTAAAGGAAAGTCTAGAAAAAGAACAGAAAATGGAATGGAGACTTCAAATAGAGCAGACTCTCCCCCAAAGAGGAAAGAGAAATCTTCATGA
Ugt8 PREDICTED: Heterocephalus glaber UDP glycosyltransferase 8 (Ugt8), transcript variant X3, misc_RNA.
Length: 1767 bp>XR_206301.1 CTCTGCGGCCGCGAGGGAAGGCGCGGTGCAACCTTGCCGCCCGCTGTGCGCCTGCGCGACAACCAACAACCGGCCCTCAGCCTCCTTCCCGCGCCCGAGCCCCGAGGGCGGCGACACCTGACCCAGTCGCTCACTCCGTCCCTCCGGTCCCAGATACGGCTCCGCGGCGGGCTGAGGCAAACACTCCCCAACTCGCGCGCCTCAGCCTGGAGCCGCGCTATGAAGTCTTACACTCTGTATTTCATGCTCCTGTGGAGTGCTGTTGGAATAGCGAGGGCTGCCAAAATCATCATCGTGCCGCCAATTATGTTTGAAAGCCATATGTACATTTTCAAGACGCTGGCCACAGCATTGCACGAGAGAGGCCACCACACAGTGTTCCTCTTCTCAGAAGGCAGAGACATCGCCCCATCTAATCATTACAGCCTCCAGCGCTACCCAGGGATTTTCAACAGCACCACCTCAGATGCTTTCATGCAGTCCAAAATGCGGAATATATTCTCTGGGAGGTTGACAGCAATCGAACTATTTGACATACTAGATCATTACACTAAGAACTGTGACATGATTGTTGGCAACCAGCCCCTAATCCAGAATCTGAAAAAAGAGAAGTTTGACCTGCTGCTGGTGGACCCAAATGACATGTGTGGATTTGTGATAGCTCATCTCCTAGGGGTTAAATATGCTGTATTTTCAACTGGCCTTTGGTATCCTGCTGAAGCAGGGGCTCCTGCTCCATTAGCCTACGTGCCAGAGTTTAATTCACTCCTCACAGACCACATGAACTTGCTGCAAAGGATGAAAAATACCGGCGTTTACCTTATTTCTAGAATAGGAGTCAGCTTTCTGGTTCTTCCCAGATATGAAAGAATAATGCAGAAGTACAACCTGGTGCCAGAGAAGTCCATGTATGACCTGGTCCATGGCTCCAGCCTGTGGATGCTGTGCACTGATGTGGCACTCGAGTTTCCAAGACCCACTCTGCCTAATGTCGTTTATGTTGGAGGGATCCTGACCAAACCAGCCAGTCCATTGCCAGAAGACCTCCAGAGGTGGGTGGATGGTGCTCATGAACACGGCTTTGTCTTGGTTTCCTTTGGAGCTGGGGTCAAGTACCTCTCAGAAGACATTGCTTACAAATTGGCAGGAGCTCTGGGGAGATTGCCTCAAAAAGTGATCTGGAGGTTTTCTGGAACCAAACCAACGAATCTAGGAAACAACACGAAACTCATAGAGTGGTTACCGCAGAATGACCTGCTTGGACACTCAAATATTAAAGCCTTTCTGAGTCATGGAGGTCTGAACAGTATTTTTGAAACTATGTATCATGGTGTACCTGTAGTTGGAATCCCACTCTTTGGAGATCATTATGATACTATGACCCGGGTGCAGGCTAAAGGCATGGGGATATTGCTTGAATGGAAGACTGTTACTGAAGGGGAGTTATATGAAGCTCTGGTGAAAGTTATCAGTGATCCCAGCTACCGCCAGAGGGCTCAGAAGCTGTCAGAAATCCACAAGGACCAGCCTGGCCACCCTGTCAACCGGACTGTCTACTGGATAGACTACATCCTTCGTCACAATGGAGCCCACCACCTGCGGGCCGCTGTGCACCGGATCTCTTTCTAACATTGTTCACGGCCACCTGTCACCTGACCACACCCATGTTGCAGCCCTGGAGTCCCCTTACCAATCAATCCAAATGCCCTCACCAGCTCAAGGGATCTCATCTCCGAGGACTCAGCATTCAAGACCCCAGGAACATTC
LOC101703978 PREDICTED: Heterocephalus glaber uncharacterized LOC101703978 (LOC101703978), misc_RNA.
Length: 495 bp>XR_206302.1 TGGGGTAGAGAATTTCATGCTCTCTTCCATCCCAATGGCAGAGATTGAACCAGGGACCAATGTATACCCAAATGGTTCTCCTTGGTTCTTTGTCTTAATTGTGATACTATGTGTATTATTTCTTTGTCACTTATACTGTTTTGTCCCTTGAGATAGACCCTTACATTGAAAATTTCTTGCTCCAATTCAGGCCTGCTCTCCACATAATACCACTTTTGAGGACAAAGATGGCAATGGGATAAAAACGGGCCATCTGAAAGAGCCAGTGAGTCCTATGGAGTCATTAAGGACAGAAGTTCTTAGTGGAAAGGAAGATGGGACCAGAAAAGAACCCTCGATACTCGTGAGAATAACGAGAGCGTTCCGGGATTCCAAGGCTGAGATCTGCGCTCCTGGGCCATCAGTTTGAGAATAACTGCATCTGTAATGAGTCACCTGCCGCAATGGGTCACAATCAGGAGTGAGATTTTGAGACCTCCCATTATCTATGTTTAC
Sec24d SEC24 family, member D (S. cerevisiae), transcript variant X2
>XM_004870041.1 ATGAGTCAACAAGGTTATGTGGCTACACCGCCCTATTCTCAGTCCCAGTCTGGAATAGGCCTCTCTCCCCTTCATGGGCACTATGGGGATCCTTCCCATGCAGCTTCTCCGCCAGGTATGATGAAGCCAGTTGGGAACTTGGGGGCTACGGCCCCTGTGGTGATGATGTCTCCCAGCCCACCACCTCCTGGACCCCATCAGTTAGGCCAGAATGGAGCTCAGGCCTCAGGTCATTCTCCCCAAAGATTTCCAGGCCTTCTACCTGTCAACAGTGCAGCACCCTCTTATGCACAGTATCAGCCCTCGACACAACCATCTTATCCAAGTCCTGTGTCCACTTCATCTGTCACCCACCTGGGCAGTCAGCTCAGTGCTATGCATATCAACAGCTATGGTTCGGGCATGGCTCCCCCCAGCCAGGCACCCCCTGGCCCTCCATCAGTAGCATCCTTCCAGGGTCCTCCACGACCTCCACAGCCATCCGTTTTGCAGCCTGGATCCCAGGTTCTCCCACCACCCCCGACCACACTGAATGGCCCTGGAGTCTCACCACTGTCTCTACCAGCGCACAGGCAGGATGGGCTGCCTGGGCTACCACCTCTGAATACCCAGTACCAGCCCCCACCTCCGCCAGGCCCTGTGCTGGGTGCTGGGTATTCTCCACAGCAGCAGGCCAACTATGGCCCACAGATGGCAGGTGCACAGCTCTCCTACCCAGGCAGCTTCCCTGAGTGTCCAGCACAGATGGCCGGGACACCCCCACCCCCGAAGAAGCTGGATCCTGACTCCATCCCCAGCCCTATCCAGGTGATCGAGAATGACAGAGCTACAAGAGGGGGACAAGTTTATTCCACCAACACTAGAGGCCAGGTGCCTCCCCTGGTCACTACCGACTGTGTAGTACAAGACCAAGGCAACGCTAGCCCTCGATACATCCGCTGCACTACGTACTGTTTCCCGTGCACATCAGATATGGCTAAGCAGGCTCAGATTCCACTAGCTGCTATCATCAAACCCTTTGCCACAATCCCTTCAAATGAGACTCCCCTTTACTTGGTAAATCATGGAGAGAATGGACCAGTCAGGTGTAACAGGTGCAAGGCCTACATGTGCCCATTCATGCAGTTCATCGAGGGAGGAAGGCGGTATCAGTGTGGGTTTTGCAACTGTGTGAATGACGTTCCACCATTCTACTTCCAACATCTGGACCACATTGGAAGAAGACTGGACCACTATGAGAAGCCTGAGTTATCTCTAGGATCATATGAATTCGTTGCTACTTTGGATTACTGCAGAAAAAATAAGCCTCCCAACCCACCAGCCTTTATCTTCATGATTGATGTTTCATATAGTAACATAAAGAATGGACTCGTCAAGCTCATATGTGAAGAACTGAAGACTGTGCTGGAAAAACTTCCAAAGGAAGAGCAAGAAGAGACATCTGCAATCCGAGTTGGTTTTATCACATACAACAAAGTTCTCCATTTCTTCAATGTGAAGAGTAATCTGGCCCGGCCTCAGATGATGGTGGTGACTGATGTTGGGGAAGTCTTTGTCCCATTGCTGGATGGGTTCCTTGTCAACTATCAAGAATCCCAGTCTGTGATTCACAATTTATTGGACCAGATTCCAGAGATATTTGCAGACTCTAATGAAAATGAAACTGTCTTTGCTCCTGTCATCCAAGCTGGCATGGAAGCATTAAAGGCAGCAGAATGTCCAGGGAAGCTGTACATCTTTCATTCCTCCTTGCCAACTGCCGAAGCACCAGGGAAGCTCAAAAACAGAAATGACAAAAAGCTACTTAATACAGACAAAGAGAAGATACTTTTCCAGCCCCAAACCAGTGTCTATGACTCTCTGGCCAAGGACTGTGTGGCCCACGGCTGCTCGATGACTGTCTTCCTCTTCCCCAGTCAGTACGTGGATGTGGCGTCTTTGGGTCTTGTCCCTCAGCTCACTGGAGGAACTCTTTACAAATACAACAATTTCCAGATGCATTTGGATAGCCAACAATTTTTGAATGACCTCAGAAATGACATTGAAAAGAAAATAGGCTTTGATGCTATTATGAGAGTTCGTACCAGCACAGGCTTCAGAGCCACTGATTTCTTTGGTGGAGCTTTTATGAACAATACCACTGATGTGGAAATGGCTGCTATTGATTGTGACAAGGCAGTGACTGTGGGGTTCAAGCATGATGACAAGCTGAATGAAGACAGTGGAGCCCTAATCCAGTGTGCTGTGCTTTACACAACCATTGGTGGCCAAAGAAGACTTCGAATTCACAATCTTGGCTTAAACTGCAGCTCCCAGTTAGCTGATCTTTACAACAGCTGTGAGACAGATGCCCTTATCAACTTCTTTGCCAAGTCAGCCTTTAAAGCAGTTTTACATCAGCCTTTGAAGGTCATCCGGGAAATTTTAGTTAATCAGACTGCCCATATGTTGGCTTGTTACCGAAAAAATTGCACAAATCCATCTGCTGTGAACCAGCTTATTCTCCCAGATTCCATGAAAATATTTCCAGTATACATGAATTGCTTGTTAAAAAACTGTGTGCTCCGTAGTAGACCAGAGATCTCCACAGACGAGCGGGCGTACCAGAGACAGCTGGTCATGACCATGGGTGTGGCTGACTCGCAGCTTTTCTTCTACCCACAACTCCTGCCTATACACACATTAGACCTGAAGAGTACAATGTTACCTGCTGCTGTTCGTTGCTCCGAGTCTCGACTTTCAGAGGAAGGGATATTCCTTCTGGCTAATGGTCTAAACATGTTCCTGTGGTTGGGAGTAAGTAGCCCACCAGAATTGATCCAAGGGATATTTAATGTTCCATCTTTTGCACATATCAACACAGATATGACATTGCTGCCTGAGGTGGGAAATCCACACTCTCAACAACTCAGAATGATAATGAATATTATCCAACAAAAGAAGCCATATTCAATGAAGCTCACAATAGTAAAGCAGAGAGAACAGCCAGAAATGGTTTTTCGACAGTTCCTGGTGGAAGACAAAGGACTTTACGGAGGATCATCTTATGTGGATTTCCTTTGTTGTGTTCACAGGAAAATATCTCAGCTGCTTAATTAA
LOC101711305 calcium/calmodulin-dependent protein kinase type II subunit delta-like
Length: 1135 bp Location: 326525..9776 Strand: ->XM_004870047.1 ATGGCCTCCACCGCCACCTGCACCAGGTTCACCGACGAGTACCAGCTTTTCGAGGAGCTCGGAAAGGGGGCATTCTCAGTGGTGAGAAGATGTATGAAAATCCCTACTGGACAAGAGTATGCTGCCAAAATTATCAACACCAAAAAGCTTTCTGCCAGGGATCATCAGAAACTGGAAAGGGAAGCTAGAATCTGCCGTCTTTTGAAACATCCCAATATTGTACGACTTCATGACAGCATATCAGAAGAGGGCTTTCATTACTTGGTGTTTGATTTAGTTACTGGAGGTGAACTGTTTGAAGACATAGTGGCCAGAGAATATTACAGTGAAGCTGATGCCAGTCATTGTATACAGCAGATTCTAGAAAGTGTAAATCATTGTCACCTAAATGGCATAGTGCACAGGGACCTGAAGCCTGAGAATTTGCTTTTAGCTAGCAAATCTAAGGGAGCAGCTGTGAAACTGGCCGACTTTGGCTTAGCCATAGAGGTTCAAGGCGACCAGCAGGCATGGTTTGGTTTTGCTGGCACTCCTGGATATCTCTCTCCAGAAGTTTTGCGTAAAGATCCTTATGGAAAGCCTGTGGATATGTGGGCATGTGGTGTCATTTTGTATATTCTACTGGTGGGGTATCCTCCCTTCTGGGACGAGGACCAACACAGACTCTACCAGCAAATCAAGGCTGGTGCATATGATTTTCCTTCACCAGAATGGGATACGGTAACTCCTGAAGCCAAAGACCTCATCAACAAAATGCTTACCATCAACCCTGCCAAACGTATCACAGCCTCAGAGGCCCTGAAACACCCATGGATCTGTCAACGTTCTACTGTTGCTTCCATGATGCACAGACAGGAGACTGTTGATTGCTTGAAGAAATTTAATGCTAGACGGAAACTAAAGGGTGCCATTTTGACAACCATGCTGGCCACAAGGAATTTTTCAGCAGCAAAGAGTTTGTTGAAGAAACCAGATGGAGTAAAGATAAACAACAAAGCCAACGTGGTAACCAGCCCCAAAGAAAATATTCCTACCCCGGCGCTGGAGCCCCAAACTACTGTAATCCACAACCCTGATGGAAACAAGGAGTCAACAGAGAGTTCAAATACAACAATTGAGGATGAAGATATAAAAG
Ugt8 UDP glycosyltransferase 8, transcript variant X2
Length: 1626 bp Location: 1182690..1255677 Strand: +>XM_004870035.1 ATGAAGTCTTACACTCTGTATTTCATGCTCCTGTGGAGTGCTGTTGGAATAGCGAGGGCTGCCAAAATCATCATCGTGCCGCCAATTATGTTTGAAAGCCATATGTACATTTTCAAGACGCTGGCCACAGCATTGCACGAGAGAGGCCACCACACAGTGTTCCTCTTCTCAGAAGGCAGAGACATCGCCCCATCTAATCATTACAGCCTCCAGCGCTACCCAGGGATTTTCAACAGCACCACCTCAGATGCTTTCATGCAGTCCAAAATGCGGAATATATTCTCTGGGAGGTTGACAGCAATCGAACTATTTGACATACTAGATCATTACACTAAGAACTGTGACATGATTGTTGGCAACCAGCCCCTAATCCAGAATCTGAAAAAAGAGAAGTTTGACCTGCTGCTGGTGGACCCAAATGACATGTGTGGATTTGTGATAGCTCATCTCCTAGGGGTTAAATATGCTGTATTTTCAACTGGCCTTTGGTATCCTGCTGAAGCAGGGGCTCCTGCTCCATTAGCCTACGTGCCAGAGTTTAATTCACTCCTCACAGACCACATGAACTTGCTGCAAAGGATGAAAAATACCGGCGTTTACCTTATTTCTAGAATAGGAGTCAGCTTTCTGGTTCTTCCCAGATATGAAAGAATAATGCAGAAGTACAACCTGGTGCCAGAGAAGTCCATGTATGACCTGGTCCATGGCTCCAGCCTGTGGATGCTGTGCACTGATGTGGCACTCGAGTTTCCAAGACCCACTCTGCCTAATGTCGTTTATGTTGGAGGGATCCTGACCAAACCAGCCAGTCCATTGCCAGAAGACCTCCAGAGGTGGGTGGATGGTGCTCATGAACACGGCTTTGTCTTGGTTTCCTTTGGAGCTGGGGTCAAGTACCTCTCAGAAGACATTGCTTACAAATTGGCAGGAGCTCTGGGGAGATTGCCTCAAAAAGTGATCTGGAGGTTTTCTGGAACCAAACCAACGAATCTAGGAAACAACACGAAACTCATAGAGTGGTTACCGCAGAATGACCTGCTTGGACACTCAAATATTAAAGCCTTTCTGAGTCATGGAGGTCTGAACAGTATTTTTGAAACTATGTATCATGGTGTACCTGTAGTTGGAATCCCACTCTTTGGAGATCATTATGATACTATGACCCGGGTGCAGGCTAAAGGCATGGGGATATTGCTTGAATGGAAGACTGTTACTGAAGGGGAGTTATATGAAGCTCTGGTGAAAGTTATCAGTGATCCCAGCTACCGCCAGAGGGCTCAGAAGCTGTCAGAAATCCACAAGGACCAGCCTGGCCACCCTGTCAACCGGACTGTCTACTGGATAGACTACATCCTTCGTCACAATGGAGCCCACCACCTGCGGGCCGCTGTGCACCGGATCTCTTTCTGTCAGTATTTCTTACTGGATATTGCTTGTGTGCTCTTACTGAGTGCTGCCTTTTTTTACTTCCTCTTGTCCTGGGTAACAAAATTTATCTACAGAAAAATCAGAAGTCTGTGGTCTAGAATTAAGCATAGCACAGTTAATGGACATTATCACAGTGGAATTCTGAATGGCAAATACAAAAGACCTGGCCATATGAAGCATGAGAAGAAAGTGAAATGA
Ndst4 N-deacetylase/N-sulfotransferase (heparan glucosaminyl) 4
>XM_004870036.1 ATGAATCTTATTGTGAAGCTTCGGAGAAGTTTCCGAACATTGATTGTGCTCTTAGCTACCTTTTGCCTGGTGAGCATTGTCATTTCTGCCTATTTTCTCTACTCTGGCTACAAACAGGAAATGACACTTATTGAAACCACTGCAGAAGCAGAATGTGCTGACATTAAAATTCTACCTTATCGGTCAATGGAGCTAAAAACATTTAAACCTATTGATACATCTAAAACTGACCCTATGGTCCTCCTCTTTGTGGAGAGCCAATATTCTCAACTTGGTCAAGATATCATAGCTATCTTGGAGTCCAGCCAATTCCAGTACCACATGGTCATTGCCCCAGGCAAGGGGGATATACCTCCTCTTACAGATAAAGGCAAAGGGAAATATACTTTAGTTATTTATGAAAATATTCTAAAGTATGTCAGCATGGACTCATGGAACCGAGAGCTTTTAGAAAAATACTGTGTGGAATACAGTGTTAGTATAATTGGTTTTCATAAAGCCAATGAGAACACCTTACCAAGTACACAGTTAAAAGGATTTCCATTATATCTCTTCAATAACCTAGCTCTAAAGGACTGTTTCATCAACCCTCAGTCTCCTTTACTGCATATTACCAAAGCCCCCAAGGTTGAGAAAGGCCCTCTTCCTGGGGCAGACTGGACTATTTTCGAATATAACCATTCAACCTACCAACCTGTGCTTTTAACTGAACTACAGACAGAAAAATCCCCTTCATTCTTGTCCAGTAAAATACTTTACTCAACAGTAATTCAGGATCTGGGCCTTCACGATGGAATTCAGCGAGTTCTCTTTGGCAACAACTTAAACTTCTGGCTGCACAAGCTCATCTTCATAGATGCCATCTCCTTCTTGTCAAGGAAGAGACTGACATTGTCCTTGGACAGGTACATCCTCGTGGACATTGATGATATATTTGTGGGGAAGGAGGGAACAAGGATGAATGCCAAAGATGTAAAGGCATTACTAGAGACTCAAAATTTACTGCGCACTCAGGTTGCAAATTTTACCTTCAACCTTGGATTTTCAGGGAAGTTTTACCATACAGGAACTGAAGAGGAAGATGAAGGTGATGACCTTTTGCTTCGGTCTGTGGATGAGTTCTGGTGGTTTCCTCACATGTGGAGCCACATGCAGCCCCACCTGTTCCACAATGAGTCATCTTTGGTGGAGCAGATGATTCTCAACAAGGAATTTGCACTGGAACACAGAATACCTGTCAACATGGGCTATGCTGTGGCCCCTCATCACTCAGGGGTCTACCCTGTTCATATTCAGCTGTATGCAGCTTGGAAGAAGGTCTGGGGTATTCAGGTCACCAGCACTGAAGAATATCCACATTTAAAACCCGCACGGTACAGAAAGGGCTTCATCCACAATAGCATCATGGTCCTCCCTCGACAGACCTGTGGGTTGTTTACCCATACTATATTCTACAAAGAGTACCCAGGAGGACCCCAGGAACTGGATAAAAGTATCAAAGGAGGTGAACTTTTCCTTACAGTCCTTCTAAACCCAATCAGCATTTTCATGACTCATTTATCTAACTATGGGAATGACCGTCTAGGCTTATACACCTTTGCGAACTTGGCCAACTTTGTGCACAGCTGGACCAACCTGCGTCTTCAGACTCTGCCACCAGTGCAACTGGCCCACAAGTACTTCGAGCTCTTTCCTGAGCAGAGAGACCCGCTTTGGCAGAATCCATGTGATGATAAACGACACAAAGACATCTGGTCCAGGGAGAAAACTTGCGACCACTTACCAAAATTCCTTGTAATTGGGCCACAAAAAACAGGGACAACTGCACTTTACTTATTTCTTCTTATGCATCCTTCCATCATCAGCAATCTTCCCAGCCCCAAAACATTTGAAGAAGTTCAATTCTTTAATGGCAACAACTATCACAAAGGAATTGACTGGTATATGAACTCTTTCCCTACTCCATCCAACATTACTAATGACTTTCTATTCGAGAAGAGTGCTAATTACTTCCATTCAGAAGATGCCCCCAAGCGAGCTGCATCTCTTGTCCCCAAAGCCAAGATCATCACCATCCTCATCAACCCTTCAGACAGAGCTTATTCATGGTATCAGCACCAGAGATCACATGAAGATCCAGCTGCCTTGAGGTTTAATTTCTACGAAGTTATTACAACAGGACATTGGGCCCCATCTGACTTAAAAACTTTGCAGAGGAGATGCCTTGTACCGGGATGGTATGCAATCCATATTGAAAGATGGTTAACCTATTTTGCTACTTCTCAGTTGCTAATTGTTGATGGACAGCAGCTGAGATCTGACCCAGCTACTGTGATGGATGAAGTCCAGAAGTTTCTGGGAGTTACACCTCATTATAATTACTCTGAAGCACTAACGTTTGATCCTCAAAAGGGCTTTTGGTGTCAACTACTGGAAGGAGGAAAGACAAAATGCCTTGGAAGAAGCAAAGGCCGAAAATACCCACCCATGGATCCTGAGTCCAGAAGTTTCCTCTCTAACTACTACCGAGACCACAATGTGGAACTGTCCAAACTGCTGCACAGACTGGGGCAGCCTCTGCCATCATGGCTGAGACAGGAGCTGCAGAAAGTGAGATAG
unclassified transcription discrepancy mRNA
>XM_004870048.1 ATGACGCTCGCTCGGTTCCTGCTGGCTCTGATGTTGGGGGCGCTCCCCGAAGTGGTCAGCGTTGATCCGATCCTCGGTTATCCGCTGTGCCTCCGCCACCGCCATTCGCCCCGTGGGGGTGCCCAGTATCCCGACTACCGGACGCCTCCGTCACCCCTGTGCCCCCGGCGGGCAGTCCCTGCCCTTCGTCCGCAAGCGCTCCAGGCTGGACACTCGTCGCGGTCCCACCCTGGGGGCTGTCCCGCCGGGCAGGCCGGGGCTAACGTGACGGACCTGGGCGCCCCGTGTCTGAGCTGGTCGGAGGTGCCACCCTTCCTGGAGCGGTCGCCCCCGGCTAGCTGGGCTCAGCTGCGAGGACAGCGACACAACTTTTGCTGGAGCCTGGACGGCAAGAGCAGACCCTGGTGCTTCTATGCGAACGCCCGTGGCCAGGTGGACTGGGGCTACTGCGCCTGCAGACTCGGTGAGTGGCGGCGGGGCAGCGGCGACACCGCGGGTTGCACGGAGCCAGCTGGGCTTGGGGAGGCGTCCCTGCCTCTTGGAGAAGGAGGGAAGGGGTGGTGGGCGAGATGCGAGTTTGTCTTGTGTAGTGTGCCTGTGGCCACCACAGAGTTACCAGTAAAAGGGGAAAACATAGCAAAACAAACCCCGTTTTTTGGAGTAGGCCATATTCCTATTTATTGGAGCAATGTCTGTTGCCGAGGAGATGAAGAAAACATACTTCTTTGTGAAAAAGACATCTGGCAGGGTGGAATGTGTCCTGTGAAGATGGTAGCTGCTGTCATATGTAGCTTTTCCCATGGCCCATCGTTGACTGTCATTCGCCTCACTGGTGGCAGCAGTGTGCAGGAAGGTCGTGTGGAGCTCTACCATGCTGGCCAGTGGGGGACCATCTGCGATGACCAGTGGGATGATGCAGATGCAGAAGTGATCTGCAGGCAGCTGGGCCTCAGTGGCATTGCCAAAGCATGGAATGAGGCACATTTTGGGGAAGGATCTGGCCCCATATTGTTGGATGAAGTGCACTGCACTGGGAATGAGCTTTCGATTGAGCAGTGTCCAAAGAGTTCCTGGGGTGAGCATGACTGTGGCCACAGAGAAGATGCTGGGGTGTCCTGTACCCCCCTTACAGATGGGGCCATCAGACTTGCAGGTGGGAAAGGCAGCCACGAGGGTCACTTGGAGGTGTACTACAGGGGACAGTGGGGCACTGTCTGTGATGATGGCTGGACTGAGCTCAATACTTACGTGGTTTGTAGACAGCTGGGATTTAAGTATGGCAAACAAGCCTCTCCAAACCATTTTGAAGAAAGCCCAGGGCCCATCTGGTTGGATGATGTGAGCTGCTCAGGAGAGGAAACCAGTTTCCTTCAGTGTTCCAGGAGACAATGGGGAAAGCATGACTGCAGCCATCAGGAAGATGTGGGCATCGCCTGCTACCCTGGCAGCAATGGGCATAAACTCCCTCTGGGTTTTCCTATAAGACTTATGGATGGAGAAAATAAAAAAGAAGGACGAGTGGAGGTTTTTATCAATGGCCAGTGGGGAACAATTTGTGATGATGGATGGACTGATAAGGATGCAGCTGTGATCTGTCGACAGCTTGGTTATAAGGGTCCTGCCAAAGCAAGAACCATGGCTTATTTTGGGGAAGGGAAAGGACCCATCCACATGGACAATGTGGAGTGTACAGGAAATGAGAGGTCTTTAGCTGACTGTATAAAGCAAGATATTGGAAGTCACAACTGTCGTCACAGTGAAGACGCAGGAGTTATCTGTGATTATTTTGGCAAGAAAGCATCAGGTAACAGTAATAAAGAGTCCCTCTCATCTGTTTGTGGTTTGAGATTATTGCACCGTCGGCAGAAGCGGATCATTGGTGGGAAAAATTCTTTAAGGGGTGGTTGGCCTTGGCAGGTTTCCCTCCGGCTGAAGTCATCCCACGGAGATGGCAGGCTCCTTTGTGGGGCAACGCTCCTGAGCAGCTGCTGGGTCCTGACTGCAGCGCACTGTTTCAAGAGGTACGGTAACAGCAGTAGGAACTATGTTATCCGGGTTGGAGACTATCATACTTTGGTGCCAGAGGAGTTTGAAGAAGAGATTGGAGTTCAACAGATTGTGATTCATGGGGCATATCGCCCAGTCAGCAATGACTATGACATTGCCCTGGTTAGATTACAAGGACCAGAGGAACAATGTGCCAGATTCAGCAGCCATGTCTTGCCAGCCTGTTTACCACTCCGCAGGGAGAAGCCACAGAAGACAGCCTCCAATTGTTACATAACAGGGTGGGGAGACACAGGACGAGCATATTCAAGAACACTACAACAAGCAGCCATCCCCTTACTGCCCAAGAGATTTTGTGAAGAACGCTATAAAGGAAGGTTTACTGGGAGAATGCTCTGTGCTGGAAACCTCTGGGAACACAGTCGAATGGACAGCTGCCAGGGAGACAGTGGAGGACCACTCATGTGTGAGCGTCCCGGAGAGACCTGGGTTGTGTACGGGGTAACTTCCTGGGGGTATGGCTGTGGAGCCAAGGATTCTCCTGGTGTTTATACCAAAGTTTCAACCTTTGTACCTTGGATAAAAAGTGTCACCGAATTATAA
Sec24d SEC24 family, member D (S. cerevisiae), transcript variant X1
Length: 3102 bp Location: 5631817..5536888 Strand: ->XM_004870040.1 ATGAGTCAACAAGGTTATGTGGCTACACCGCCCTATTCTCAGTCCCAGTCTGGAATAGGCCTCTCTCCCCTTCATGGGCACTATGGGGATCCTTCCCATGCAGCTTCTCCGCCAGGTATGATGAAGCCAGTTGGGAACTTGGGGGCTACGGCCCCTGTGGTGATGATGTCTCCCAGCCCACCACCTCCTGGACCCCATCAGTTAGGCCAGAATGGAGCTCAGGCCTCAGGTCATTCTCCCCAAAGATTTCCAGGCCTTCTACCTGTCAACAGTGCAGCACCCTCTTATGCACAGTATCAGCCCTCGACACAACCATCTTATCCAAGTCCTGTGTCCACTTCATCTGTCACCCACCTGGGCAGTCAGCTCAGTGCTATGCATATCAACAGCTATGGTTCGGGCATGGCTCCCCCCAGCCAGGCACCCCCTGGCCCTCCATCAGTAGCATCCTTCCAGGGTCCTCCACGACCTCCACAGCCATCCGTTTTGCAGCCTGGATCCCAGGTTCTCCCACCACCCCCGACCACACTGAATGGCCCTGGAGTCTCACCACTGTCTCTACCAGCGCACAGGCAGGATGGGCTGCCTGGGCTACCACCTCTGAATACCCAGTACCAGCCCCCACCTCCGCCAGGCCCTGTGCTGGGTGCTGGGTATTCTCCACAGCAGCAGGCAGCCAACTATGGCCCACAGATGGCAGGTGCACAGCTCTCCTACCCAGGCAGCTTCCCTGAGTGTCCAGCACAGATGGCCGGGACACCCCCACCCCCGAAGAAGCTGGATCCTGACTCCATCCCCAGCCCTATCCAGGTGATCGAGAATGACAGAGCTACAAGAGGGGGACAAGTTTATTCCACCAACACTAGAGGCCAGGTGCCTCCCCTGGTCACTACCGACTGTGTAGTACAAGACCAAGGCAACGCTAGCCCTCGATACATCCGCTGCACTACGTACTGTTTCCCGTGCACATCAGATATGGCTAAGCAGGCTCAGATTCCACTAGCTGCTATCATCAAACCCTTTGCCACAATCCCTTCAAATGAGACTCCCCTTTACTTGGTAAATCATGGAGAGAATGGACCAGTCAGGTGTAACAGGTGCAAGGCCTACATGTGCCCATTCATGCAGTTCATCGAGGGAGGAAGGCGGTATCAGTGTGGGTTTTGCAACTGTGTGAATGACGTTCCACCATTCTACTTCCAACATCTGGACCACATTGGAAGAAGACTGGACCACTATGAGAAGCCTGAGTTATCTCTAGGATCATATGAATTCGTTGCTACTTTGGATTACTGCAGAAAAAATAAGCCTCCCAACCCACCAGCCTTTATCTTCATGATTGATGTTTCATATAGTAACATAAAGAATGGACTCGTCAAGCTCATATGTGAAGAACTGAAGACTGTGCTGGAAAAACTTCCAAAGGAAGAGCAAGAAGAGACATCTGCAATCCGAGTTGGTTTTATCACATACAACAAAGTTCTCCATTTCTTCAATGTGAAGAGTAATCTGGCCCGGCCTCAGATGATGGTGGTGACTGATGTTGGGGAAGTCTTTGTCCCATTGCTGGATGGGTTCCTTGTCAACTATCAAGAATCCCAGTCTGTGATTCACAATTTATTGGACCAGATTCCAGAGATATTTGCAGACTCTAATGAAAATGAAACTGTCTTTGCTCCTGTCATCCAAGCTGGCATGGAAGCATTAAAGGCAGCAGAATGTCCAGGGAAGCTGTACATCTTTCATTCCTCCTTGCCAACTGCCGAAGCACCAGGGAAGCTCAAAAACAGAAATGACAAAAAGCTACTTAATACAGACAAAGAGAAGATACTTTTCCAGCCCCAAACCAGTGTCTATGACTCTCTGGCCAAGGACTGTGTGGCCCACGGCTGCTCGATGACTGTCTTCCTCTTCCCCAGTCAGTACGTGGATGTGGCGTCTTTGGGTCTTGTCCCTCAGCTCACTGGAGGAACTCTTTACAAATACAACAATTTCCAGATGCATTTGGATAGCCAACAATTTTTGAATGACCTCAGAAATGACATTGAAAAGAAAATAGGCTTTGATGCTATTATGAGAGTTCGTACCAGCACAGGCTTCAGAGCCACTGATTTCTTTGGTGGAGCTTTTATGAACAATACCACTGATGTGGAAATGGCTGCTATTGATTGTGACAAGGCAGTGACTGTGGGGTTCAAGCATGATGACAAGCTGAATGAAGACAGTGGAGCCCTAATCCAGTGTGCTGTGCTTTACACAACCATTGGTGGCCAAAGAAGACTTCGAATTCACAATCTTGGCTTAAACTGCAGCTCCCAGTTAGCTGATCTTTACAACAGCTGTGAGACAGATGCCCTTATCAACTTCTTTGCCAAGTCAGCCTTTAAAGCAGTTTTACATCAGCCTTTGAAGGTCATCCGGGAAATTTTAGTTAATCAGACTGCCCATATGTTGGCTTGTTACCGAAAAAATTGCACAAATCCATCTGCTGTGAACCAGCTTATTCTCCCAGATTCCATGAAAATATTTCCAGTATACATGAATTGCTTGTTAAAAAACTGTGTGCTCCGTAGTAGACCAGAGATCTCCACAGACGAGCGGGCGTACCAGAGACAGCTGGTCATGACCATGGGTGTGGCTGACTCGCAGCTTTTCTTCTACCCACAACTCCTGCCTATACACACATTAGACCTGAAGAGTACAATGTTACCTGCTGCTGTTCGTTGCTCCGAGTCTCGACTTTCAGAGGAAGGGATATTCCTTCTGGCTAATGGTCTAAACATGTTCCTGTGGTTGGGAGTAAGTAGCCCACCAGAATTGATCCAAGGGATATTTAATGTTCCATCTTTTGCACATATCAACACAGATATGACATTGCTGCCTGAGGTGGGAAATCCACACTCTCAACAACTCAGAATGATAATGAATATTATCCAACAAAAGAAGCCATATTCAATGAAGCTCACAATAGTAAAGCAGAGAGAACAGCCAGAAATGGTTTTTCGACAGTTCCTGGTGGAAGACAAAGGACTTTACGGAGGATCATCTTATGTGGATTTCCTTTGTTGTGTTCACAGGAAAATATCTCAGCTGCTTAATTAA
Synpo2 synaptopodin 2, transcript variant X3
Length: 3600 bp Location: 5697124..5893128 Strand: +>XM_004870045.1 ATGGGCACCGGAGATTTCATCTGCATTTCCATGACTGGAGGGGCCCCCTGGGGCTTCCGATTGCAAGGTGGCCGGGAGCAGAAGCAACCCTTACAAGTTGCAAAGATTCGAAGCCAGAGCAAAGCCTCAGGGTCTGGGCTGTGTGAGGGGGATGAGGTGGTGTCTATCAATGGCAACCTGTGTGCGGACCTCACCTACCCAGAAGTCATCAAACTCATGGAAAGCATCACAGACTCTCTCCAGATGCTCATCAAAAGACCATCCAGTGAAATAAATGAGGCTGTGGTCTCTGAAACTGAAAACAAAAACCTGGAGCATCTCACACAGGAGGGGTACGTGGAAAGTACCACCCTGCAGATTCGACCAGCTACAGAGACCCAGTACAGAGAATTCTCCATCTCCCTGGCCAAGAGCGGAGCTCCTGTAGCTGAGGACCAAAGAAGTGGTTCCGATTGTGCCTGGAGTATAAAAGAAGAAGGAGGCCCCAGCTATCAAACAGCTCCCCAAATGCTCGACTCTCTAGAGGGATCCTTGACAGAAGAGGTTGTCTCAAGAGAAAAGGCAGAAGCAGGGAGGCTGGGCACTGTGGTGGAGCTACAACTGTCACTTCCACAGGACAGACACAAGGACTCCAGCAGCCCTGCTGTGGGTCTCCTGAGAGCTAAAAAGCCAAAATCTCCTGACCCAGACCTGTGCTTGCAGCATGAGGGGGCTGTCCTCATAAATTCCATCCCTGCTGATGAGAAAGCAGACCTTTCTCTGAGGTCCAGCAAGACACTCCAGGTCTCCAGCAGCAGAGAGCCGAGAGTGATCCATGGGAGTGGAGTAGCAGCTGGGGGGCTGGCCCAGGTGGAAGTGATCCTTGATTGCTCTGACAGGCAGAAGACTGAAGGGTGCAGGCTGCAGGCAGAAAAGGGGTGTGTGGCTTCTCCAGGGGAAGGAGGGCAGTCCGAAGCACCTCCTTCTCTGGTCTCCTTTGCCGTCTCATCAGAAAGCACAGAGCAGGGGGAAGATCCACGCTGGGAAAAAGATCACAGCAGACCACACAAGCACAGAGCGCGGCACTCACGGCTCAGGAGGAGTGAAAGCCTATCAGAAAAACAAGTGAAGGAAGCAAAATCTAAATGCAAAAGCATTGCCCTTCTTCTCACTGATGCCCCCAACCCCAACTCCAAGGGGGTGTTGATGTTTAAGAAGCGCCGGCGGAGGGCCAGGAAGTACACCCTAGTCAGCTACGGTACTGGTGAGCTTGAACGAGAAGCAGACGAAGAGGAGGAGGAGGAAGGTGACAAAGAGGCTACATGTGAAGTGGCATTTCTCGGCACAAGTGAGTCAGAAGTGGATGAAGAGTTGCTGTCTGACATTGAAAACACCCAAGTAGTAAACTTTGACTGGGATTCTGGACTGGTGGACATTGAGAAGAAACTGAACAGAGAGGATAAGATGGAGATGTTGCCAGACACCACAGGAAAAGGAGCCCTCATGTTTGCCAAGAGGAGGGAGAGAATGGATCAGATCACAGCGCAGAGAGAAGAGGAGAGGGTTGCTGGAGCACCAGGCAGAGAGGTGGAGATTGCCCAGACAGATGGCCTGAAAACCGTGACTTCATACCAAAGGAAGGAAGAGGAATCGATGAGAATGCAGACCTCTGTGAGCAAAAGCTACATCCACATGGGCCATAGTCTTGGCCAGGTGCCCCAACAGAATGGCTTCAGTGGAGGATCCGAGACAGCAGAGGCCCAGAGGCCAATGCCTATGAACAGAACGGCCAAGCCCTTCCCTGGCTCTGCAAACCAGCAAGCAGCTCCCTTCTCGCCGACCCACAACGTCCCAAGTCCCATCACTGACTTCCCTGCTCCTCCACCTTATTCTGCGGTCACTCCTCCACCCGAAGCCTTCTCCAGAGGGGTATCAAGTCCCATTGCTGGCCCAGCACAGCCCCCTCCCTGGCCTCAGCCTGCTCCATGGTCCCAGCCAGCCTTTTATGATGCAACTGAGAGGATAGCGTCCCGGGATGAGAGGATTGCAGTGCCAGCAAAAAGAACAGGGATATTGCAAGAAGCCAAAAGGAGAAGCACCACAAAACCCATGTTCACATTTAAAGAGCCCAAAGTAAGCCCAAATCCTGAACTCTTGTCACTTCTTCAAAATTCAGAAGGCAAACGGGGCACTGGAGCTGGTGGCGATTCCGGACCTGAAGAAGACTACCTCAGCTTAGGAGCAGAGGCTTGTAACTTCATGCAAAGCTCCTCTGCTAAGCAAAAGACCCCACCTCCTGTTGCTCCAAAACCTGCAGTCAAGTCCTCATCCTCCCAACCAGTTACTCCGGTTTCTCCAGTCTGGTCTCCAGGAGCAGCTGCAACCCAACCTCCTGCCTTCCACACATCAAACCCATCACAGGGCACGGTGGTCTCCTCCATCAAAATAGCTCAGCCTTCTTGCCCTCCTGCCCGGCCTGCAAGTGTGCTGAACCTGTCTGGTCCCTTTAAAGGACCACAAGCAGCAGTAGCCAGTCAGAATTACATCCCCAAGCCAACAGCACCCATACCAACAGTCAGTGCTGCTCATGCTGGTGCAATGGGACCATCCAACGAGCTTCCCGGAATGAGTGGGAAAGGAGCCCAGCTCTTCGCTAAGAGGCAGTCGAGAATGGAGAAGTATGTGGTGGATTCCAACACTGTCCTGGCCCACACTGCCAGGGCTCAGTCTCCCACTCCATCCCTACCAGCCAGTTGGAAGTATTCCTCCAACATCCGAGCGCCTCCTCCTGTGGCCTACAATCCTATCCACTCTCCCTCCTACCCGCTGGCTGCCATCAAGTCTCAGTCATCAGGCCCACAGGCCTCCAAAGTGAGCAAGAAAAAGGGCAAGAAACCCCTCAATGCTTTGGATGTCATGAAGCACCAGCCATATCAGCTCAATGCATCCTTGTTTACTTTCCAGCCTCCAGATGCAAAGGATGGCCTTCCCCCAAAGTCATCAGTCAAGGTCAATTCAGCCCCTGCCATGAAGCAAGCTCTTCCTTCCAGGCCAGTGAATGCCACCTCACCCACGAAGGAGAGTGGGCACTCCCTGTCCCTTCCTGGAAAACCAGTCCCACCCATCATTTCTACAACATCTCCTTGGGTATACCAGCCTGCTTATAATTACTTCCGCAAACCAGCAGATGGGCTGGAGAAAGCAAACAGGAGACCAACACCTTGGGAAGCAGCAGCAAAGTCTCCTCTTGGCCTTGTGGATGATGCTTTCAAACCCAGAAACATCCAAGAGTCCATTGTGGCAAATGTGGTCTCAGCAGCTCGGAGGAAGGTGCTTCAGGGGCCCCCAGGACATTGGAATGAGAAACTGTCCTATGTTCCTCAAACACAGAAGGTCAATATGGACTTATTTGAAAGGCAAGAGTATCATGTTACCTCCGTAGCTAATAATAGCATGCCTACCAACTTTCAGTATGGTTCACAGTTGCCATATGCATATCATAGGCAGGCTTCTAGAAATGATTCTGAAATAATGTCCTTGGAGACCAGGTCTGATTACTGCCTCCCCATAGCTGATTGCAACTATAACCCACACCCCAGGGGATGGAGACACCAAACATGA
Synpo2 synaptopodin 2, transcript variant X1
>XM_004870043.1 ATGGGCACCGGAGATTTCATCTGCATTTCCATGACTGGAGGGGCCCCCTGGGGCTTCCGATTGCAAGGTGGCCGGGAGCAGAAGCAACCCTTACAAGTTGCAAAGATTCGAAGCCAGAGCAAAGCCTCAGGGTCTGGGCTGTGTGAGGGGGATGAGGTGGTGTCTATCAATGGCAACCTGTGTGCGGACCTCACCTACCCAGAAGTCATCAAACTCATGGAAAGCATCACAGACTCTCTCCAGATGCTCATCAAAAGACCATCCAGTGAAATAAATGAGGCTGTGGTCTCTGAAACTGAAAACAAAAACCTGGAGCATCTCACACAGGAGGGGTACGTGGAAAGTACCACCCTGCAGATTCGACCAGCTACAGAGACCCAGTACAGAGAATTCTCCATCTCCCTGGCCAAGAGCGGAGCTCCTGTAGCTGAGGACCAAAGAAGTGGTTCCGATTGTGCCTGGAGTATAAAAGAAGAAGGAGGCCCCAGCTATCAAACAGCTCCCCAAATGCTCGACTCTCTAGAGGGATCCTTGACAGAAGAGGTTGTCTCAAGAGAAAAGGCAGAAGCAGGGAGGCTGGGCACTGTGGTGGAGCTACAACTGTCACTTCCACAGGACAGACACAAGGACTCCAGCAGCCCTGCTGTGGGTCTCCTGAGAGCTAAAAAGCCAAAATCTCCTGACCCAGACCTGTGCTTGCAGCATGAGGGGGCTGTCCTCATAAATTCCATCCCTGCTGATGAGAAAGCAGACCTTTCTCTGAGGTCCAGCAAGACACTCCAGGTCTCCAGCAGCAGAGAGCCGAGAGTGATCCATGGGAGTGGAGTAGCAGCTGGGGGGCTGGCCCAGGTGGAAGTGATCCTTGATTGCTCTGACAGGCAGAAGACTGAAGGGTGCAGGCTGCAGGCAGAAAAGGGGTGTGTGGCTTCTCCAGGGGAAGGAGGGCAGTCCGAAGCACCTCCTTCTCTGGTCTCCTTTGCCGTCTCATCAGAAAGCACAGAGCAGGGGGAAGATCCACGCTGGGAAAAAGATCACAGCAGACCACACAAGCACAGAGCGCGGCACTCACGGCTCAGGAGGAGTGAAAGCCTATCAGAAAAACAAGTGAAGGAAGCAAAATCTAAATGCAAAAGCATTGCCCTTCTTCTCACTGATGCCCCCAACCCCAACTCCAAGGGGGTGTTGATGTTTAAGAAGCGCCGGCGGAGGGCCAGGAAGTACACCCTAGTCAGCTACGGTACTGGTGAGCTTGAACGAGAAGCAGACGAAGAGGAGGAGGAGGAAGGTGACAAAGAGGCTACATGTGAAGTGGCATTTCTCGGCACAAGTGAGTCAGAAGTGGATGAAGAGTTGCTGTCTGACATTGAAAACACCCAAGTAGTAAACTTTGACTGGGATTCTGGACTGGTGGACATTGAGAAGAAACTGAACAGAGAGGATAAGATGGAGATGTTGCCAGACACCACAGGAAAAGGAGCCCTCATGTTTGCCAAGAGGAGGGAGAGAATGGATCAGATCACAGCGCAGAGAGAAGAGGAGAGGGTTGCTGGAGCACCAGGCAGAGAGGTGGAGATTGCCCAGACAGATGGCCTGAAAACCGTGACTTCATACCAAAGGAAGGAAGAGGAATCGATGAGAATGCAGACCTCTGTGAGCAAAAGCTACATCCACATGGGCCATAGTCTTGGCCAGGTGCCCCAACAGAATGGCTTCAGTGGAGGATCCGAGACAGCAGAGGCCCAGAGGCCAATGCCTATGAACAGAACGGCCAAGCCCTTCCCTGGCTCTGCAAACCAGCAAGCAGCTCCCTTCTCGCCGACCCACAACGTCCCAAGTCCCATCACTGACTTCCCTGCTCCTCCACCTTATTCTGCGGTCACTCCTCCACCCGAAGCCTTCTCCAGAGGGGTATCAAGTCCCATTGCTGGCCCAGCACAGCCCCCTCCCTGGCCTCAGCCTGCTCCATGGTCCCAGCCAGCCTTTTATGATGCAACTGAGAGGATAGCGTCCCGGGATGAGAGGATTGCAGTGCCAGCAAAAAGAACAGGGATATTGCAAGAAGCCAAAAGGAGAAGCACCACAAAACCCATGTTCACATTTAAAGAGCCCAAAGTAAGCCCAAATCCTGAACTCTTGTCACTTCTTCAAAATTCAGAAGGCAAACGGGGCACTGGAGCTGGTGGCGATTCCGGACCTGAAGAAGACTACCTCAGCTTAGGAGCAGAGGCTTGTAACTTCATGCAAAGCTCCTCTGCTAAGCAAAAGACCCCACCTCCTGTTGCTCCAAAACCTGCAGTCAAGTCCTCATCCTCCCAACCAGTTACTCCGGTTTCTCCAGTCTGGTCTCCAGGAGCAGCTGCAACCCAACCTCCTGCCTTCCACACATCAAACCCATCACAGGGCACGGTGGTCTCCTCCATCAAAATAGCTCAGCCTTCTTGCCCTCCTGCCCGGCCTGCAAGTGTGCTGAACCTGTCTGGTCCCTTTAAAGGACCACAAGCAGCAGTAGCCAGTCAGAATTACATCCCCAAGCCAACAGCACCCATACCAACAGTCAGTGCTGCTCATGCTGGTGCAATGGGACCATCCAACGAGCTTCCCGGAATGAGTGGGAAAGGAGCCCAGCTCTTCGCTAAGAGGCAGTCGAGAATGGAGAAGTATGTGGTGGATTCCAACACTGTCCTGGCCCACACTGCCAGGGCTCAGTCTCCCACTCCATCCCTACCAGCCAGTTGGAAGTATTCCTCCAACATCCGAGCGCCTCCTCCTGTGGCCTACAATCCTATCCACTCTCCCTCCTACCCGCTGGCTGCCATCAAGTCTCAGTCATCAGGCCCACAGGCCTCCAAAGTGAGCAAGAAAAAGGGCAAGAAACCCCTCAATGCTTTGGATGTCATGAAGCACCAGCCATATCAGCTCAATGCATCCTTGTTTACTTTCCAGCCTCCAGATGCAAAGGATGGCCTTCCCCCAAAGTCATCAGTCAAGGTCAATTCAGCCCCTGCCATGAAGCAAGCTCTTCCTTCCAGGCCAGTGAATGCCACCTCACCCACGAAGGTACAGGCTTCGTCTGTGTACTCAGTACCGGCCTACACCTCTCAGTCTACCTTCTTTGCAGAGGCCACCTCCCCAGTCAGTGCATCCCCAGTGCCTGTGAGTGTTCCCACCTCTCCAAAGCAAGAGTCCACTGCCTCGTCCTCTTATTTTGCGGCACCAAGGCCAAAGTTCTCAGCCAAGAAAAGTGGTATCACAATCCAGGAGAGTGGGCACTCCCTGTCCCTTCCTGGAAAACCAGTCCCACCCATCATTTCTACAACATCTCCTTGGGTATACCAGCCTGCTTATAATTACTTCCGCAAACCAGCAGATGGGCTGGAGAAAGCAAACAGGAGACCAACACCTTGGGAAGCAGCAGCAAAGTCTCCTCTTGGCCTTGTGGATGATGCTTTCAAACCCAGAAACATCCAAGAGTCCATTGTGGCAAATGTGGTCTCAGCAGCTCGGAGGAAGGTGCTTCAGGGGCCCCCAGGACATTGGAATGAGAAACTGTCCTATGTTCCTCAAACACAGAAGGTCAATATGGACTTATTTGAAAGGCAAGAGTATCATGTTACCTCCGTAGCTAATAATAGCATGCCTACCAACTTTCAGTATGGTTCACAGTTGCCATATGCATATCATAGGCAGGCTTCTAGAAATGATTCTGAAATAATGTCCTTGGAGACCAGGTCTGATTACTGCCTCCCCATAGCTGATTGCAACTATAACCCACACCCCAGGGGATGGAGACACCAAACATGA