Sequence details NCBI ID: NW_004624888.1 (Scaffold)

Details from NCBI annotation

Gene Name	Heterocephalus glaber isolate NMR 29 unplaced genomic scaffold, HetGla_female_1.0 scaffold00159, whole genome shotgun sequence

Genome Location

Related Sequences

XM_004871624.1 Coding sequence

LOC101709971 chromosome unknown open reading frame, human C3orf14, transcript variant X1

Length: 381 bp    Location: 3515001..3501082   Strand: -

>XM_004871624.1
ATGTCCTCCTTGTTCACTGAAGAAATTTGCCTTTCTAAAAGACATGAAGAAATAGTATCACAAAGATTAATGTTACTTCAACAAATGGAGAATAAATTTGGAGATCAAAACACAGAAAAGGTATCTCAGCTGCAAGCAGCTGAGACTGCTTTCCAAAGGAATCTTAGCCTCTTAAAGGACATAGAAGCAGCTGAAAAGTCTCTACAGAGCAAGATTCGCCCACATCCACCGCCTGAAGTGGTTTCTCTTGAGACTCGTTACTGGGCATCAGTAGAAAAGTATATTCCCAAATGGGAACCGTTTCTCTTACGACAAGCACCATATCCTATTGGTGTTGAACATCAGAATGAAGCAGAAAACACCATTCTAAATGAGGCATAA

XM_004871625.1 Coding sequence

LOC101709971 chromosome unknown open reading frame, human C3orf14, transcript variant X2

Length: 273 bp    Location: 3515001..3502752   Strand: -

>XM_004871625.1
ATGTCCTCCTTGTTCACTGAAGAAATTTGCCTTTCTAAAAGACATGAAGAAATAGTATCACAAAGATTAATGTTACTTCAACAAATGGAGAATAAATTTGGAGATCAAAACACAGAAAAGGTATCTCAGCTGCAAGCAGCTGAGACTGCTTTCCAAAGGAATCTTAGCCTCTTAAAGGACATAGAAGCAGCTGAAAAGTCTCTACAGAGCAAGATTCGCCCACATCCACCGCCTGAAGTGGTTTCTCTTGAGGGTAGTAAGAAAAAGCAGTGA

XM_004871620.1 Coding sequence

Fezf2 FEZ family zinc finger 2, transcript variant X1

Length: 1347 bp    Location: 3462232..3467721   Strand: +

>XM_004871620.1
ATGGCCAGCTCGGCCTCCCTGGAGACCGTGGTGGCCCCGGCCTGCGCGCGCGCCGGGGCGTCGCCGGCCACCCCCAAGACGCTGGCCTTCTCCATCGAGCGCATCATGGCCAAGACGTCGGAGCCCCGCGCACCCTTTGAGCCCAGGCCTGGGGCACTGGAGGCGGACGGCAGCCAGAGCAAGAAACTGCTCAACCTGTGCTCGCCGCTCCCCTGCATGATCCCCCTGCAGCCCCTGGGCTACGAGGTGCCGTCCAAGACTCTTCTCAGCTACTCGGAGCTCTGGAAGAGCAGCCTCCGGGCGGGCGGCGGCAGCGGCGCCCCCGTGTGCGGCGCCAGCGGCTTGTGCAAAACCAACTGTGGCTTGTGCTGCAAGGCCGAGTTGGGCCTCGCTCCGTCCGCGCTGCCCGCGGGCAGGGTCATCAAGCCGCAGGTCATCAACCAGGCGATGGGGCTGCCGGCCAGCGGCCAGCTCTACTACTTCAACTACCTGGACTCCGCGGCCTACCCGCCCTCCGAGCTCCTGGGCAGTCACCTCTTCCCGTCCGGCCTCCTCAACGCGCAGGCCCCCACGGCCCTGGCCACGCACCCCAAGCTCTTCCTGCTGGACAACGCCAAGCTGGCCGGCCTGGCCGCGGACAAGTTCCCCCACCCGGCTCCCTATCCGCACAAGGAGCGCCTGCCCGCGCCGCTGGAGCAGGTGCTGAAGGAGAACTCCGGCCTGGCCGCTGAGCGCGGGGCCGCCAAGGGCCACAGCAAGCTGGCCGGGGGCTCTTCGGACGGCAAGCCCAAGAACTTCACCTGCGAGGTGTGCGGCAAGGTGTTTAACGCCCACTATAACCTCACCCGCCACATGCCGGTCCACACTGGAGCCAGACCCTTCGTGTGCAAGGTCTGCGGCAAAGGCTTCCGCCAGGCCAGCACGCTGTGCAGGCACAAAATCATCCACACCCAGGAGAAGCCGCATAAGTGCAACCAGTGCGGCAAAGCTTTCAACCGCAGCTCCACGCTCAACACCCACATCCGCATCCACGCGGGCTACAAGCCCTTCGTCTGCGAATTTTGCGGCAAAGGCTTTCACCAGAAAGGGAACTACAAGAACCACAAGCTGACCCACAGCGGCGAGAAGCAGTACAAATGCACCATCTGCAACAAGGCCTTCCACCAGGTCTACAACCTGACCTTCCACATGCACACTCACAACGACAAGAAGCCTTTCACGTGCGCCACTTGCGGCAAAGGCTTTTGCAGAAACTTTGACTTAAAGAAACACGTGCGAAAGCTGCACGACAGCGTGGGCCCCACCGCCGCCTCTGCCAAGGACCTGAGCAGGGCTTCGCAGAGCTGA

XM_004871622.1 Coding sequence

Fezf2 FEZ family zinc finger 2, transcript variant X3

Length: 1347 bp    Location: 3462232..3467721   Strand: +

>XM_004871622.1
ATGGCCAGCTCGGCCTCCCTGGAGACCGTGGTGGCCCCGGCCTGCGCGCGCGCCGGGGCGTCGCCGGCCACCCCCAAGACGCTGGCCTTCTCCATCGAGCGCATCATGGCCAAGACGTCGGAGCCCCGCGCACCCTTTGAGCCCAGGCCTGGGGCACTGGAGGCGGACGGCAGCCAGAGCAAGAAACTGCTCAACCTGTGCTCGCCGCTCCCCTGCATGATCCCCCTGCAGCCCCTGGGCTACGAGGTGCCGTCCAAGACTCTTCTCAGCTACTCGGAGCTCTGGAAGAGCAGCCTCCGGGCGGGCGGCGGCAGCGGCGCCCCCGTGTGCGGCGCCAGCGGCTTGTGCAAAACCAACTGTGGCTTGTGCTGCAAGGCCGAGTTGGGCCTCGCTCCGTCCGCGCTGCCCGCGGGCAGGGTCATCAAGCCGCAGGTCATCAACCAGGCGATGGGGCTGCCGGCCAGCGGCCAGCTCTACTACTTCAACTACCTGGACTCCGCGGCCTACCCGCCCTCCGAGCTCCTGGGCAGTCACCTCTTCCCGTCCGGCCTCCTCAACGCGCAGGCCCCCACGGCCCTGGCCACGCACCCCAAGCTCTTCCTGCTGGACAACGCCAAGCTGGCCGGCCTGGCCGCGGACAAGTTCCCCCACCCGGCTCCCTATCCGCACAAGGAGCGCCTGCCCGCGCCGCTGGAGCAGGTGCTGAAGGAGAACTCCGGCCTGGCCGCTGAGCGCGGGGCCGCCAAGGGCCACAGCAAGCTGGCCGGGGGCTCTTCGGACGGCAAGCCCAAGAACTTCACCTGCGAGGTGTGCGGCAAGGTGTTTAACGCCCACTATAACCTCACCCGCCACATGCCGGTCCACACTGGAGCCAGACCCTTCGTGTGCAAGGTCTGCGGCAAAGGCTTCCGCCAGGCCAGCACGCTGTGCAGGCACAAAATCATCCACACCCAGGAGAAGCCGCATAAGTGCAACCAGTGCGGCAAAGCTTTCAACCGCAGCTCCACGCTCAACACCCACATCCGCATCCACGCGGGCTACAAGCCCTTCGTCTGCGAATTTTGCGGCAAAGGCTTTCACCAGAAAGGGAACTACAAGAACCACAAGCTGACCCACAGCGGCGAGAAGCAGTACAAATGCACCATCTGCAACAAGGCCTTCCACCAGGTCTACAACCTGACCTTCCACATGCACACTCACAACGACAAGAAGCCTTTCACGTGCGCCACTTGCGGCAAAGGCTTTTGCAGAAACTTTGACTTAAAGAAACACGTGCGAAAGCTGCACGACAGCGTGGGCCCCACCGCCGCCTCTGCCAAGGACCTGAGCAGGGCTTCGCAGAGCTGA

XM_004871615.1 Coding sequence

Cadps Ca++-dependent secretion activator, transcript variant X2

Length: 4005 bp    Location: 2985845..3443021   Strand: +

>XM_004871615.1
ATGCTGGACCCTTCGTCCAGCGAAGAGGAGTCGGATGAGATCGTGGAGGAGGAGAGCGGCAAGGAAGCGCTGGGCTCGGCCGCGTCCGGCGCGCGCCTGTCCCCCAGCCGCACCAGCGAGGGCCCGGCCGGCGGCGCCGGGCTGGGGGGCGGCGGCAGCCGGGGAGGCGGCGGGCGGCCCTCCAGCCCCAGCCCGTCGGTGGTGAGCGAGAAGGAGAAGGAAGAGTTGGAGAGGCTGCAGAAGGAGGAGGAGGAGAGGAAGAAGCGGCTGCAGCTCTACGTGTTCGTGATGCGCTGCATTGCCTACCCCTTCAACGCCAAGCAGCCCACGGACATGGCCCGGCGGCAGCAGAAGATCAGCAAACAGCAGCTCCAGACAGTCAAGGACCGGTTTCAGGCCTTTCTCAATGGGGAAACCCAGATCGTGGCTGATGAAGCCTTCATGAATGCTGTCCAGAGTTATTATGAGGTGTTCCTAAAGAGTGACCGGGTAGCCCGCATGGTGCAGAGTGGGGGCTGCTCTGCCAACGACTCACGAGAGGTCTTCAAGAAGCACATTGAGAAGCGGGTGCGGAGCCTGCCTGAGATCGATGGCCTCAGCAAGGAGACTGTGCTGAGCTCCTGGATGGCCAAGTTTGATGCTATCTACCGTGGGGAAGAGGACCCCAGGAAGCAGCAGGCCCGGATGACAGCCAGCGCAGCCTCTGAACTGATTCTGAGCAAGGAGCAACTCTACGAGATGTTCCAGAACATTCTTGGGATCAAGAAGTTTGAACACCAGCTCCTGTACAATGCATGTCAGCTGGACAACCCAGATGAGCAGGCAGCCCAGATCCGACGGGAGCTGGATGGACGTCTCCAAATGGCAGACCAAATAGCCAGGGAACGAAAATTTCCGAAGTTTGTATCCAAAGAAATGGAAAACATGTACATTGAGGAACTGAAGTCCTCCGTCAACTTGCTCATGGCCAACTTGGAGAGCATGCCTGTGTCCAAAGGCGGCGAGTTCAAGCTCCAGAAGCTGAAACGCAGCCACAACGCTTCCATCATCGACATGGGTGAGGAGAGTGAGAACCAACTCTCCAAGTCAGATGTCGTGCTGTCTTTCTCCTTGGAGGTGGTGATCATGGAAGTCCAAGGCCTTAAATCCTTGGCTCCAAATCGCATTGTGTATTGCACAATGGAGGTGGAAGGAGGAGAGAAACTGCAAACAGACCAGGCTGAGGCTTCCAAACCAACATGGGGCACCCAGGGTGACTTCTCCACAACCCACGCACTGCCTGCTGTGAAGGTGAAGCTGTTCACAGAAAGCACAGGTGTCCTGGCCTTGGAGGACAAGGAGCTTGGGAGGGTTATTCTCCATCCCACCCCGAATAGCCCCAAGCAATCCGAATGGCACAAAATGACAGTTTCCAAAAACTGCCCAGATCAGGATCTCAAAATCAAACTTGCTGTCCGAATGGATAAACCTCAAAACATGAAGCATTCTGGGTATTTATGGGCCATCGGTAAGAATGTCTGGAAGAGATGGAAGAAAAGGTTTTTTGTATTGGTGCAGGTCAGTCAGTACACATTTGCCATGTGCAGTTACCGAGAGAAGAAAGCGGAACCTCAGGAGCTTCTACAACTGGATGGCTACACTGTGGATTACACAGACCCCCAGCCAGGTCTGGAAGGGGGCCGAGCCTTCTTCAATGCAGTCAAAGAAGGAGACACAGTGATATTCGCCAGTGATGATGAGCAGGACCGCATCCTGTGGGTCCAAGCCATGTACCGGGCCACTGGACAGTCACACAAGCCCGTGCCCCCGACCCAGGTCCAGAAGCTCAACGCCAAGGGAGGGAACGTGCCTCAGCTGGATGCCCCCATCTCACAATTCTATGCAGATAGAGCTCAAAAGCATGGCATGGATGAATTTATCTCTTCCAACCCCTGTAACTTTGACCACGCTTCCCTTTTTGAGATGGTGCAGCGCCTTACTTTGGATCACAGACTTAATGATTCCTATTCTTGCCTGGGCTGGTTTAGTCCTGGCCAGGTGTTTGTATTAGACGAATACTGTGCCCGCAACGGAGTCCGGGGATGTCACCGACATCTCTGCTACCTCAGAGATCTACTGCAACGGGCAGAGAATGGCGCCATGATCGACCCCACCCTTCTCCACTACAGCTTTGCCTTCTGCGCATCCCATGTCCACGGCAACAGGCCTGATGGAATCGGGACTGTGACTGTTGAAGAGAAGGAACGTTTTGAAGAAATCAAAGAGAGACTCCGAGTGCTGTTGGAAAATCAGATTACACATTTTAGGTATTGCTTTCCATTTGGTCGACCTGAAGGTGCATTAAAAGCTACTCTCTCTCTCTTGGAAAGGGTTTTGATGAAGGATATTGTTACTCCAGTGCCACAAGAAGAGGTAAAAACAGTCATCCGTAAATGTCTAGAGCAAGCTGCTCTAGTCAACTATTCCCGTCTCTCTGAGTATGCCAAAATTGAAGGGAAAAAGAGAGAAATGTATGAGCATCCTGTCTTCTGCTTGGCCTCCCAAGTGATGGATTTAACCATTCAAAATGTAGGCCGGTTAATCACTCCTGCCAAAAAGCTTGAAGACGCAATACGTCTTGCTGAACTAGTCATTGAAGTTCTTCAGCAGAATGAGGAGCACCACGCAGAGGCCTTTGCATGGTGGTCAGACTTAATGGTGGAGCATGCGGAGACATTCCTGTCGCTCTTTGCGGTGGACATGGATGCAGCCTTAGAGGTGCAGCCCCCTGACACGTGGGACAGTTTTCCTGTGTTTCAGCTGCTGAATGACTTTCTCCGTACCGACTATAATTTGTGCAATGGAAAATTTCACAAACACCTGCAAGACCTGTTTGCCCCACTTGTTGTTAGATATGTGGATTTGATGGAGTCCTCAATTGCACAATCCATTCACAGGGGCTTTGAGCGGGAGTCATGGGAACCAGTCAAGAGTTTAACCAGTAACCTACCCAATGTGAACCTACCCAATGTGAACCTTCCCAAAGTACCAAATCTACCAGTTAACATCCCTCTAGGCATCCCACAAATGCCTACTTTTTCGGCACCGTCATGGATGGCTGCTATATATGATGCTGATAATGGATCAGGCACCTCAGAAGACCTGTTCTGGAAACTTGACGCCCTTCAGACCTTCATTCGGGACCTGCACTGGCCTGAGGAAGAATTTGGAAAGCACCTAGAACAACGGCTGAAGTTGATGGCGAGTGACATGATTGAGTCTTGTGTCAAAAGAACCAGGATTGCATTTGAAGTTAAGCTGCAAAAAACCAGTCGATCAACAGATTTTCGAGTCCCACAGTCAATATGCACCATGTTTAATGTTATGGTTGATGCCAAAGCTCAATCAACAAAACTTTGCAGCATGGAAATGGGCCAAGAGCATCAATACCACTCAAAAATAGACGAACTAATTGAAGAAACTGTTAAAGAAATGATAACACTCTTGGTTGCAAAGTTCATTACTATCTTGGAAGGAGTACTGGCAAAATTATCCAGATACGACGAAGGGACTTTGTTTTCTTCTTTTCTGTCATTTACCGTGAAGGCTGCTTCCAAATATGTGGATGTACCTAAACCCGGAATGGATGTGGCTGATGCCTACGTGACTTTCGTCCGCCACTCTCAGGATGTCCTGCGTGATAAGGTCAATGAGGAGATGTATATAGAAAGGTTATTTGATCAATGGTACAACAGCTCCATGAATGTCATCTGTACCTGGTTGACGGACCGGATGGACCTGCAGCTTCACATATATCAACTGAAAACACTAATTAGGATGGTAAAGAAAACCTATAGAGATTTCCGATTGCAAGGGGTCCTGGATTCCACCCTCAACAGCAAGACTTATGAGACCATCCGGAACCGACTCACCGTGGAAGAAGCCACGGCCTCCGTGAGCGAGGGCGGGGGCCTGCAGGGCATCAGCATGAAGGACAGCGACGAGGAGGATGAGGAGGATGATTAG

XM_004871591.1 Coding sequence

LOC101698999 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 1-like, transcript variant X1

Length: 3678 bp    Location: 46080..684129   Strand: +

>XM_004871591.1
ATGTCGAAAGTGGCTCCGAAGAGGAGCCACTGGACTGGCCGGGTGCGCGAGTGCACCGTGAGGCGCGGACCGCAGGGCGAGCTGGGGCTGAGCGTGCTGGGGGGCGCGGAGCGCGGCGAGTTCCCGTACCTCGGGGCGGCCGAGCTGCCCGGCGGGGGCGCGGGCGAGCTGCTGCTGGAGGTGCAGGGCGTCCGCGTGTCCGGCTTGCCGCTCTACGACGTGCTGGGTGTCCTCGACAGCTGCCCAGAGGCCGTCACCTTCAAAGCCGTCAGACAAGGAGGAAAGCTCAACAAGGACCTGCGACATTTTCTCGGCCAACGGTTTCAGAAAGGGTCTCCTGATCATGAACTGCAGCAGACCATAAGGGACAACCTTTACCGCCGTGCTGTACCTTGCACGACCCGATCTCCCAGAGAAGGAGAGGTGCCTGGGGTAGATTACAGTTTCCTGACCGTGAAGGAGTTCTTGGACCTCGAGCAGAGTGGGGCTCTTCTGGAAGTTGGCACCTATGAAGGAAACTATTACGGGACACCCAAGCCTCCCAGCCAGCCAGTCAGGGGGAAGGTGATCACAACCGATGCCTTGCACAGTCTTCGGTCTGGCTCCAAGCAGTCGACCCCGAAGCGAACCAAGTCCTACAATGATATGCAAAGTGCTGGCATAGCCCATGCAGAGAATGAGGAGGAAGAGGATGTTCCTGAAATGAACAGTAGCTTCACAGCCGATTCTGGTGACCAGGACGAGCACACTCTGCAGGAAGCAGCACTCTCATCTGTGAATAGTAGCATCGCTGCTGCTCCCAACACGGACCCTTCTCAGAAGTTCCCTCAGTACCTACCTCTTTCTGCAGAGGATAATTTAGGTCCTCTACCTGAAAACTGGGAGATGGCCTATACGGAAAATGGAGAAGTCTACTTTATAGACCATAACACAAAAACAACATCTTGGTTAGACCCTCGGTGCCTGAGCAAGCAGCAGAAGCCTCTAGAAGAGTGTGAAGATGATGAAGGGGTCCACACCGAGGAGCTGGACAGTGAACTAGAGCTGCCTGCTGGTTGGGAGAAGATTGAAGACCCTGTCTACGGTGTCTACTATGTAGACCACATCAACAGGAAAACACAATACGAGAACCCAGTTCTTGAAGCCAAACGAAAGAAGCAGCTAGAGCAGCAGCAGCAGCAACAGCAGCCGCCACCACCAGAAGTGGGCCAGCTGTTGGAAGGAAAGACCAGAAACTGTCTCTTCTTTCTTGTAGAGTGGACAGAAGAGCATTCATCCCTTGTGCCTCCTGTTATTCCAACCCACCCCCCGAGCAATCCGGAGCCGACCAGAGATGCTCCACTTCAGGGCAAACCCTTTTTCACGCGAAACCCTTCCGAGCTGAAAGGCAAGTTCATTCTCACAAAGCTTCGGAAAAGCAGTCGCGGCTTCGGCTTCACGGTGGTCGGCGGGGACGAGCCTGACGAGTTCCTCCAGATCAAGAGCTTGGTCCTAGACGGTCCTGCTGCACTGGACGGCAAGATGGAGACAGGGGATGTGATTGTCAGCGTGAACGACACCTGTGTTTTGGGCCACACGCATGCCCAAGTTGTGAAAATCTTTCAGTCCATCCCCATCGGTGCCAGCGTTGCCCTTGAGCTCTGCCGAGGCTACCCACTGCCTTTTGATCCAGACGACCCCAACACGAGTTTAGTGACCTCGGTAGCCATCTTGGACAAAGAACCCATTATTGTGAATGGGCAGGAGGCCTGTGATTCTCCAGCAAGCCACGGTAGTAAAGCTGGCAAGGTCAGCGGCGTGAAGGAGGCCAGGCCAGGCAGCCCGGCAGGCGTGGCTTCCAACGGCTCCCAGGGTTATCCCAGCGACACGGTGTCTCTGGCTTCCTCCATAGCCACTCAGCCGGAGCTCATCACAGTTCACATAGTCAAAGGGCCAATGGGCTTCGGCTTCACCATCGCGGACAGTCCTGGTGGCGGCGGGCAAAGGGTGAAGCAGATCGTGGACAGTCCCAGGTGCCGAGGCCTGAAGGAGGGGGACCTCATAGTGGAAGTTAACAAGAAGAACGTGCAGGCACTCACTCACAGCCAGGTTGTGGACCTGCTGATTGAGTGTCCCAAGGGAAGTGAGGTCACATTGCTGGTGCAACGAGGAGGGCTGCCTGTTCCCAAGAAGAGCCCCAAGTCGCAACCACTGGAGAGGAAAGACAGCCAGACCGGTTCTCAGCACAGTGTCTCCAGCCACCGGAATCTGCACACGGCATCCCCAAGCCACACCACGCAGGTGCTCCCTGAGTACCCGCCCACAGAGGCCCCCGCTGCTGATCAGACCGACAACCCTGGGCAGAAAAAGCCGGATCCTTTTAAAATCTGGGCCCAGTCTAGGAGCATGTATGAGAACCGACTTCCAGATCACCAAGAACAGGACATCTTCCTCTGGAGGAAAGAGACTGGATTCGGATTTAGAATTCTAGGTGGAAATGAGCCAGGGGAGCCCATTTATATTGGTCACATCGTACCACTGGGTGCTGCTGATGCGGACGGCCGCCTGCGGTCTGGCGACGAATTAGTCTGTGTAGATGGTACACCAGTAATTGGAAAATCACACCAGCTCGTGGTCCAGCTCATGCAGCAAGCGGCCAAGCAAGGACACGTCAACCTCACAGTGCGGCGTAAAGTGGTGTTTGCTGCGCCCAAGCCCCCGGAGCCCGAGGTGCCGTCGCCCGCGTCCTCGCAGCACAGCGGCACACAGACGGCCTCGCTGGCCGAGGGCAAGCGCACGCCGCAGGGCAGCCAGAACTCGCTGAGCACCGTGAGCTCGGGCAGCGGCAGCACCAGCGGCATCGGCAGCGGCGGCGGCGGTGGCGGCGGCGGCGTGGTGAGCACCGCCCTGCAGCCCTACGACGTGGAAATCCGGCGCGGCGACAGCGAGGGCTTCGGTTTCGTCATCGTGTCCTCGGTGAGCAGGCCCGAGGCGGGCACAGCCTTCGCAGGCAATGCATGTGTGGCTATGCCTCACAAAATAGGTCGGATTATTGAGGGGAGCCCTGCTGACCACTGCGGCAAGCTCAAAGTGGGAGACCGGATCCTGGCAGTGAATGGCTGTTCCATCACCAACAAGTCCCACTCAGACATTGTCAACCTAATCAAGGAAGCAGGAAACACAGTGACGCTGCGCATCATTCCCGGGGACGAGTCCTCCAATGCCACCTTGTTGACCAACGCGGAGAAGATCGCCACCATCACCAGCACACACAGTCCTGCTCAGCAGGGGCCCCAGGAGCCCAGGAATACCACCAAACCAAAGCCAGAATCTCAGTTTGAGTTCAAAGCAGCCCAGGCCACACAGGAGCAAGATTTTTACACTGTGGAACTGGAAAGAGGAGCCAAGGGGTTTGGCTTTAGTCTTCGAGGAGGTCGAGAGTACAACATGGACCTGTATGTTCTGCGTTTGGCAGAGGACGGGCCTGCAGAAAGGTGTGGAAAGATGAGGATTGGTGATGAAATTCTAGAGATCAATGGTGAGACCACCAAAAACATGAAGCATTCTCGGGCCATAGAACTGATTAAGAGTGGTGGCCGCAGAGTTCGTCTGTTTCTCAGGCGGGGCGACGGCTCGGTCCCGGAATATGGTGGGTCAAACTTTGAAAACATTCCTTCCTTCCCTGGCATGACCCCGTGA

XM_004871626.1 Coding sequence

LOC101711318 putative uncharacterized protein C3orf49-like

Length: 627 bp    Location: 2072096..2062903   Strand: -

>XM_004871626.1
ATGGAGAAAGTGCGGGCCGCCTGGGGAAGAATCCTGCGGCTCACGCGCAGAAGGCAGCCAGCGCGCGCCCGCGGCGAGGACGCCACGAGGCCCGGCAGGGCTCGCGCGAGGAGCCCGCGCCCGCGGACCGTGCAGGAGCCCCTGGAGCCCGGGCCTCCCGCCCAGCCGAGGAGGAGGCGGCGCTCGCAGGGCGCAACTATACAGCTGGATGTTGTAGAAGCGGAGACAGAGGAGATAACCCAAGGAAATGCACTCCTCAGGGCCCGGAGAACCACCAAGCGATTATCTGTGACGTCTCTGCCGTCAGGGCTGCAAAAGGTATCATATTCATCAAAAAAGAGACCATATTTTCCGGTGCTTAAAAAAAAGAAACGTGGCATGGAAAACATCCTCCAAAAATCAGATCTGACAATAGGAAAGCTTCAAATGCAGGTGGACGACCTTATCGAAACAGTGACTGATAAATCCATGAAGCTGTTGGCTCAGAGACACGCCGAGCTTCAGCAGTGTGAGTTTCTAGGAGATGAAATTCTTCAGTCTTCTAAGCAGTTCCAGAGGATGTCCAAGAGAACCACGAGGAAGTACAAACTGAAAAATGTGTGCTTCCCCTGTACCTGCTGCTGCTGA

XM_004871609.1 Coding sequence

LOC101704569 cadherin-related family member 3-like, transcript variant X1

Length: 2577 bp    Location: 2080214..2172317   Strand: +

>XM_004871609.1
ATGCCTTTGATCCCTTTGTGTTTGGTGTTGGTTGCTGCCCCAGGTGTTCTAGCATTTCTCAATTTTGCCATCGAGAATGCCAACCCTGTCCTGGAAAATGCCTCTGAGCACACTCGGGTGGCCGTGATCCGTGTGTCACTCTCACGTCACGCTTCTCTGGTTGGAGATCCTGTTATTCTTAATGCAAACCCCGTGGTCCACCCATTCGCACTGTCTCGTGGATCTACACTTCTGTGGGATTTATTCACCACTGGAGTACCCAAGCTGGACTTTGAGATGGTGGCACTCTACTCCCTGCTAATCTACGCCAGAGACAACCAAGGGGCCACTGCATCACAGACCATCTCAATTCAGATTGCAGATGTGAATGAACCGCCCACCTTCACTGGATCCCTTGCCCAGGGAGACCAAGCTGCTGAGATTTACGTCCTAGAGGACACTGCTCTGGGTGCAGTCATTTACAGAGCAGCGGCCAAGGACCCCGAGGATGCTGCTCTGGAGTACTTCCTCTCCCCGGAGGGCTCTGGCTTCGCAATCGACAGCTCCGGAACAATTTCCACAACAGCTGCGTTCGATTTTGAGAGTGAAACTAGAAGTTTTTCACTGGTTGTTAAAGCGGTTGACCCCGGAGGACTGTTCGCCACTGGAAATCTGAAGATTTTCCTCATCAATATCAACAATAAGGATCCCACTCTGACCTGCAGTTTGTTCAACATTGAGAACGCTGTCTTGAGTGTTGCATCTGTAAACTCAACTCTGCACAACAAAGTGGACCTCACGCTGGATGAAGAAATCCCAGTCGGGAAAACGATTGGAACGTGCCAGGCAAATGATGAAGATTGCTTGGGAGATTTAACCTTTGAACTTGATCCTGGGAATGTTTACTTTGCAGTCGATAAAGAGCGTGGGACCGTGGTCACTGCCACTCGCCTGGACGCAGAGAGAGCTGGGTTTGCGAGGGCCCAGTCCTTCTCCATTAAGGCTTGTGACCGTGACCAGCGGTGTGCAGCAGTTCCCGTGACCGCCTACATTCATGGCCTTAATGACAACTCGCCTTTCTGCGACCAGTATGTGATTAGGTACACAGGCAGAGAGATGATTGTAGAAGACACAGTAGTGGCAAAGCTCTCGTGTCGTGACCTTGACGACCCTCCTGATACAATCCACTATGTTCCAAGCTTGGGACCAGTTGGTTCTGGACAAATCTTTGAACAAGCACCAAATGCTGAAAACGTCATCCGGGTCACCAAAGAGCTGGATTACGAAGACCCAGAGGTGGTTGCTGTGGGCCATACTTATGAAATGACGATTTCAGTGTTTGATGACCTTCATCCCTCCCATACAGTTACTGTGACAGTCATTGTGGAGCTCGCTCCCGCCAACGACTTCAGCCCTGTGTTTAAAGCTGCACACTATTCATTCTCGGTTCCAGAGACATCAGGAGCTTTCTACAAAGTTGGAAGAGTGACTGCCACTGATGAAGACCACCCACCAAACTGTCTGACCTACAAAATTACCAATGGAGACATCGAGGCTGTACAAAAATTCTGGATTCATCCTCACTCTGGGATGATCGAACTCACCACACAGCCAGACTATGAGTCTGTGAAGCAATACAACCTCACCGTGGAAGCTGTGGACTGCGACAGAGTCCATCCACGCACAGCAGTGGCCACAGTCACGGTTGACATTGAGGATGAGAATGACGAAGCACCTGTCTGTGTGCCCTCTCTTTTCAAGGGAGTCATTTCCAACAATGTTGCTGCTGGGACAAACGTCAATGGCTTCAAACTAAGCTGTCACGACAGAGATTCGCAGGATTTCGAAATGCGCTTTGAGATAGCTTCTGGAAATGAGAACCATCATTTTGGATTTGACCCAACTCAAGGTTCAAATACTCCAAAATTAATTGTGAAGAATCCTTTTAACTTTGAACCTGGAGCTGAACGGCTGCGGCAGTACCACCTCGTGGTGCATATAGTGGATGACAATCTCAAACACGGCAGGACCACCAAGCCCAGGACGGGCACTGCTGCTATAGATATTTACGTGATCAGAGCTCCTACGCCATCCCCTCCAACCAGCTCTGAACAGAGAAAAGGCCTGACCATCGTGTACACAGCAGTCAACACGTATAGATCCGGTGCCTGGTACATCCCTTTCACCTTCACGCTGTTGGCTGTTTTCTGTGTTGGGCTCGTTTCCTGGCTGTGCTTCCTGCTTTGGAGGTATGGAAACATCATGGAGTGCTGTCAGGTCATGGCCAAGAGCGTCTCCAAGCCCATGCCCAGAGAAATGAAATATATTGCAGGAGGTAGAGATCAAAAAGAAAAAGCTGTCACAGGAAGCCGCAGTAAAAAATTCGAAGTCTTAACAGAAACCATTGTGTACGAGACCGTGTTTGATGGAGAAGCCATTGACCCAGTGTCTGGCAATGTGTACGAATACAACAGCAGAACGGGAGCCAGAAAGTGGAAGAAGCCCCCCAGGCCCCAGGAGGAGGCCCTGGCAAGCACAGGCTCCCTCCCTGAGGTGCACCCTCCCAAAGACTGGGCCTCCTTCAAGATTCCTGTGTGA

XM_004871611.1 Coding sequence

Sntn sentan, cilia apical structure protein

Length: 345 bp    Location: 2289648..2277232   Strand: -

>XM_004871611.1
ATGCCCAAAAGCATTTCAATATCCAAGCAGCTGGCTTCAATAAAAGCTTTGAAGAAGAGCTCAGATCTGGAAAAAGCCATTGCCACTGTTGCTCTGATTTTCAGAAACTCTTCTGACCCTGATGGTAAACTTGGAAAAGCTGCTACAAAAAGTCTGCTGCAGTCCCAATTTGGGAATTTCACCAAGGGACAAGAATCCAAGTCAACCTACCAAGAGATCCTTTCTGAACTTGATGAGCACACAGAAAATAAGCTTGATTTTGAGGACTTCATGATCTTGCTACTAAGCATCACTATCACGTCAGATCTACTACAAAATATATGGAGCACAAAAAGTATGAATTGA

XM_004871618.1 Coding sequence

Cadps Ca++-dependent secretion activator, transcript variant X5

Length: 3804 bp    Location: 2985844..3443021   Strand: +

>XM_004871618.1
ATGCTGGACCCTTCGTCCAGCGAAGAGGAGTCGGATGAGATCGTGGAGGAGGAGAGCGGCAAGGAAGCGCTGGGCTCGGCCGCGTCCGGCGCGCGCCTGTCCCCCAGCCGCACCAGCGAGGGCCCGGCCGGCGGCGCCGGGCTGGGGGGCGGCGGCAGCCGGGGAGGCGGCGGGCGGCCCTCCAGCCCCAGCCCGTCGGTGGTGAGCGAGAAGGAGAAGGAAGAGTTGGAGAGGCTGCAGAAGGAGGAGGAGGAGAGGAAGAAGCGGCTGCAGCTCTACGTGTTCGTGATGCGCTGCATTGCCTACCCCTTCAACGCCAAGCAGCCCACGGACATGGCCCGGCGGCAGCAGAAGATCAGCAAACAGCAGCTCCAGACAGTCAAGGACCGGTTTCAGGCCTTTCTCAATGGGGAAACCCAGATCGTGGCTGATGAAGCCTTCATGAATGCTGTCCAGAGTTATTATGAGGTGTTCCTAAAGAGTGACCGGGTAGCCCGCATGGTGCAGAGTGGGGGCTGCTCTGCCAACGACTCACGAGAGGTCTTCAAGAAGCACATTGAGAAGCGGGTGCGGAGCCTGCCTGAGATCGATGGCCTCAGCAAGGAGACTGTGCTGAGCTCCTGGATGGCCAAGTTTGATGCTATCTACCGTGGGGAAGAGGACCCCAGGAAGCAGCAGGCCCGGATGACAGCCAGCGCAGCCTCTGAACTGATTCTGAGCAAGGAGCAACTCTACGAGATGTTCCAGAACATTCTTGGGATCAAGAAGTTTGAACACCAGCTCCTGTACAATGCATGTCAGCTGGACAACCCAGATGAGCAGGCAGCCCAGATCCGACGGGAGCTGGATGGACGTCTCCAAATGGCAGACCAAATAGCCAGGGAACGAAAATTTCCGAAGTTTGTATCCAAAGAAATGGAAAACATGTACATTGAGGAACTGAAGTCCTCCGTCAACTTGCTCATGGCCAACTTGGAGAGCATGCCTGTGTCCAAAGGCGGCGAGTTCAAGCTCCAGAAGCTGAAACGCAGCCACAACGCTTCCATCATCGACATGGGTGAGGAGAGTGAGAACCAACTCTCCAAGTCAGATGTCGTGCTGTCTTTCTCCTTGGAGGTGGTGATCATGGAAGTCCAAGGCCTTAAATCCTTGGCTCCAAATCGCATTGTGTATTGCACAATGGAGGTGGAAGGAGGAGAGAAACTGCAAACAGACCAGGCTGAGGCTTCCAAACCAACATGGGGCACCCAGGGTGACTTCTCCACAACCCACGCACTGCCTGCTGTGAAGGTGAAGCTGTTCACAGAAAGCACAGGTGTCCTGGCCTTGGAGGACAAGGAGCTTGGGAGGGTTATTCTCCATCCCACCCCGAATAGCCCCAAGCAATCCGAATGGCACAAAATGACAGTTTCCAAAAACTGCCCAGATCAGGATCTCAAAATCAAACTTGCTGTCCGAATGGATAAACCTCAAAACATGAAGCATTCTGGGTATTTATGGGCCATCGGTAAGAATGTCTGGAAGAGATGGAAGAAAAGGTTTTTTGTATTGGTGCAGGTCAGTCAGTACACATTTGCCATGTGCAGTTACCGAGAGAAGAAAGCGGAACCTCAGGAGCTTCTACAACTGGATGGCTACACTGTGGATTACACAGACCCCCAGCCAGGTCTGGAAGGGGGCCGAGCCTTCTTCAATGCAGTCAAAGAAGGAGACACAGTGATATTCGCCAGTGATGATGAGCAGGACCGCATCCTGTGGGTCCAAGCCATGTACCGGGCCACTGGACAGTCACACAAGCCCGTGCCCCCGACCCAGGTCCAGAAGCTCAACGCCAAGGGAGGGAACGTGCCTCAGCTGGATGCCCCCATCTCACAATTCTATGCAGATAGAGCTCAAAAGCATGGCATGGATGAATTTATCTCTTCCAACCCCTGTAACTTTGACCACGCTTCCCTTTTTGAGATGGTGCAGCGCCTTACTTTGGATCACAGACTTAATGATTCCTATTCTTGCCTGGGCTGGTTTAGTCCTGGCCAGGTGTTTGTATTAGACGAATACTGTGCCCGCAACGGAGTCCGGGGATGTCACCGACATCTCTGCTACCTCAGAGATCTACTGCAACGGGCAGAGAATGGCGCCATGATCGACCCCACCCTTCTCCACTACAGCTTTGCCTTCTGCGCATCCCATGTCCACGGCAACAGGCCTGATGGAATCGGGACTGTGACTGTTGAAGAGAAGGAACGTTTTGAAGAAATCAAAGAGAGACTCCGAGTGCTGTTGGAAAATCAGATTACACATTTTAGGTATTGCTTTCCATTTGGTCGACCTGAAGGTGCATTAAAAGCTACTCTCTCTCTCTTGGAAAGGGTTTTGATGAAGGATATTGTTACTCCAGTGCCACAAGAAGAGGTAAAAACAGTCATCCGTAAATGTCTAGAGCAAGCTGCTCTAGTCAACTATTCCCGTCTCTCTGAGTATGCCAAAATTGAAGAAAATGTAGGCCGGTTAATCACTCCTGCCAAAAAGCTTGAAGACGCAATACGTCTTGCTGAACTAGTCATTGAAGTTCTTCAGCAGAATGAGGAGCACCACGCAGAGGCCTTTGCATGGTGGTCAGACTTAATGGTGGAGCATGCGGAGACATTCCTGTCGCTCTTTGCGGTGGACATGGATGCAGCCTTAGAGGTGCAGCCCCCTGACACGTGGGACAGTTTTCCTGTGTTTCAGCTGCTGAATGACTTTCTCCGTACCGACTATAATTTGTGCAATGGAAAATTTCACAAACACCTGCAAGACCTGTTTGCCCCACTTGTTGTTAGATATGTGGATTTGATGGAGTCCTCAATTGCACAATCCATTCACAGGGGCTTTGAGCGGGAGTCATGGGAACCAGTCAATAATGGATCAGGCACCTCAGAAGACCTGTTCTGGAAACTTGACGCCCTTCAGACCTTCATTCGGGACCTGCACTGGCCTGAGGAAGAATTTGGAAAGCACCTAGAACAACGGCTGAAGTTGATGGCGAGTGACATGATTGAGTCTTGTGTCAAAAGAACCAGGATTGCATTTGAAGTTAAGCTGCAAAAAACCAGTCGATCAACAGATTTTCGAGTCCCACAGTCAATATGCACCATGTTTAATGTTATGGTTGATGCCAAAGCTCAATCAACAAAACTTTGCAGCATGGAAATGGGCCAAGAGTTTGCTAAAGAGTGGCATCAATACCACTCAAAAATAGACGAACTAATTGAAGAAACTGTTAAAGAAATGATAACACTCTTGGTTGCAAAGTTCATTACTATCTTGGAAGGAGTACTGGCAAAATTATCCAGATACGACGAAGGGACTTTGTTTTCTTCTTTTCTGTCATTTACCGTGAAGGCTGCTTCCAAATATGTGGATGTACCTAAACCCGGAATGGATGTGGCTGATGCCTACGTGACTTTCGTCCGCCACTCTCAGGATGTCCTGCGTGATAAGGTCAATGAGGAGATGTATATAGAAAGGTTATTTGATCAATGGTACAACAGCTCCATGAATGTCATCTGTACCTGGTTGACGGACCGGATGGACCTGCAGCTTCACATATATCAACTGAAAACACTAATTAGGATGGTAAAGAAAACCTATAGAGATTTCCGATTGCAAGGGGTCCTGGATTCCACCCTCAACAGCAAGACTTATGAGACCATCCGGAACCGACTCACCGTGGAAGAAGCCACGGCCTCCGTGAGCGAGGGCGGGGGCCTGCAGGGCATCAGCATGAAGGACAGCGACGAGGAGGATGAGGAGGATGATTAG

XM_004871619.1 Coding sequence

Cadps Ca++-dependent secretion activator, transcript variant X6

Length: 3789 bp    Location: 2985844..3443021   Strand: +

>XM_004871619.1
ATGCTGGACCCTTCGTCCAGCGAAGAGGAGTCGGATGAGATCGTGGAGGAGGAGAGCGGCAAGGAAGCGCTGGGCTCGGCCGCGTCCGGCGCGCGCCTGTCCCCCAGCCGCACCAGCGAGGGCCCGGCCGGCGGCCCAGGCAGCCGGGGAGGCGGCGGGCGGCCCTCCAGCCCCAGCCCGTCGGTGGTGAGCGAGAAGGAGAAGGAAGAGTTGGAGAGGCTGCAGAAGGAGGAGGAGGAGAGGAAGAAGCGGCTGCAGCTCTACGTGTTCGTGATGCGCTGCATTGCCTACCCCTTCAACGCCAAGCAGCCCACGGACATGGCCCGGCGGCAGCAGAAGATCAGCAAACAGCAGCTCCAGACAGTCAAGGACCGGTTTCAGGCCTTTCTCAATGGGGAAACCCAGATCGTGGCTGATGAAGCCTTCATGAATGCTGTCCAGAGTTATTATGAGGTGTTCCTAAAGAGTGACCGGGTAGCCCGCATGGTGCAGAGTGGGGGCTGCTCTGCCAACGACTCACGAGAGGTCTTCAAGAAGCACATTGAGAAGCGGGTGCGGAGCCTGCCTGAGATCGATGGCCTCAGCAAGGAGACTGTGCTGAGCTCCTGGATGGCCAAGTTTGATGCTATCTACCGTGGGGAAGAGGACCCCAGGAAGCAGCAGGCCCGGATGACAGCCAGCGCAGCCTCTGAACTGATTCTGAGCAAGGAGCAACTCTACGAGATGTTCCAGAACATTCTTGGGATCAAGAAGTTTGAACACCAGCTCCTGTACAATGCATGTCAGCTGGACAACCCAGATGAGCAGGCAGCCCAGATCCGACGGGAGCTGGATGGACGTCTCCAAATGGCAGACCAAATAGCCAGGGAACGAAAATTTCCGAAGTTTGTATCCAAAGAAATGGAAAACATGTACATTGAGGAACTGAAGTCCTCCGTCAACTTGCTCATGGCCAACTTGGAGAGCATGCCTGTGTCCAAAGGCGGCGAGTTCAAGCTCCAGAAGCTGAAACGCAGCCACAACGCTTCCATCATCGACATGGGTGAGGAGAGTGAGAACCAACTCTCCAAGTCAGATGTCGTGCTGTCTTTCTCCTTGGAGGTGGTGATCATGGAAGTCCAAGGCCTTAAATCCTTGGCTCCAAATCGCATTGTGTATTGCACAATGGAGGTGGAAGGAGGAGAGAAACTGCAAACAGACCAGGCTGAGGCTTCCAAACCAACATGGGGCACCCAGGGTGACTTCTCCACAACCCACGCACTGCCTGCTGTGAAGGTGAAGCTGTTCACAGAAAGCACAGGTGTCCTGGCCTTGGAGGACAAGGAGCTTGGGAGGGTTATTCTCCATCCCACCCCGAATAGCCCCAAGCAATCCGAATGGCACAAAATGACAGTTTCCAAAAACTGCCCAGATCAGGATCTCAAAATCAAACTTGCTGTCCGAATGGATAAACCTCAAAACATGAAGCATTCTGGGTATTTATGGGCCATCGGTAAGAATGTCTGGAAGAGATGGAAGAAAAGGTTTTTTGTATTGGTGCAGGTCAGTCAGTACACATTTGCCATGTGCAGTTACCGAGAGAAGAAAGCGGAACCTCAGGAGCTTCTACAACTGGATGGCTACACTGTGGATTACACAGACCCCCAGCCAGGTCTGGAAGGGGGCCGAGCCTTCTTCAATGCAGTCAAAGAAGGAGACACAGTGATATTCGCCAGTGATGATGAGCAGGACCGCATCCTGTGGGTCCAAGCCATGTACCGGGCCACTGGACAGTCACACAAGCCCGTGCCCCCGACCCAGGTCCAGAAGCTCAACGCCAAGGGAGGGAACGTGCCTCAGCTGGATGCCCCCATCTCACAATTCTATGCAGATAGAGCTCAAAAGCATGGCATGGATGAATTTATCTCTTCCAACCCCTGTAACTTTGACCACGCTTCCCTTTTTGAGATGGTGCAGCGCCTTACTTTGGATCACAGACTTAATGATTCCTATTCTTGCCTGGGCTGGTTTAGTCCTGGCCAGGTGTTTGTATTAGACGAATACTGTGCCCGCAACGGAGTCCGGGGATGTCACCGACATCTCTGCTACCTCAGAGATCTACTGCAACGGGCAGAGAATGGCGCCATGATCGACCCCACCCTTCTCCACTACAGCTTTGCCTTCTGCGCATCCCATGTCCACGGCAACAGGCCTGATGGAATCGGGACTGTGACTGTTGAAGAGAAGGAACGTTTTGAAGAAATCAAAGAGAGACTCCGAGTGCTGTTGGAAAATCAGATTACACATTTTAGGTATTGCTTTCCATTTGGTCGACCTGAAGGTGCATTAAAAGCTACTCTCTCTCTCTTGGAAAGGGTTTTGATGAAGGATATTGTTACTCCAGTGCCACAAGAAGAGGTAAAAACAGTCATCCGTAAATGTCTAGAGCAAGCTGCTCTAGTCAACTATTCCCGTCTCTCTGAGTATGCCAAAATTGAAGAAAATGTAGGCCGGTTAATCACTCCTGCCAAAAAGCTTGAAGACGCAATACGTCTTGCTGAACTAGTCATTGAAGTTCTTCAGCAGAATGAGGAGCACCACGCAGAGGCCTTTGCATGGTGGTCAGACTTAATGGTGGAGCATGCGGAGACATTCCTGTCGCTCTTTGCGGTGGACATGGATGCAGCCTTAGAGGTGCAGCCCCCTGACACGTGGGACAGTTTTCCTGTGTTTCAGCTGCTGAATGACTTTCTCCGTACCGACTATAATTTGTGCAATGGAAAATTTCACAAACACCTGCAAGACCTGTTTGCCCCACTTGTTGTTAGATATGTGGATTTGATGGAGTCCTCAATTGCACAATCCATTCACAGGGGCTTTGAGCGGGAGTCATGGGAACCAGTCAATAATGGATCAGGCACCTCAGAAGACCTGTTCTGGAAACTTGACGCCCTTCAGACCTTCATTCGGGACCTGCACTGGCCTGAGGAAGAATTTGGAAAGCACCTAGAACAACGGCTGAAGTTGATGGCGAGTGACATGATTGAGTCTTGTGTCAAAAGAACCAGGATTGCATTTGAAGTTAAGCTGCAAAAAACCAGTCGATCAACAGATTTTCGAGTCCCACAGTCAATATGCACCATGTTTAATGTTATGGTTGATGCCAAAGCTCAATCAACAAAACTTTGCAGCATGGAAATGGGCCAAGAGTTTGCTAAAGAGTGGCATCAATACCACTCAAAAATAGACGAACTAATTGAAGAAACTGTTAAAGAAATGATAACACTCTTGGTTGCAAAGTTCATTACTATCTTGGAAGGAGTACTGGCAAAATTATCCAGATACGACGAAGGGACTTTGTTTTCTTCTTTTCTGTCATTTACCGTGAAGGCTGCTTCCAAATATGTGGATGTACCTAAACCCGGAATGGATGTGGCTGATGCCTACGTGACTTTCGTCCGCCACTCTCAGGATGTCCTGCGTGATAAGGTCAATGAGGAGATGTATATAGAAAGGTTATTTGATCAATGGTACAACAGCTCCATGAATGTCATCTGTACCTGGTTGACGGACCGGATGGACCTGCAGCTTCACATATATCAACTGAAAACACTAATTAGGATGGTAAAGAAAACCTATAGAGATTTCCGATTGCAAGGGGTCCTGGATTCCACCCTCAACAGCAAGACTTATGAGACCATCCGGAACCGACTCACCGTGGAAGAAGCCACGGCCTCCGTGAGCGAGGGCGGGGGCCTGCAGGGCATCAGCATGAAGGACAGCGACGAGGAGGATGAGGAGGATGATTAG

XM_004871616.1 Coding sequence

Cadps Ca++-dependent secretion activator, transcript variant X3

Length: 3969 bp    Location: 2985845..3443021   Strand: +

>XM_004871616.1
ATGCTGGACCCTTCGTCCAGCGAAGAGGAGTCGGATGAGATCGTGGAGGAGGAGAGCGGCAAGGAAGCGCTGGGCTCGGCCGCGTCCGGCGCGCGCCTGTCCCCCAGCCGCACCAGCGAGGGCCCGGCCGGCGGCGCCGGGCTGGGGGGCGGCGGCAGCCGGGGAGGCGGCGGGCGGCCCTCCAGCCCCAGCCCGTCGGTGGTGAGCGAGAAGGAGAAGGAAGAGTTGGAGAGGCTGCAGAAGGAGGAGGAGGAGAGGAAGAAGCGGCTGCAGCTCTACGTGTTCGTGATGCGCTGCATTGCCTACCCCTTCAACGCCAAGCAGCCCACGGACATGGCCCGGCGGCAGCAGAAGATCAGCAAACAGCAGCTCCAGACAGTCAAGGACCGGTTTCAGGCCTTTCTCAATGGGGAAACCCAGATCGTGGCTGATGAAGCCTTCATGAATGCTGTCCAGAGTTATTATGAGGTGTTCCTAAAGAGTGACCGGGTAGCCCGCATGGTGCAGAGTGGGGGCTGCTCTGCCAACGACTCACGAGAGGTCTTCAAGAAGCACATTGAGAAGCGGGTGCGGAGCCTGCCTGAGATCGATGGCCTCAGCAAGGAGACTGTGCTGAGCTCCTGGATGGCCAAGTTTGATGCTATCTACCGTGGGGAAGAGGACCCCAGGAAGCAGCAGGCCCGGATGACAGCCAGCGCAGCCTCTGAACTGATTCTGAGCAAGGAGCAACTCTACGAGATGTTCCAGAACATTCTTGGGATCAAGAAGTTTGAACACCAGCTCCTGTACAATGCATGTCAGCTGGACAACCCAGATGAGCAGGCAGCCCAGATCCGACGGGAGCTGGATGGACGTCTCCAAATGGCAGACCAAATAGCCAGGGAACGAAAATTTCCGAAGTTTGTATCCAAAGAAATGGAAAACATGTACATTGAGGAACTGAAGTCCTCCGTCAACTTGCTCATGGCCAACTTGGAGAGCATGCCTGTGTCCAAAGGCGGCGAGTTCAAGCTCCAGAAGCTGAAACGCAGCCACAACGCTTCCATCATCGACATGGGTGAGGAGAGTGAGAACCAACTCTCCAAGTCAGATGTCGTGCTGTCTTTCTCCTTGGAGGTGGTGATCATGGAAGTCCAAGGCCTTAAATCCTTGGCTCCAAATCGCATTGTGTATTGCACAATGGAGGTGGAAGGAGGAGAGAAACTGCAAACAGACCAGGCTGAGGCTTCCAAACCAACATGGGGCACCCAGGGTGACTTCTCCACAACCCACGCACTGCCTGCTGTGAAGGTGAAGCTGTTCACAGAAAGCACAGGTGTCCTGGCCTTGGAGGACAAGGAGCTTGGGAGGGTTATTCTCCATCCCACCCCGAATAGCCCCAAGCAATCCGAATGGCACAAAATGACAGTTTCCAAAAACTGCCCAGATCAGGATCTCAAAATCAAACTTGCTGTCCGAATGGATAAACCTCAAAACATGAAGCATTCTGGGTATTTATGGGCCATCGGTAAGAATGTCTGGAAGAGATGGAAGAAAAGGTTTTTTGTATTGGTGCAGGTCAGTCAGTACACATTTGCCATGTGCAGTTACCGAGAGAAGAAAGCGGAACCTCAGGAGCTTCTACAACTGGATGGCTACACTGTGGATTACACAGACCCCCAGCCAGGTCTGGAAGGGGGCCGAGCCTTCTTCAATGCAGTCAAAGAAGGAGACACAGTGATATTCGCCAGTGATGATGAGCAGGACCGCATCCTGTGGGTCCAAGCCATGTACCGGGCCACTGGACAGTCACACAAGCCCGTGCCCCCGACCCAGGTCCAGAAGCTCAACGCCAAGGGAGGGAACGTGCCTCAGCTGGATGCCCCCATCTCACAATTCTCTGGACTGAAGGATGCAGATAGAGCTCAAAAGCATGGCATGGATGAATTTATCTCTTCCAACCCCTGTAACTTTGACCACGCTTCCCTTTTTGAGATGGTGCAGCGCCTTACTTTGGATCACAGACTTAATGATTCCTATTCTTGCCTGGGCTGGTTTAGTCCTGGCCAGGTGTTTGTATTAGACGAATACTGTGCCCGCAACGGAGTCCGGGGATGTCACCGACATCTCTGCTACCTCAGAGATCTACTGCAACGGGCAGAGAATGGCGCCATGATCGACCCCACCCTTCTCCACTACAGCTTTGCCTTCTGCGCATCCCATGTCCACGGCAACAGGCCTGATGGAATCGGGACTGTGACTGTTGAAGAGAAGGAACGTTTTGAAGAAATCAAAGAGAGACTCCGAGTGCTGTTGGAAAATCAGATTACACATTTTAGGTATTGCTTTCCATTTGGTCGACCTGAAGGTGCATTAAAAGCTACTCTCTCTCTCTTGGAAAGGGTTTTGATGAAGGATATTGTTACTCCAGTGCCACAAGAAGAGGTAAAAACAGTCATCCGTAAATGTCTAGAGCAAGCTGCTCTAGTCAACTATTCCCGTCTCTCTGAGTATGCCAAAATTGAAGAAAATGTAGGCCGGTTAATCACTCCTGCCAAAAAGCTTGAAGACGCAATACGTCTTGCTGAACTAGTCATTGAAGTTCTTCAGCAGAATGAGGAGCACCACGCAGAGCCACACGTTGATAAAGGAGAAGCCTTTGCATGGTGGTCAGACTTAATGGTGGAGCATGCGGAGACATTCCTGTCGCTCTTTGCGGTGGACATGGATGCAGCCTTAGAGGTGCAGCCCCCTGACACGTGGGACAGTTTTCCTGTGTTTCAGCTGCTGAATGACTTTCTCCGTACCGACTATAATTTGTGCAATGGAAAATTTCACAAACACCTGCAAGACCTGTTTGCCCCACTTGTTGTTAGATATGTGGATTTGATGGAGTCCTCAATTGCACAATCCATTCACAGGGGCTTTGAGCGGGAGTCATGGGAACCAGTCAAGAGTTTAACCAGTAACCTACCCAATGTGAACCTACCCAATGTGAACCTTCCCAAAGTACCAAATCTACCAGTTAACATCCCTCTAGGCATCCCACAAATGCCTACTTTTTCGGCACCGTCATGGATGGCTGCTATATATGATGCTGATAATGGATCAGGCACCTCAGAAGACCTGTTCTGGAAACTTGACGCCCTTCAGACCTTCATTCGGGACCTGCACTGGCCTGAGGAAGAATTTGGAAAGCACCTAGAACAACGGCTGAAGTTGATGGCGAGTGACATGATTGAGTCTTGTGTCAAAAGAACCAGGATTGCATTTGAAGTTAAGCTGCAAAAAACCAGTCGATCAACAGATTTTCGAGTCCCACAGTCAATATGCACCATGTTTAATGTTATGGTTGATGCCAAAGCTCAATCAACAAAACTTTGCAGCATGGAAATGGGCCAAGAGCATCAATACCACTCAAAAATAGACGAACTAATTGAAGAAACTGTTAAAGAAATGATAACACTCTTGGTTGCAAAGTTCATTACTATCTTGGAAGGAGTACTGGCAAAATTATCCAGATACGACGAAGGGACTTTGTTTTCTTCTTTTCTGTCATTTACCGTGAAGGCTGCTTCCAAATATGTGGATGTACCTAAACCCGGAATGGATGTGGCTGATGCCTACGTGACTTTCGTCCGCCACTCTCAGGATGTCCTGCGTGATAAGGTCAATGAGGAGATGTATATAGAAAGGTTATTTGATCAATGGTACAACAGCTCCATGAATGTCATCTGTACCTGGTTGACGGACCGGATGGACCTGCAGCTTCACATATATCAACTGAAAACACTAATTAGGATGGTAAAGAAAACCTATAGAGATTTCCGATTGCAAGGGGTCCTGGATTCCACCCTCAACAGCAAGACTTATGAGACCATCCGGAACCGACTCACCGTGGAAGAAGCCACGGCCTCCGTGAGCGAGGGCGGGGGCCTGCAGGGCATCAGCATGAAGGACAGCGACGAGGAGGATGAGGAGGATGATTAG

XM_004871621.1 Coding sequence

Fezf2 FEZ family zinc finger 2, transcript variant X2

Length: 1347 bp    Location: 3462232..3467721   Strand: +

>XM_004871621.1
ATGGCCAGCTCGGCCTCCCTGGAGACCGTGGTGGCCCCGGCCTGCGCGCGCGCCGGGGCGTCGCCGGCCACCCCCAAGACGCTGGCCTTCTCCATCGAGCGCATCATGGCCAAGACGTCGGAGCCCCGCGCACCCTTTGAGCCCAGGCCTGGGGCACTGGAGGCGGACGGCAGCCAGAGCAAGAAACTGCTCAACCTGTGCTCGCCGCTCCCCTGCATGATCCCCCTGCAGCCCCTGGGCTACGAGGTGCCGTCCAAGACTCTTCTCAGCTACTCGGAGCTCTGGAAGAGCAGCCTCCGGGCGGGCGGCGGCAGCGGCGCCCCCGTGTGCGGCGCCAGCGGCTTGTGCAAAACCAACTGTGGCTTGTGCTGCAAGGCCGAGTTGGGCCTCGCTCCGTCCGCGCTGCCCGCGGGCAGGGTCATCAAGCCGCAGGTCATCAACCAGGCGATGGGGCTGCCGGCCAGCGGCCAGCTCTACTACTTCAACTACCTGGACTCCGCGGCCTACCCGCCCTCCGAGCTCCTGGGCAGTCACCTCTTCCCGTCCGGCCTCCTCAACGCGCAGGCCCCCACGGCCCTGGCCACGCACCCCAAGCTCTTCCTGCTGGACAACGCCAAGCTGGCCGGCCTGGCCGCGGACAAGTTCCCCCACCCGGCTCCCTATCCGCACAAGGAGCGCCTGCCCGCGCCGCTGGAGCAGGTGCTGAAGGAGAACTCCGGCCTGGCCGCTGAGCGCGGGGCCGCCAAGGGCCACAGCAAGCTGGCCGGGGGCTCTTCGGACGGCAAGCCCAAGAACTTCACCTGCGAGGTGTGCGGCAAGGTGTTTAACGCCCACTATAACCTCACCCGCCACATGCCGGTCCACACTGGAGCCAGACCCTTCGTGTGCAAGGTCTGCGGCAAAGGCTTCCGCCAGGCCAGCACGCTGTGCAGGCACAAAATCATCCACACCCAGGAGAAGCCGCATAAGTGCAACCAGTGCGGCAAAGCTTTCAACCGCAGCTCCACGCTCAACACCCACATCCGCATCCACGCGGGCTACAAGCCCTTCGTCTGCGAATTTTGCGGCAAAGGCTTTCACCAGAAAGGGAACTACAAGAACCACAAGCTGACCCACAGCGGCGAGAAGCAGTACAAATGCACCATCTGCAACAAGGCCTTCCACCAGGTCTACAACCTGACCTTCCACATGCACACTCACAACGACAAGAAGCCTTTCACGTGCGCCACTTGCGGCAAAGGCTTTTGCAGAAACTTTGACTTAAAGAAACACGTGCGAAAGCTGCACGACAGCGTGGGCCCCACCGCCGCCTCTGCCAAGGACCTGAGCAGGGCTTCGCAGAGCTGA

XM_004871601.1 Coding sequence

Prickle2 prickle homolog 2 (Drosophila), transcript variant X1

Length: 2715 bp    Location: 1537138..1822235   Strand: +

>XM_004871601.1
ATGTTCAGCCGGAGCTCGCGGAGGAGGCTGTGCGGCCGCCCGTTGGCTGGACTGGGGCGGATAGAGAGAGGCCAGCCGTGTGGCGCCTGCGGTGACCAGTGCCCCGGGTTCGCCCTGCACAAATGGAGGAAGATCTGCCTGCACTGCAAGTGTCGCCAGGAGGAGCACATGGTGACCGTGATGCCTCTGGAGATGGAGAAAACCATCAGCAAGCTCATGTTTGACTTCCAGAGGAACTCGACCTCAGACGACGACTCGGGCTGCGCCCTGGAGGAGTACGCCTGGGTCCCGCCGGGGCTGAAGCCCGAGCAGGTACACCAGTACTACAGCTGCCTCCCTGAAGAGAAGGTCCCTTATGTCAACAGCCCTGGAGAGAAACTGCGAATCAAGCAGCTCCTCCACCAGCTGCCGCCGCACGACAATGAGGTCCGATACTGCAACTCCCTGGATGAGGAGGAGAAGAGGGAGCTGAAGCTGTTCAGCAACCAGCGGAAACGTGAGAACCTGGGCCGAGGGAATGTCAGGCCCTTCCCCGTCACCATGACCGGCGCTATCTGCGAGCAGTGCGGAGGCCAGATTAACGGCGGGGACATCGCTGTGTTCGCATCTCGCGCTGGCCACGGTGTCTGCTGGCACCCGCCCTGCTTCATATGCACCGTCTGCAGTGAGCTCCTGGTGGATCTGATCTACTTCTACCAAGATGGGAAGATCTACTGTGGACGGCACCACGCCGAGTGCCTGAAGCCGCGCTGTGCCGCCTGCGACGAGATCATCTTCGCTGACGAATGCACAGAAGCTGAGGGGCGGCACTGGCACATGAAACATTTCTGCTGCTTCGAGTGTGAGACAGTGCTGGGTGGCCAGCGCTACATCATGAAGGAAGGAAGGCCCTACTGCTGCCACTGCTTCGAGTCCTTGTATGCAGAGTATTGCGACACCTGTGCCCAGCACATAGGGATCGACCAGGGTCAGATGACCTACGACGGCCAACACTGGCACGCCACTGAGACCTGTTTCTGCTGTGCTCACTGCAAGAAGTCCCTCCTGGGCCGGCCGTTCCTCCCGAAGCAGGGCCAGATATTTTGCTCCCGAGCCTGCAGTGCCGGTGAGGACCCCAATGGCTCCGACTCCTCCGATTCGGCCTTCCAGAATGCCAGAGCCAAGGAGTCCCGACGCAGCGCCAAGATCGGCAAGAACAAGAGCAAGACAGAGGAGGCCGTGCTGAGCCAGCACGGCCAGCTGCAGGCAAGCTCGGTCCGGCTGTCGGCCGACGTAGACCCCCTGTCCCTACAGATGGACCTGCTCAGCCTGTCCAGCCAGACACCCAGCCTCAACCGGGACCCTATCTGGCGGGGCCGGGACGAGCCCTACCACTACGGGAACAAGATGGAGCAGGGCCAGGCCCAGAGCCCTCTGCAGCTGCTCAGCCAGTGCAGCATGAGGACTTCCTACAGCCCAGGGGCGCAGGGCGCGGGAGCCCAGCCCGACGTGTGGCCCCAGCATTTCAGCAACCCCAAGAGGGGCTCGGCGCTGGCCATGAAGGGGCACGGTGGCAGCTTCCTCAAGGAGTGCCGTGAGGACTACTACGGTGCGCGGCTGCGGTCCCAGGAGAGCTACAGCGACATGTCCAGCCAGGGCTTCGGCGAGGCCCGGGGTGGCATCCAGGTGCCCCAGTACGAGGAGACGGAGGACGGCGGGGGTGCGGCCACCCAGCAGTGCCGGCCGCGCCACCCACTCGGCGCCCTGCAGTACACGGAGGACAGGACGCCCGCGGAGCAGACCCCTCGGGGCTCCATGGACTCGCTGGCCCTGTCCAACACAACAGGTTTCTCCGCGGAAGGCGGGGCCAAGCGCCAGGAGCACCTGTCGCGGTTTTCCATGCCGGACCTCAGCAAAGACTCGGGAATGAACGTGTCCGAGAAGCTGAGCACCCTGGGTACCCTCAACTCGTCCGTGCAGTTCCGGAGCGCCGAGTCGGTGCGCAGCCTGCTGTCGGCGCAGCAGTACCAGGAGGCAGACGGCGGCCTCCGCCAGCTCGGCGCCCCCGCGGGGTACCGGGACCTGCAGGCCCGCGGGCGCAGGCACCAGAGCTTCGACTTCGACGCGGGGCTGGCGGGCGGCCCGCTGCCCGGCCCCGAGGCGGCGCGGCTGCAGCCCCTGAGCGAGCGCACGCGGCGCCGGGCCTCCCCGCGCGACCCCGAGGCGCGCCGCCCGCGCACGCACGCGCATGCGCACCGCCCCCGCCGCTCGCGCCGCTCGCGCTCAGACAACGCGCTGCACCTGGCCGGCGAGCGCGAGGCACTGTCCCGCCTGAAGGGGCGGCCGGGCCTGCGCGCCCGCGAGGACTGCGAGCCGTTCGCGCGCCAGCGCAGCTTCCAGGGCAGCCCGGGCCCGGGCGGCCGCCGGGACCTGTGCGGCCAGTGCCCCCGGACCGTGTCGGACCTGGCGCTGCAGAACGCCGTCGGGGAGCGCTGGGCGCCCTGCTTCGCCGAGTACGACTGGTGCTCCACCTGCTCGTCCTCCTCCGAGTCCGACAACGAGGGCTTCTTCCTCGGCGAGCCCATTCCGCAGCCGGCGCGCCTGCGCTACGTCACCAGCGACGAGCTGCTGCACAAGTACGGCTCCTACGGGGTCCCCAAGGCCTCCACCTTGGGGGGCCGGGGGCAGCTGCACGGCAGGAAAAGACAGAAGAGCAAAAACTGCATCATTTCCTAG

XM_004871602.1 Coding sequence

Prickle2 prickle homolog 2 (Drosophila), transcript variant X2

Length: 2547 bp    Location: 1732004..1822235   Strand: +

>XM_004871602.1
ATGGTGACCGTGATGCCTCTGGAGATGGAGAAAACCATCAGCAAGCTCATGTTTGACTTCCAGAGGAACTCGACCTCAGACGACGACTCGGGCTGCGCCCTGGAGGAGTACGCCTGGGTCCCGCCGGGGCTGAAGCCCGAGCAGGTACACCAGTACTACAGCTGCCTCCCTGAAGAGAAGGTCCCTTATGTCAACAGCCCTGGAGAGAAACTGCGAATCAAGCAGCTCCTCCACCAGCTGCCGCCGCACGACAATGAGGTCCGATACTGCAACTCCCTGGATGAGGAGGAGAAGAGGGAGCTGAAGCTGTTCAGCAACCAGCGGAAACGTGAGAACCTGGGCCGAGGGAATGTCAGGCCCTTCCCCGTCACCATGACCGGCGCTATCTGCGAGCAGTGCGGAGGCCAGATTAACGGCGGGGACATCGCTGTGTTCGCATCTCGCGCTGGCCACGGTGTCTGCTGGCACCCGCCCTGCTTCATATGCACCGTCTGCAGTGAGCTCCTGGTGGATCTGATCTACTTCTACCAAGATGGGAAGATCTACTGTGGACGGCACCACGCCGAGTGCCTGAAGCCGCGCTGTGCCGCCTGCGACGAGATCATCTTCGCTGACGAATGCACAGAAGCTGAGGGGCGGCACTGGCACATGAAACATTTCTGCTGCTTCGAGTGTGAGACAGTGCTGGGTGGCCAGCGCTACATCATGAAGGAAGGAAGGCCCTACTGCTGCCACTGCTTCGAGTCCTTGTATGCAGAGTATTGCGACACCTGTGCCCAGCACATAGGGATCGACCAGGGTCAGATGACCTACGACGGCCAACACTGGCACGCCACTGAGACCTGTTTCTGCTGTGCTCACTGCAAGAAGTCCCTCCTGGGCCGGCCGTTCCTCCCGAAGCAGGGCCAGATATTTTGCTCCCGAGCCTGCAGTGCCGGTGAGGACCCCAATGGCTCCGACTCCTCCGATTCGGCCTTCCAGAATGCCAGAGCCAAGGAGTCCCGACGCAGCGCCAAGATCGGCAAGAACAAGAGCAAGACAGAGGAGGCCGTGCTGAGCCAGCACGGCCAGCTGCAGGCAAGCTCGGTCCGGCTGTCGGCCGACGTAGACCCCCTGTCCCTACAGATGGACCTGCTCAGCCTGTCCAGCCAGACACCCAGCCTCAACCGGGACCCTATCTGGCGGGGCCGGGACGAGCCCTACCACTACGGGAACAAGATGGAGCAGGGCCAGGCCCAGAGCCCTCTGCAGCTGCTCAGCCAGTGCAGCATGAGGACTTCCTACAGCCCAGGGGCGCAGGGCGCGGGAGCCCAGCCCGACGTGTGGCCCCAGCATTTCAGCAACCCCAAGAGGGGCTCGGCGCTGGCCATGAAGGGGCACGGTGGCAGCTTCCTCAAGGAGTGCCGTGAGGACTACTACGGTGCGCGGCTGCGGTCCCAGGAGAGCTACAGCGACATGTCCAGCCAGGGCTTCGGCGAGGCCCGGGGTGGCATCCAGGTGCCCCAGTACGAGGAGACGGAGGACGGCGGGGGTGCGGCCACCCAGCAGTGCCGGCCGCGCCACCCACTCGGCGCCCTGCAGTACACGGAGGACAGGACGCCCGCGGAGCAGACCCCTCGGGGCTCCATGGACTCGCTGGCCCTGTCCAACACAACAGGTTTCTCCGCGGAAGGCGGGGCCAAGCGCCAGGAGCACCTGTCGCGGTTTTCCATGCCGGACCTCAGCAAAGACTCGGGAATGAACGTGTCCGAGAAGCTGAGCACCCTGGGTACCCTCAACTCGTCCGTGCAGTTCCGGAGCGCCGAGTCGGTGCGCAGCCTGCTGTCGGCGCAGCAGTACCAGGAGGCAGACGGCGGCCTCCGCCAGCTCGGCGCCCCCGCGGGGTACCGGGACCTGCAGGCCCGCGGGCGCAGGCACCAGAGCTTCGACTTCGACGCGGGGCTGGCGGGCGGCCCGCTGCCCGGCCCCGAGGCGGCGCGGCTGCAGCCCCTGAGCGAGCGCACGCGGCGCCGGGCCTCCCCGCGCGACCCCGAGGCGCGCCGCCCGCGCACGCACGCGCATGCGCACCGCCCCCGCCGCTCGCGCCGCTCGCGCTCAGACAACGCGCTGCACCTGGCCGGCGAGCGCGAGGCACTGTCCCGCCTGAAGGGGCGGCCGGGCCTGCGCGCCCGCGAGGACTGCGAGCCGTTCGCGCGCCAGCGCAGCTTCCAGGGCAGCCCGGGCCCGGGCGGCCGCCGGGACCTGTGCGGCCAGTGCCCCCGGACCGTGTCGGACCTGGCGCTGCAGAACGCCGTCGGGGAGCGCTGGGCGCCCTGCTTCGCCGAGTACGACTGGTGCTCCACCTGCTCGTCCTCCTCCGAGTCCGACAACGAGGGCTTCTTCCTCGGCGAGCCCATTCCGCAGCCGGCGCGCCTGCGCTACGTCACCAGCGACGAGCTGCTGCACAAGTACGGCTCCTACGGGGTCCCCAAGGCCTCCACCTTGGGGGGCCGGGGGCAGCTGCACGGCAGGAAAAGACAGAAGAGCAAAAACTGCATCATTTCCTAG

XM_004871605.1 Coding sequence

Psmd6 proteasome (prosome, macropain) 26S subunit, non-ATPase, 6, transcript variant X2

Length: 1053 bp    Location: 1883356..1903011   Strand: +

>XM_004871605.1
ATGCCGCTGGAGAACCTGGAGGAGGAAGACATGGCGCCGTACTACGAGGCCTTGTGCAAGTCACTGGACTGGCAGGTGGACGTGGACCTGGTCGGCAAGATGAAGAAGGCGAACGAAGAAGAGTTGAAGCGCTTGGACGAGGAGCTGGAGGATGCGGAGAAGAACCTGGGGGAGAGCGAGATCCGAGACGCCATGATGGCGAGGGCCGAGTACCTCTGCCGGATAGGTGACAAGGAGGGAGCTCTGACGGCCTTTCGGAAGACTTACGACAAGACAGTGGCCCTGGGCCACAGGCTGGATATTGTGTTCTATCTCCTTAGAATTGGTCTGTTTTACATGGACAGTGATCTCATCACCCGGAACACAGAAAAGGCCAAAAGCTTAATAGAGGAAGGAGGAGACTGGGACAGGAGGAACCGCCTGAAAGTGTACCAGGGTCTCTACTGTGTGGCTATCCGTGACTTCAAACAGGCAGCCGAGCTCTTTCTGGACACTGTTTCAACATTTACATCCTATGAGCTTATGGATTACAAGACGTTTGTGACTTACACTGTCTATGTCAGCATGATTGCCCTGGAAAGACCAGATCTCAGGGAAAAGGTCATTAAAGGAGCGGAGATTCTGGAAGTGCTGCACAGCCTCCCGGCAGTCCGGCAGTATCTGTTTTCACTCTACGAATGTCGATACTCGGTGTTCTTCCAGTCATTAGCGGTTGTGGAACAGGAAATGAAACAGGACTGGCTTTTCGCGCCTCATTATCGATACTATGTCAGAGAAATGCGGATCCACGCCTACAGCCAACTGCTGGAGTCCTACCGCTCTTTAACCCTGGGCTACATGGCTGAGGCATTCGGGGTGGGCGTGGAATTCATTGACCAGGAACTGTCCAGGTTTATTGCTGCTGGAAGACTACACTGCAAAATAGATAAAGTGAATGAAATAGTAGAAACCAACAGACCTGATAGCAAGAACTGGCAGTACCAAGAAACTATCAAGAAAGGAGATCTGCTGCTAAACAGAGTTCAGAAACTTTCCAGAGTGATTAATATGTAA

XM_004871604.1 Coding sequence

Psmd6 proteasome (prosome, macropain) 26S subunit, non-ATPase, 6, transcript variant X1

Length: 1170 bp    Location: 1883357..1903011   Strand: +

>XM_004871604.1
ATGCCGCTGGAGAACCTGGAGGAGGAGGGGCTGCCCAAGAACCCCGACCTGCGCATCGCGCAGCTGCGCTTCCTGCTGAGCCTGCCGGAGCACCGCGGGGACGCGGCGGTGCGCGCCGAGCTGATGGCGGCCGTGCGCGACAACGACATGGCGCCGTACTACGAGGCCTTGTGCAAGTCACTGGACTGGCAGGTGGACGTGGACCTGGTCGGCAAGATGAAGAAGGCGAACGAAGAAGAGTTGAAGCGCTTGGACGAGGAGCTGGAGGATGCGGAGAAGAACCTGGGGGAGAGCGAGATCCGAGACGCCATGATGGCGAGGGCCGAGTACCTCTGCCGGATAGGTGACAAGGAGGGAGCTCTGACGGCCTTTCGGAAGACTTACGACAAGACAGTGGCCCTGGGCCACAGGCTGGATATTGTGTTCTATCTCCTTAGAATTGGTCTGTTTTACATGGACAGTGATCTCATCACCCGGAACACAGAAAAGGCCAAAAGCTTAATAGAGGAAGGAGGAGACTGGGACAGGAGGAACCGCCTGAAAGTGTACCAGGGTCTCTACTGTGTGGCTATCCGTGACTTCAAACAGGCAGCCGAGCTCTTTCTGGACACTGTTTCAACATTTACATCCTATGAGCTTATGGATTACAAGACGTTTGTGACTTACACTGTCTATGTCAGCATGATTGCCCTGGAAAGACCAGATCTCAGGGAAAAGGTCATTAAAGGAGCGGAGATTCTGGAAGTGCTGCACAGCCTCCCGGCAGTCCGGCAGTATCTGTTTTCACTCTACGAATGTCGATACTCGGTGTTCTTCCAGTCATTAGCGGTTGTGGAACAGGAAATGAAACAGGACTGGCTTTTCGCGCCTCATTATCGATACTATGTCAGAGAAATGCGGATCCACGCCTACAGCCAACTGCTGGAGTCCTACCGCTCTTTAACCCTGGGCTACATGGCTGAGGCATTCGGGGTGGGCGTGGAATTCATTGACCAGGAACTGTCCAGGTTTATTGCTGCTGGAAGACTACACTGCAAAATAGATAAAGTGAATGAAATAGTAGAAACCAACAGACCTGATAGCAAGAACTGGCAGTACCAAGAAACTATCAAGAAAGGAGATCTGCTGCTAAACAGAGTTCAGAAACTTTCCAGAGTGATTAATATGTAA

XM_004871606.1 Coding sequence

Atxn7 ataxin 7, transcript variant X1

Length: 2625 bp    Location: 2032751..1913985   Strand: -

>XM_004871606.1
ATGTCGGAGCGGGCCGTGGATGACGTCAGGGGGGAGCCGCGCCGCGCGGCGGGCGGAGCAGCCCGGCAGCCCCCGCAGCCCCCGCGGCAGCGCCCACGGCCGGAGGACGGCGGCCCGGGCAGCGCCGCCATGGCGATGGCCGGGGAGCGAAGGCCGCTGCCCAGCCCCGAGGCGATGCTGGGACAGCCGTGGAGTCTGTGGGTCGAGGCTTCCAAACTTCCCGGGAAGGATGGGACGGAATTGGACGAAAGTTTGAAGGAGTTTGGGAAAAACCGCGAAGTCATGGGGCTCTGTCGGGAAGACATGCCAATATTTGGTCTCTGTCCAGCGCATGATGATTTCTACTTGGTGGTGTGTAACGACTGTAATCAGGTTGTCAAACCGCAGGCATTTCAATCACATTATGAAAGAAGACATGGCTCATCCAAGCCTTCTTTGGCCGTTCCGCCCACCTCAGTATTCCCCTTCTTCCCTTCTCTGTCCAAGAGCAGAGGAGCCAGTACGAGTGGAAGCAGCCGCCCTTCCGGCGGAGGGCTTCTGAGCGCATCCTCCTCCAGTTCCAGGTTACTGAAGTCACCCAAAGAGAAACCGCAGCTTAGGGGGAACACCAGGCCGATGCACCCCTTTCAGCAAAGTAGAGGCCCCCACAGCAGAATCATGACACCCTCTGTGAAAGTGGAAAAGATCCAGCCGAAGATGGACGGCACACTACTGAAGTCTGCGGTGGGGCCGAGCTGTCCTGCTACTGTGAGTTCCTCAGTCAAGCCTGGCCTTAACTGCCCCTCAATACCAAAGCCAACCTTGCCTTCACCTGGACAGATGCTGAATGGCAAAGGGCTTCCTGCACCGCCCACTCTGGAGAAGAAAGCCGAAGACTGTTGCAGTAATAGGAAGTTTTTAAATAAGAGATTATCAGAAAGAGAGTTTGATCCTGACATCCACTGTGGGGTCATTGATCTCGACACCAAGAAGCCCTGCACTCGGTCTTTGACATGCAAGACACATTCCTTAACCCAGCGGAGGGCTGTTCAGGGTAGAAGAAAACGATTTGATGTGTTATTAGCGGAGCACAAAAACAAACCCAGGGAAAAGGAATCGATTCGCCATCTGGACTCTCAGCAACCACTGCAGCCTCTCAGGGACCCACATCCCACCCCTCCCCGTACGTCCCAGGAGCCCCACCAGAACATTCACGGGGTGACCCCCTCCGAATCAAAGCCTTTCGTAGCTAGTAAACCTAAACCACACACCCCCAGTCTTCCCAGGCCTCCAGGCTGCCCTGCTCAGCAAGGTGGGAATGCCCCCACTGAGCCTCCTCCAGTCCGTGAGTCTCCACAGCCTCCCCTGCCTGCCTCTGAGCCAGCTTCCCGGTTATCCAGTGAGGAGGGCGAGGGCGAGGGCGATGACAGGGAAGAGCCTGTTGAAAAACTGGACTGTCATTATTCAGGTCGTCACCCTCAGCCAGCATCGTTTTGCACATTCGGGAGCCGGCAGATGGGCAGAGGCTATTACGTGTTTGACTCCAGGTGGAACCGGCTTCGCTGCGCCATCAGCCTCATGGTGGAGAAGCATCTGAACTCGCAGCTGTGGAGGAAAATCCCGCCAGTGCCCAGCAGCCCATCGCCGCCGGTCTCGGCACGCGTCCCTCACCGGCCGAACTCCGTGCTGACATCCCAGTGCGGGGCCGGCTATCCCGCGGCCGCCACTGTCTCCGCGTCCCCCGCGCTGCTGTCGCCCGCCTGCACCTCCCCGAACAGCAAAGCGGTACCGGCTCACGGAACCACGCTGAACGTGCAGCCCGCCGCCTCCGGGGCGGTGGAGCCCGCATGCGGCGCGCAGTCCAGACAGGGCTGCTCCTCCTCCTCCTGCTCCTCCTCCTCCCCGCCCGTGCCCGTGCCCGTGCCCGCGCCCCTCTCCTCAGTGCCCCCCTCCCCCATGTCCAGGAAACCTCCCAAGTTGAAATCCTGCAAGTCTGTGAGGCCCAGGGAGTCTCCTGCTATCGGCACTAACTGTCACAGCGCCAGTAGCAGCAACAGTGGCGGCTCAGGAAAGAAACGCAAAAGCAGTTCCCCACTGCTAGTGCATCCTTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCTTCCTCTTCTCATTCCATGGAGCCTTTTAGGAAAAACTGTGCGGCTCACTCCGGGCCTCCCTACCCGTCCACAGTGACCTCCTCCCACGGCCTGGGCCTCAACTGCGTGGCGAACCGTGCGCACGTGGGGAGCCTCCGGCCTGAGCAGTCAGGGAGGGCCCCCCCAGGCGGGAGCCCTACAGAGGCCATCAAGCGCATGAGCGTGATGGTGAACAGCAGCGACTCCACGCTCTCGCTGGGCCCGTTTGTGCACCAGGCCAGCGAGCTGCCTGTGAACTCCCACAGCAGTTTCTCCCACTCCCACACTCCTCTGGACAAGCTCATGGGCAAGAAGAGAAAGTGCTGCCCGGGCTCGAGTAGCATCAACAACAGCAGTAGCAAACCCACAAAGGTTGCCAGACTGCCAGCCATGAACAACGTCCACATGAAACACACAGGCACCATCCCTGGGGCACAAGGACTGATGAACAGCTCCCTCCTCCACCAGCCAAAGGCACGTCCCTGA

XM_004871608.1 Coding sequence

Thoc7 THO complex 7 homolog (Drosophila)

Length: 615 bp    Location: 2045488..2062867   Strand: +

>XM_004871608.1
ATGGGAGCTGTGACTGACGACGAAGTCATAAGGAAGCGTCTCCTCATTGATGGGGATGGTGCTGGAGATGACCGCAGAATTAATCTGCTAGTGAAGAGTTTCATTAAGTGGTGCAACTCTGGATCCCAAGAAGAGGGATACAGCCAGTACCAGCGCATGCTGAGCACGCTGGCCCAGTGTGAGTTCTCCATGGGCAAAACATTGCTGGTGTACGACATGAATCTCAGGGAAATGGAAAACTATGAAAAAATTTACAAAGAAATAGAATGCAGCATTGCAGGAGCACATGAAAAAATTGCTGAGTGCAAAAAGCAGATTCTTCAAGCAAAACGAATACGAAAAAATCGTCAAGAATACGATGCTTTGGCAAAGGTGATCCAGCATCACCCAGACAGGCATGAGACCTTAAAGGAACTAGAGGCTCTGGGAAAAGAATTGGAGCACCTTTCACATATCAAAGAAAGTGTGGAAGATAAGCTGGAACTGAGACGGAAACAGTTTCACGTTCTTCTTAGCACCATCCACGAACTTCAGCAGACACTGGAGAATGATGAAAAGCTCTCGGAAGTAGAAGAAGCTCATGAAACAAGCATAGAAGCGGATGCTAAGCCGTAG

XR_206353.1 Non-coding sequence

LOC101704569 PREDICTED: Heterocephalus glaber cadherin-related family member 3-like (LOC101704569), transcript variant X3, misc_RNA.

Length: 2784 bp     

>XR_206353.1
ACTGAGCTCCTGAGAAGTCAGTGGAGCAGGAACTGGAGAGAAAGCATCTCTGCCAGGCAAGGGGCTTTCAAGTCCATCATGCCTTTGATCCCTTTGTGTTTGGTGTTGGTTGCTGCCCCAGGTGTTCTAGCATTTCTCAATTTTGCCATCGAGAATGCCAACCCTGTCCTGGAAAATGCCTCTGAGCACACTCGGGTGGCCGTGATCCGTGTGTCACTCTCACGTCACGCTTCTCTGGTTGGAGATCCTGTTATTCTTAATGCAAACCCCGTGGTCCACCCATTCGCACTGTCTCGTGGATCTACACTTCTGTGGGATTTATTCACCACTGGAGTACCCAAGCTGGACTTTGAGATGGTGGCACTCTACTCCCTGCTAATCTACGCCAGAGACAACCAAGGGGCCACTGCATCACAGACCATCTCAATTCAGATTGCAGATGTGAATGAACCGCCCACCTTCACTGGATCCCTTGCCCAGGGAGACCAAGCTGCTGAGATTTACGTCCTAGAGGACACTGCTCTGGGTGCAGTCATTTACAGAGCAGCGGCCAAGGACCCCGAGGATGCTGCTCTGGAGTACTTCCTCTCCCCGGAGGGCTCTGGCTTCGCAATCGACAGCTCCGGAACAATTTCCACAACAGCTGCGTTCGATTTTGAGAGTGAAACTAGAAGTTTTTCACTGGTTGTTAAAGCGGTTGACCCCGGAGGACTGTTCGCCACTGGAAATCTGAAGATTTTCCTCATCAATATCAACAATAAGGATCCCACTCTGACCTGCAGTTTGTTCAACATTGAGAACGCTGTCTTGAGTGTTGCATCTGTAAACTCAACTCTGCACAACAAAGTGGACCTCACGCTGGATGAAGAAATCCCAGTCGGGAAAACGATTGGAACGTGCCAGGCAAATGATGAAGATTGCTTGGGAGATTTAACCTTTGAACTTGATCCTGGGAATGTTTACTTTGCAGTCGATAAAGAGCGTGGGACCGTGGTCACTGCCACTCGCCTGGACGCAGAGAGAGCTGGGTTTGCGAGGGCCCAGTCCTTCTCCATTAAGGCTTGTGACCGTGACCAGCGGTGTGCAGCAGTTCCCGTGACCGCCTACATTCATGGCCTTAATGACAACTCGCCTTTCTGCGACCAGTATGTGATTAGGTACACAGGCAGAGAGATGATTGTAGAAGACACAGTAGTGGCAAAGCTCTCGTGTCGTGACCTTGACGACCCTCCTGATACAATCCACTATGTTCCAAGCTTGGGACCAGTTGGTTCTGGACAAATCTTTGAACAAGCACCAAATGCTGAAAACGTCATCCGGGTCACCAAAGAGCTGGATTACGAAGACCCAGAGGTGGTTGCTGTGGGCCATACTTATGAAATGACGATTTCAGTGTTTGATGACCTTCATCCCTCCCATACAGTTACTGTGACAGTCATTGTGGAGCTCGCTCCCGCCAACGACTTCAGCCCTGTGTTTAAAGCTGCACACTATTCATTCTCGGTTCCAGAGACATCAGGAGCTTTCTACAAAGTTGGAAGAGTGACTGCCACTGATGAAGACCACCCACCAAACTGTCTGACCTACAAAATTACCAATGGAGACATCGAGGCTGTACAAAAATTCTGGATTCATCCTCACTCTGGGATGATCGAACTCACCACACAGCCAGACTATGAGTCTGTGAAGCAATACAACCTCACCGTGGAAGCTGTGGACTGCGACAGAGTCCATCCACGCACAGCAGTGGCCACAGTCACGGTTGACATTGAGGATGAGAATGACGAAGCACCTGTCTGTGTGCCCTCTCTTTTCAAGGGAGTCATTTCCAACAATGTTGCTGCTGGGACAAACGTCAATGGCTTCAAACTAAGCTGTCACGACAGAGATTCGCAGGATTTCGAAATGCGCTTTGAGATAGCTTCTGGAAATGAGAACCATCATTTTGGATTTGACCCAACTCAAGGTTCAAATACTCCAAAATTAATTGTGAAGAATCCTTTTAACTTTGAACCTGGAGCTGAACGGCTGCGGCAGTACCACCTCGTGGTGCATATAGTGGATGACAATCTCAAACACGGCAGGACCACCAAGCCCAGGACGGGCACTGCTGCTATAGATATTTACGTGATCAGAGCTCCTACGCCATCCCCTCCAACCAGCTCTGAACAGAGAAAAGGCCTGACCATCGTGTACACAGCAGTCAACACGTATAGATCCGGTGCCTGGTACATCCCTTTCACCTTCACGCTGTTGGCTGTTTTCTGTGTTGGGCTCGTTTCCTGGCTGTGCTTCCTGCTTTGGAGGTATGGAAACATCATGGAGTGCTGTCAGGTCATGGCCAAGAGCGTCTCCAAGCCCATGCCCAGAGAAATGAAATATATTGCAGGAGGTAGAGATCAAAAAGAAAAAGCTGTCACAGGAAGCCGCAGTAAAAAATTCGAAGTCTTAACAGAAACCATTGTGTACGAGACCGTGTTTGATGGAGAAGCCATTGACCCAGGGCCAGGCAGGTAAAATTAATGACTACAAGGGACCAGATAAAACAGTGCATCGAATCACCAAGGGCAACTGTCGCTGGGGTGGAGCACTATCACTCAGCTCCTGGCATCCCTTCTGTGTGGGAAGCAGGCCTGGAGTTGCCAGAACCCAGTGCTTCAGGAGGAGCTGGACATTCATGCTGTTGCATGAAATCTGCCTGGATTTAAATGCAGTGTCTGGCAATGTGTACGAATACAACAGCAGAACGGGAGCCAGAAAGTGGAAGAAGCCCCCCAGGCCCCA

XM_004871612.1 Coding sequence

Synpr synaptoporin, transcript variant X1

Length: 843 bp    Location: 2608709..2317519   Strand: -

>XM_004871612.1
ATGGACCCCGTGAGCCAGCTGGCCTCGGCGGGCTCCTTCCGGGCGCTCAAGGAGCCGCTCGCCTTCCTGCGCGCGCTGGAGCTGCTTTTTGCGATCTTTGCATTTGCAACATGCGGTGGCTATTCTGGAGGCCTGAGGCTGAGTGTGGACTGTGTCAACAAGACGGAAAGTAACCTCAGCATCGACGTCGCCTTCGCCTACCCCTTCAGGTTGCACCAGGTGACCTTCGAGGTACCCACCTGTGAGGGGAAGGGACAGCAGAAGCTGGCGCTTATTGGCGACTCCTCATCTTCGGCAGAGTTCTTCGTCACCGTGGCTGTCTTCGCCTTCCTCTACTCGCTGGCTGCCACTGTCGTTTACATTTTCTTCCAGAACAAGTACCGGGAGAACAACCGGGGCCCACTGATTGACTTCGTTGTAACTGTGGTTTTCTCATTCTTGTGGCTGGTGGGTTCATCTGCTTGGGCAAAAGGGCTGTCTGATGTCAAAGTTGCAACAGACCCCAAAGAAGTCTTGTTATTAATGTCAGCTTGCAAGCAGCCAGCTAACAAGTGCATGGCGGTCCACAGCCCCGTCATGTCCAGCTTAAACACCTCTGTGGTATTTGGATTCTTGAACTTTATACTCTGGGCTGGAAACATATGGTTTGTTTTCAAGGAGACCGGCTGGCATTCCTCGGGACAGAGGTACCTTTCGGACCCAATGGAAAAGCACTCCAGCAGCTACAACCAAGACAGCTACGGGTCGGGCGGTGGGTACAGCCAGCAGGGGAGTGTGGGGCCATCCTCTGAGGAGTTTGGCCAGCCAGCCAGCGGCCCTACTTCCTTCACCAATCAGATTTAA

XM_004871610.1 Coding sequence

LOC101704569 cadherin-related family member 3-like, transcript variant X2

Length: 2439 bp    Location: 2080214..2169078   Strand: +

>XM_004871610.1
ATGCCTTTGATCCCTTTGTGTTTGGTGTTGGTTGCTGCCCCAGGTGTTCTAGCATTTCTCAATTTTGCCATCGAGAATGCCAACCCTGTCCTGGAAAATGCCTCTGAGCACACTCGGGTGGCCGTGATCCGTGTGTCACTCTCACGTCACGCTTCTCTGGTTGGAGATCCTGTTATTCTTAATGCAAACCCCGTGGTCCACCCATTCGCACTGTCTCGTGGATCTACACTTCTGTGGGATTTATTCACCACTGGAGTACCCAAGCTGGACTTTGAGATGGTGGCACTCTACTCCCTGCTAATCTACGCCAGAGACAACCAAGGGGCCACTGCATCACAGACCATCTCAATTCAGATTGCAGATGTGAATGAACCGCCCACCTTCACTGGATCCCTTGCCCAGGGAGACCAAGCTGCTGAGATTTACGTCCTAGAGGACACTGCTCTGGGTGCAGTCATTTACAGAGCAGCGGCCAAGGACCCCGAGGATGCTGCTCTGGAGTACTTCCTCTCCCCGGAGGGCTCTGGCTTCGCAATCGACAGCTCCGGAACAATTTCCACAACAGCTGCGTTCGATTTTGAGAGTGAAACTAGAAGTTTTTCACTGGTTGTTAAAGCGGTTGACCCCGGAGGACTGTTCGCCACTGGAAATCTGAAGATTTTCCTCATCAATATCAACAATAAGGATCCCACTCTGACCTGCAGTTTGTTCAACATTGAGAACGCTGTCTTGAGTGTTGCATCTGTAAACTCAACTCTGCACAACAAAGTGGACCTCACGCTGGATGAAGAAATCCCAGTCGGGAAAACGATTGGAACGTGCCAGGCAAATGATGAAGATTGCTTGGGAGATTTAACCTTTGAACTTGATCCTGGGAATGTTTACTTTGCAGTCGATAAAGAGCGTGGGACCGTGGTCACTGCCACTCGCCTGGACGCAGAGAGAGCTGGGTTTGCGAGGGCCCAGTCCTTCTCCATTAAGGCTTGTGACCGTGACCAGCGGTGTGCAGCAGTTCCCGTGACCGCCTACATTCATGGCCTTAATGACAACTCGCCTTTCTGCGACCAGTATGTGATTAGGTACACAGGCAGAGAGATGATTGTAGAAGACACAGTAGTGGCAAAGCTCTCGTGTCGTGACCTTGACGACCCTCCTGATACAATCCACTATGTTCCAAGCTTGGGACCAGTTGGTTCTGGACAAATCTTTGAACAAGCACCAAATGCTGAAAACGTCATCCGGGTCACCAAAGAGCTGGATTACGAAGACCCAGAGGTGGTTGCTGTGGGCCATACTTATGAAATGACGATTTCAGTGTTTGATGACCTTCATCCCTCCCATACAGTTACTGTGACAGTCATTGTGGAGCTCGCTCCCGCCAACGACTTCAGCCCTGTGTTTAAAGCTGCACACTATTCATTCTCGGTTCCAGAGACATCAGGAGCTTTCTACAAAGTTGGAAGAGTGACTGCCACTGATGAAGACCACCCACCAAACTGTCTGACCTACAAAATTACCAATGGAGACATCGAGGCTGTACAAAAATTCTGGATTCATCCTCACTCTGGGATGATCGAACTCACCACACAGCCAGACTATGAGTCTGTGAAGCAATACAACCTCACCGTGGAAGCTGTGGACTGCGACAGAGTCCATCCACGCACAGCAGTGGCCACAGTCACGGTTGACATTGAGGATGAGAATGACGAAGCACCTGTCTGTGTGCCCTCTCTTTTCAAGGGAGTCATTTCCAACAATGTTGCTGCTGGGACAAACGTCAATGGCTTCAAACTAAGCTGTCACGACAGAGATTCGCAGGATTTCGAAATGCGCTTTGAGATAGCTTCTGGAAATGAGAACCATCATTTTGGATTTGACCCAACTCAAGGTTCAAATACTCCAAAATTAATTGTGAAGAATCCTTTTAACTTTGAACCTGGAGCTGAACGGCTGCGGCAGTACCACCTCGTGGTGCATATAGTGGATGACAATCTCAAACACGGCAGGACCACCAAGCCCAGGACGGGCACTGCTGCTATAGATATTTACGTGATCAGAGCTCCTACGCCATCCCCTCCAACCAGCTCTGAACAGAGAAAAGGCCTGACCATCGTGTACACAGCAGTCAACACGTATAGATCCGGTGCCTGGTACATCCCTTTCACCTTCACGCTGTTGGCTGTTTTCTGTGTTGGGCTCGTTTCCTGGCTGTGCTTCCTGCTTTGGAGGTATGGAAACATCATGGAGTGCTGTCAGGTCATGGCCAAGAGCGTCTCCAAGCCCATGCCCAGAGAAATGAAATATATTGCAGGAGGTAGAGATCAAAAAGAAAAAGCTGTCACAGGAAGCCGCAGTAAAAAATTCGAAGTCTTAACAGAAACCATTGTGTACGAGACCGTGTTTGATGGAGAAGCCATTGACCCAGGGCCAGGCAGGTAA

XM_004871613.1 Coding sequence

Synpr synaptoporin, transcript variant X2

Length: 783 bp    Location: 2462767..2317519   Strand: -

>XM_004871613.1
ATGTGTATGGTGATATTTGCTCCGCTTTTTGCGATCTTTGCATTTGCAACATGCGGTGGCTATTCTGGAGGCCTGAGGCTGAGTGTGGACTGTGTCAACAAGACGGAAAGTAACCTCAGCATCGACGTCGCCTTCGCCTACCCCTTCAGGTTGCACCAGGTGACCTTCGAGGTACCCACCTGTGAGGGGAAGGGACAGCAGAAGCTGGCGCTTATTGGCGACTCCTCATCTTCGGCAGAGTTCTTCGTCACCGTGGCTGTCTTCGCCTTCCTCTACTCGCTGGCTGCCACTGTCGTTTACATTTTCTTCCAGAACAAGTACCGGGAGAACAACCGGGGCCCACTGATTGACTTCGTTGTAACTGTGGTTTTCTCATTCTTGTGGCTGGTGGGTTCATCTGCTTGGGCAAAAGGGCTGTCTGATGTCAAAGTTGCAACAGACCCCAAAGAAGTCTTGTTATTAATGTCAGCTTGCAAGCAGCCAGCTAACAAGTGCATGGCGGTCCACAGCCCCGTCATGTCCAGCTTAAACACCTCTGTGGTATTTGGATTCTTGAACTTTATACTCTGGGCTGGAAACATATGGTTTGTTTTCAAGGAGACCGGCTGGCATTCCTCGGGACAGAGGTACCTTTCGGACCCAATGGAAAAGCACTCCAGCAGCTACAACCAAGACAGCTACGGGTCGGGCGGTGGGTACAGCCAGCAGGGGAGTGTGGGGCCATCCTCTGAGGAGTTTGGCCAGCCAGCCAGCGGCCCTACTTCCTTCACCAATCAGATTTAA

XM_004871617.1 Coding sequence

Cadps Ca++-dependent secretion activator, transcript variant X4

Length: 3918 bp    Location: 2985844..3443021   Strand: +

>XM_004871617.1
ATGCTGGACCCTTCGTCCAGCGAAGAGGAGTCGGATGAGATCGTGGAGGAGGAGAGCGGCAAGGAAGCGCTGGGCTCGGCCGCGTCCGGCGCGCGCCTGTCCCCCAGCCGCACCAGCGAGGGCCCGGCCGGCGGCCCAGGCAGCCGGGGAGGCGGCGGGCGGCCCTCCAGCCCCAGCCCGTCGGTGGTGAGCGAGAAGGAGAAGGAAGAGTTGGAGAGGCTGCAGAAGGAGGAGGAGGAGAGGAAGAAGCGGCTGCAGCTCTACGTGTTCGTGATGCGCTGCATTGCCTACCCCTTCAACGCCAAGCAGCCCACGGACATGGCCCGGCGGCAGCAGAAGATCAGCAAACAGCAGCTCCAGACAGTCAAGGACCGGTTTCAGGCCTTTCTCAATGGGGAAACCCAGATCGTGGCTGATGAAGCCTTCATGAATGCTGTCCAGAGTTATTATGAGGTGTTCCTAAAGAGTGACCGGGTAGCCCGCATGGTGCAGAGTGGGGGCTGCTCTGCCAACGACTCACGAGAGGTCTTCAAGAAGCACATTGAGAAGCGGGTGCGGAGCCTGCCTGAGATCGATGGCCTCAGCAAGGAGACTGTGCTGAGCTCCTGGATGGCCAAGTTTGATGCTATCTACCGTGGGGAAGAGGACCCCAGGAAGCAGCAGGCCCGGATGACAGCCAGCGCAGCCTCTGAACTGATTCTGAGCAAGGAGCAACTCTACGAGATGTTCCAGAACATTCTTGGGATCAAGAAGTTTGAACACCAGCTCCTGTACAATGCATGTCAGCTGGACAACCCAGATGAGCAGGCAGCCCAGATCCGACGGGAGCTGGATGGACGTCTCCAAATGGCAGACCAAATAGCCAGGGAACGAAAATTTCCGAAGTTTGTATCCAAAGAAATGGAAAACATGTACATTGAGGAACTGAAGTCCTCCGTCAACTTGCTCATGGCCAACTTGGAGAGCATGCCTGTGTCCAAAGGCGGCGAGTTCAAGCTCCAGAAGCTGAAACGCAGCCACAACGCTTCCATCATCGACATGGGTGAGGAGAGTGAGAACCAACTCTCCAAGTCAGATGTCGTGCTGTCTTTCTCCTTGGAGGTGGTGATCATGGAAGTCCAAGGCCTTAAATCCTTGGCTCCAAATCGCATTGTGTATTGCACAATGGAGGTGGAAGGAGGAGAGAAACTGCAAACAGACCAGGCTGAGGCTTCCAAACCAACATGGGGCACCCAGGGTGACTTCTCCACAACCCACGCACTGCCTGCTGTGAAGGTGAAGCTGTTCACAGAAAGCACAGGTGTCCTGGCCTTGGAGGACAAGGAGCTTGGGAGGGTTATTCTCCATCCCACCCCGAATAGCCCCAAGCAATCCGAATGGCACAAAATGACAGTTTCCAAAAACTGCCCAGATCAGGATCTCAAAATCAAACTTGCTGTCCGAATGGATAAACCTCAAAACATGAAGCATTCTGGGTATTTATGGGCCATCGGTAAGAATGTCTGGAAGAGATGGAAGAAAAGGTTTTTTGTATTGGTGCAGGTCAGTCAGTACACATTTGCCATGTGCAGTTACCGAGAGAAGAAAGCGGAACCTCAGGAGCTTCTACAACTGGATGGCTACACTGTGGATTACACAGACCCCCAGCCAGGTCTGGAAGGGGGCCGAGCCTTCTTCAATGCAGTCAAAGAAGGAGACACAGTGATATTCGCCAGTGATGATGAGCAGGACCGCATCCTGTGGGTCCAAGCCATGTACCGGGCCACTGGACAGTCACACAAGCCCGTGCCCCCGACCCAGGTCCAGAAGCTCAACGCCAAGGGAGGGAACGTGCCTCAGCTGGATGCCCCCATCTCACAATTCTATGCAGATAGAGCTCAAAAGCATGGCATGGATGAATTTATCTCTTCCAACCCCTGTAACTTTGACCACGCTTCCCTTTTTGAGATGGTGCAGCGCCTTACTTTGGATCACAGACTTAATGATTCCTATTCTTGCCTGGGCTGGTTTAGTCCTGGCCAGGTGTTTGTATTAGACGAATACTGTGCCCGCAACGGAGTCCGGGGATGTCACCGACATCTCTGCTACCTCAGAGATCTACTGCAACGGGCAGAGAATGGCGCCATGATCGACCCCACCCTTCTCCACTACAGCTTTGCCTTCTGCGCATCCCATGTCCACGGCAACAGGCCTGATGGAATCGGGACTGTGACTGTTGAAGAGAAGGAACGTTTTGAAGAAATCAAAGAGAGACTCCGAGTGCTGTTGGAAAATCAGATTACACATTTTAGGTATTGCTTTCCATTTGGTCGACCTGAAGGTGCATTAAAAGCTACTCTCTCTCTCTTGGAAAGGGTTTTGATGAAGGATATTGTTACTCCAGTGCCACAAGAAGAGGTAAAAACAGTCATCCGTAAATGTCTAGAGCAAGCTGCTCTAGTCAACTATTCCCGTCTCTCTGAGTATGCCAAAATTGAAGAAAATGTAGGCCGGTTAATCACTCCTGCCAAAAAGCTTGAAGACGCAATACGTCTTGCTGAACTAGTCATTGAAGTTCTTCAGCAGAATGAGGAGCACCACGCAGAGGGGAAAGAGGCCTTTGCATGGTGGTCAGACTTAATGGTGGAGCATGCGGAGACATTCCTGTCGCTCTTTGCGGTGGACATGGATGCAGCCTTAGAGGTGCAGCCCCCTGACACGTGGGACAGTTTTCCTGTGTTTCAGCTGCTGAATGACTTTCTCCGTACCGACTATAATTTGTGCAATGGAAAATTTCACAAACACCTGCAAGACCTGTTTGCCCCACTTGTTGTTAGATATGTGGATTTGATGGAGTCCTCAATTGCACAATCCATTCACAGGGGCTTTGAGCGGGAGTCATGGGAACCAGTCAATAACCTACCCAATGTGAACCTACCCAATGTGAACCTTCCCAAAGTACCAAATCTACCAGTTAACATCCCTCTAGGCATCCCACAAATGCCTACTTTTTCGGCACCGTCATGGATGGCTGCTATATATGATGCTGATAATGGATCAGGCACCTCAGAAGACCTGTTCTGGAAACTTGACGCCCTTCAGACCTTCATTCGGGACCTGCACTGGCCTGAGGAAGAATTTGGAAAGCACCTAGAACAACGGCTGAAGTTGATGGCGAGTGACATGATTGAGTCTTGTGTCAAAAGAACCAGGATTGCATTTGAAGTTAAGCTGCAAAAAACCAGTCGATCAACAGATTTTCGAGTCCCACAGTCAATATGCACCATGTTTAATGTTATGGTTGATGCCAAAGCTCAATCAACAAAACTTTGCAGCATGGAAATGGGCCAAGAGCATCAATACCACTCAAAAATAGACGAACTAATTGAAGAAACTGTTAAAGAAATGATAACACTCTTGGTTGCAAAGTTCATTACTATCTTGGAAGGAGTACTGGCAAAATTATCCAGATACGACGAAGGGACTTTGTTTTCTTCTTTTCTGTCATTTACCGTGAAGGCTGCTTCCAAATATGTGGATGTACCTAAACCCGGAATGGATGTGGCTGATGCCTACGTGACTTTCGTCCGCCACTCTCAGGATGTCCTGCGTGATAAGGTCAATGAGGAGATGTATATAGAAAGGTTATTTGATCAATGGTACAACAGCTCCATGAATGTCATCTGTACCTGGTTGACGGACCGGATGGACCTGCAGCTTCACATATATCAACTGAAAACACTAATTAGGATGGTAAAGAAAACCTATAGAGATTTCCGATTGCAAGGGGTCCTGGATTCCACCCTCAACAGCAAGACTTATGAGACCATCCGGAACCGACTCACCGTGGAAGAAGCCACGGCCTCCGTGAGCGAGGGCGGGGGCCTGCAGGGCATCAGCATGAAGGACAGCGACGAGGAGGATGAGGAGGATGATTAG

XM_004871614.1 Coding sequence

Cadps Ca++-dependent secretion activator, transcript variant X1

Length: 3987 bp    Location: 2985846..3443021   Strand: +

>XM_004871614.1
ATGCTGGACCCTTCGTCCAGCGAAGAGGAGTCGGATGAGATCGTGGAGGAGGAGAGCGGCAAGGAAGCGCTGGGCTCGGCCGCGTCCGGCGCGCGCCTGTCCCCCAGCCGCACCAGCGAGGGCCCGGCCGGCGGCGCCGGGCTGGGGGGCGGCGGCAGCCGGGGAGGCGGCGGGCGGCCCTCCAGCCCCAGCCCGTCGGTGGTGAGCGAGAAGGAGAAGGAAGAGTTGGAGAGGCTGCAGAAGGAGGAGGAGGAGAGGAAGAAGCGGCTGCAGCTCTACGTGTTCGTGATGCGCTGCATTGCCTACCCCTTCAACGCCAAGCAGCCCACGGACATGGCCCGGCGGCAGCAGAAGATCAGCAAACAGCAGCTCCAGACAGTCAAGGACCGGTTTCAGGCCTTTCTCAATGGGGAAACCCAGATCGTGGCTGATGAAGCCTTCATGAATGCTGTCCAGAGTTATTATGAGGTGTTCCTAAAGAGTGACCGGGTAGCCCGCATGGTGCAGAGTGGGGGCTGCTCTGCCAACGACTCACGAGAGGTCTTCAAGAAGCACATTGAGAAGCGGGTGCGGAGCCTGCCTGAGATCGATGGCCTCAGCAAGGAGACTGTGCTGAGCTCCTGGATGGCCAAGTTTGATGCTATCTACCGTGGGGAAGAGGACCCCAGGAAGCAGCAGGCCCGGATGACAGCCAGCGCAGCCTCTGAACTGATTCTGAGCAAGGAGCAACTCTACGAGATGTTCCAGAACATTCTTGGGATCAAGAAGTTTGAACACCAGCTCCTGTACAATGCATGTCAGCTGGACAACCCAGATGAGCAGGCAGCCCAGATCCGACGGGAGCTGGATGGACGTCTCCAAATGGCAGACCAAATAGCCAGGGAACGAAAATTTCCGAAGTTTGTATCCAAAGAAATGGAAAACATGTACATTGAGGAACTGAAGTCCTCCGTCAACTTGCTCATGGCCAACTTGGAGAGCATGCCTGTGTCCAAAGGCGGCGAGTTCAAGCTCCAGAAGCTGAAACGCAGCCACAACGCTTCCATCATCGACATGGGTGAGGAGAGTGAGAACCAACTCTCCAAGTCAGATGTCGTGCTGTCTTTCTCCTTGGAGGTGGTGATCATGGAAGTCCAAGGCCTTAAATCCTTGGCTCCAAATCGCATTGTGTATTGCACAATGGAGGTGGAAGGAGGAGAGAAACTGCAAACAGACCAGGCTGAGGCTTCCAAACCAACATGGGGCACCCAGGGTGACTTCTCCACAACCCACGCACTGCCTGCTGTGAAGGTGAAGCTGTTCACAGAAAGCACAGGTGTCCTGGCCTTGGAGGACAAGGAGCTTGGGAGGGTTATTCTCCATCCCACCCCGAATAGCCCCAAGCAATCCGAATGGCACAAAATGACAGTTTCCAAAAACTGCCCAGATCAGGATCTCAAAATCAAACTTGCTGTCCGAATGGATAAACCTCAAAACATGAAGCATTCTGGGTATTTATGGGCCATCGGTAAGAATGTCTGGAAGAGATGGAAGAAAAGGTTTTTTGTATTGGTGCAGGTCAGTCAGTACACATTTGCCATGTGCAGTTACCGAGAGAAGAAAGCGGAACCTCAGGAGCTTCTACAACTGGATGGCTACACTGTGGATTACACAGACCCCCAGCCAGGTCTGGAAGGGGGCCGAGCCTTCTTCAATGCAGTCAAAGAAGGAGACACAGTGATATTCGCCAGTGATGATGAGCAGGACCGCATCCTGTGGGTCCAAGCCATGTACCGGGCCACTGGACAGTCACACAAGCCCGTGCCCCCGACCCAGGTCCAGAAGCTCAACGCCAAGGGAGGGAACGTGCCTCAGCTGGATGCCCCCATCTCACAATTCTCTGGACTGAAGGATGCAGATAGAGCTCAAAAGCATGGCATGGATGAATTTATCTCTTCCAACCCCTGTAACTTTGACCACGCTTCCCTTTTTGAGATGGTGCAGCGCCTTACTTTGGATCACAGACTTAATGATTCCTATTCTTGCCTGGGCTGGTTTAGTCCTGGCCAGGTGTTTGTATTAGACGAATACTGTGCCCGCAACGGAGTCCGGGGATGTCACCGACATCTCTGCTACCTCAGAGATCTACTGCAACGGGCAGAGAATGGCGCCATGATCGACCCCACCCTTCTCCACTACAGCTTTGCCTTCTGCGCATCCCATGTCCACGGCAACAGGCCTGATGGAATCGGGACTGTGACTGTTGAAGAGAAGGAACGTTTTGAAGAAATCAAAGAGAGACTCCGAGTGCTGTTGGAAAATCAGATTACACATTTTAGGTATTGCTTTCCATTTGGTCGACCTGAAGGTGCATTAAAAGCTACTCTCTCTCTCTTGGAAAGGGTTTTGATGAAGGATATTGTTACTCCAGTGCCACAAGAAGAGGTAAAAACAGTCATCCGTAAATGTCTAGAGCAAGCTGCTCTAGTCAACTATTCCCGTCTCTCTGAGTATGCCAAAATTGAAGAGAATCAAAAGGACGCAGAAAATGTAGGCCGGTTAATCACTCCTGCCAAAAAGCTTGAAGACGCAATACGTCTTGCTGAACTAGTCATTGAAGTTCTTCAGCAGAATGAGGAGCACCACGCAGAGCCACACGTTGATAAAGGAGAAGCCTTTGCATGGTGGTCAGACTTAATGGTGGAGCATGCGGAGACATTCCTGTCGCTCTTTGCGGTGGACATGGATGCAGCCTTAGAGGTGCAGCCCCCTGACACGTGGGACAGTTTTCCTGTGTTTCAGCTGCTGAATGACTTTCTCCGTACCGACTATAATTTGTGCAATGGAAAATTTCACAAACACCTGCAAGACCTGTTTGCCCCACTTGTTGTTAGATATGTGGATTTGATGGAGTCCTCAATTGCACAATCCATTCACAGGGGCTTTGAGCGGGAGTCATGGGAACCAGTCAAGAGTTTAACCAGTAACCTACCCAATGTGAACCTACCCAATGTGAACCTTCCCAAAGTACCAAATCTACCAGTTAACATCCCTCTAGGCATCCCACAAATGCCTACTTTTTCGGCACCGTCATGGATGGCTGCTATATATGATGCTGATAATGGATCAGGCACCTCAGAAGACCTGTTCTGGAAACTTGACGCCCTTCAGACCTTCATTCGGGACCTGCACTGGCCTGAGGAAGAATTTGGAAAGCACCTAGAACAACGGCTGAAGTTGATGGCGAGTGACATGATTGAGTCTTGTGTCAAAAGAACCAGGATTGCATTTGAAGTTAAGCTGCAAAAAACCAGTCGATCAACAGATTTTCGAGTCCCACAGTCAATATGCACCATGTTTAATGTTATGGTTGATGCCAAAGCTCAATCAACAAAACTTTGCAGCATGGAAATGGGCCAAGAGCATCAATACCACTCAAAAATAGACGAACTAATTGAAGAAACTGTTAAAGAAATGATAACACTCTTGGTTGCAAAGTTCATTACTATCTTGGAAGGAGTACTGGCAAAATTATCCAGATACGACGAAGGGACTTTGTTTTCTTCTTTTCTGTCATTTACCGTGAAGGCTGCTTCCAAATATGTGGATGTACCTAAACCCGGAATGGATGTGGCTGATGCCTACGTGACTTTCGTCCGCCACTCTCAGGATGTCCTGCGTGATAAGGTCAATGAGGAGATGTATATAGAAAGGTTATTTGATCAATGGTACAACAGCTCCATGAATGTCATCTGTACCTGGTTGACGGACCGGATGGACCTGCAGCTTCACATATATCAACTGAAAACACTAATTAGGATGGTAAAGAAAACCTATAGAGATTTCCGATTGCAAGGGGTCCTGGATTCCACCCTCAACAGCAAGACTTATGAGACCATCCGGAACCGACTCACCGTGGAAGAAGCCACGGCCTCCGTGAGCGAGGGCGGGGGCCTGCAGGGCATCAGCATGAAGGACAGCGACGAGGAGGATGAGGAGGATGATTAG

XM_004871623.1 Coding sequence

Fezf2 FEZ family zinc finger 2, transcript variant X4

Length: 1335 bp    Location: 3462230..3467721   Strand: +

>XM_004871623.1
ATGGCCAGCTCGGCCTCCCTGGAGACCGTGGTGGCCCCGGCCTGCGCGCGCGCCGGGGCGTCGCCGGCCACCCCCAAGACGCTGGCCTTCTCCATCGAGCGCATCATGGCCAAGACGTCGGAGCCCCGCGCACCCTTTGAGCCCAGGCCTGGGGCACTGGAGGCGGACGGCAGCCAGAGCAAGAAACTGCTCAACCTGTGCTCGCCGCTCCCCTGCATGATCCCCCTGCAGCCCCTGGGCTACGAGGTGCCGTCCAAGACTCTTCTCAGCTACTCGGAGCTCTGGAAGAGCAGCCTCCGGGCGGGCGGCGGCAGCGGCGCCCCCGTGTGCGGCGCCAGCGGCTTGTGCAAAACCAACTGTGGCTTGTGCTGCAAGGCCGAGTTGGGCCTCGCTCCGTCCGCGCTGCCCGCGGGCAGGGTCATCAAGCCGCAGGTCATCAACCAGGCGATGGGGCTGCCGGCCAGCGGCCAGCTCTACTACTTCAACTACCTGGACTCCGCGGCCTACCCGCCCTCCGAGCTCCTGGGCAGTCACCTCTTCCCGTCCGGCCTCCTCAACGCGCAGGCCCCCACGGCCCTGGCCACGCACCCCAAGCTCTTCCTGCTGGACAACGCCAAGCTGGCCGGCCTGGCCGCGGACAAGTTCCCCCACCCGGCTCCCTATCCGCACAAGGAGCGCCTGCCCGCGCCGCTGGAGCAGGTGCTGAAGGAGAACTCCGGCCTGGCCGCTGAGCGCGGGGCCGCCAAGGGCCACAGCAAGCTGGCCGGGGGCTCTTCGGACGGCAAGCCCAAGAACTTCACCTGCGAGGTGTTTAACGCCCACTATAACCTCACCCGCCACATGCCGGTCCACACTGGAGCCAGACCCTTCGTGTGCAAGGTCTGCGGCAAAGGCTTCCGCCAGGCCAGCACGCTGTGCAGGCACAAAATCATCCACACCCAGGAGAAGCCGCATAAGTGCAACCAGTGCGGCAAAGCTTTCAACCGCAGCTCCACGCTCAACACCCACATCCGCATCCACGCGGGCTACAAGCCCTTCGTCTGCGAATTTTGCGGCAAAGGCTTTCACCAGAAAGGGAACTACAAGAACCACAAGCTGACCCACAGCGGCGAGAAGCAGTACAAATGCACCATCTGCAACAAGGCCTTCCACCAGGTCTACAACCTGACCTTCCACATGCACACTCACAACGACAAGAAGCCTTTCACGTGCGCCACTTGCGGCAAAGGCTTTTGCAGAAACTTTGACTTAAAGAAACACGTGCGAAAGCTGCACGACAGCGTGGGCCCCACCGCCGCCTCTGCCAAGGACCTGAGCAGGGCTTCGCAGAGCTGA

XM_004871603.1 Coding sequence

Prickle2 prickle homolog 2 (Drosophila), transcript variant X3

Length: 2547 bp    Location: 1693162..1822235   Strand: +

>XM_004871603.1
ATGGTGACCGTGATGCCTCTGGAGATGGAGAAAACCATCAGCAAGCTCATGTTTGACTTCCAGAGGAACTCGACCTCAGACGACGACTCGGGCTGCGCCCTGGAGGAGTACGCCTGGGTCCCGCCGGGGCTGAAGCCCGAGCAGGTACACCAGTACTACAGCTGCCTCCCTGAAGAGAAGGTCCCTTATGTCAACAGCCCTGGAGAGAAACTGCGAATCAAGCAGCTCCTCCACCAGCTGCCGCCGCACGACAATGAGGTCCGATACTGCAACTCCCTGGATGAGGAGGAGAAGAGGGAGCTGAAGCTGTTCAGCAACCAGCGGAAACGTGAGAACCTGGGCCGAGGGAATGTCAGGCCCTTCCCCGTCACCATGACCGGCGCTATCTGCGAGCAGTGCGGAGGCCAGATTAACGGCGGGGACATCGCTGTGTTCGCATCTCGCGCTGGCCACGGTGTCTGCTGGCACCCGCCCTGCTTCATATGCACCGTCTGCAGTGAGCTCCTGGTGGATCTGATCTACTTCTACCAAGATGGGAAGATCTACTGTGGACGGCACCACGCCGAGTGCCTGAAGCCGCGCTGTGCCGCCTGCGACGAGATCATCTTCGCTGACGAATGCACAGAAGCTGAGGGGCGGCACTGGCACATGAAACATTTCTGCTGCTTCGAGTGTGAGACAGTGCTGGGTGGCCAGCGCTACATCATGAAGGAAGGAAGGCCCTACTGCTGCCACTGCTTCGAGTCCTTGTATGCAGAGTATTGCGACACCTGTGCCCAGCACATAGGGATCGACCAGGGTCAGATGACCTACGACGGCCAACACTGGCACGCCACTGAGACCTGTTTCTGCTGTGCTCACTGCAAGAAGTCCCTCCTGGGCCGGCCGTTCCTCCCGAAGCAGGGCCAGATATTTTGCTCCCGAGCCTGCAGTGCCGGTGAGGACCCCAATGGCTCCGACTCCTCCGATTCGGCCTTCCAGAATGCCAGAGCCAAGGAGTCCCGACGCAGCGCCAAGATCGGCAAGAACAAGAGCAAGACAGAGGAGGCCGTGCTGAGCCAGCACGGCCAGCTGCAGGCAAGCTCGGTCCGGCTGTCGGCCGACGTAGACCCCCTGTCCCTACAGATGGACCTGCTCAGCCTGTCCAGCCAGACACCCAGCCTCAACCGGGACCCTATCTGGCGGGGCCGGGACGAGCCCTACCACTACGGGAACAAGATGGAGCAGGGCCAGGCCCAGAGCCCTCTGCAGCTGCTCAGCCAGTGCAGCATGAGGACTTCCTACAGCCCAGGGGCGCAGGGCGCGGGAGCCCAGCCCGACGTGTGGCCCCAGCATTTCAGCAACCCCAAGAGGGGCTCGGCGCTGGCCATGAAGGGGCACGGTGGCAGCTTCCTCAAGGAGTGCCGTGAGGACTACTACGGTGCGCGGCTGCGGTCCCAGGAGAGCTACAGCGACATGTCCAGCCAGGGCTTCGGCGAGGCCCGGGGTGGCATCCAGGTGCCCCAGTACGAGGAGACGGAGGACGGCGGGGGTGCGGCCACCCAGCAGTGCCGGCCGCGCCACCCACTCGGCGCCCTGCAGTACACGGAGGACAGGACGCCCGCGGAGCAGACCCCTCGGGGCTCCATGGACTCGCTGGCCCTGTCCAACACAACAGGTTTCTCCGCGGAAGGCGGGGCCAAGCGCCAGGAGCACCTGTCGCGGTTTTCCATGCCGGACCTCAGCAAAGACTCGGGAATGAACGTGTCCGAGAAGCTGAGCACCCTGGGTACCCTCAACTCGTCCGTGCAGTTCCGGAGCGCCGAGTCGGTGCGCAGCCTGCTGTCGGCGCAGCAGTACCAGGAGGCAGACGGCGGCCTCCGCCAGCTCGGCGCCCCCGCGGGGTACCGGGACCTGCAGGCCCGCGGGCGCAGGCACCAGAGCTTCGACTTCGACGCGGGGCTGGCGGGCGGCCCGCTGCCCGGCCCCGAGGCGGCGCGGCTGCAGCCCCTGAGCGAGCGCACGCGGCGCCGGGCCTCCCCGCGCGACCCCGAGGCGCGCCGCCCGCGCACGCACGCGCATGCGCACCGCCCCCGCCGCTCGCGCCGCTCGCGCTCAGACAACGCGCTGCACCTGGCCGGCGAGCGCGAGGCACTGTCCCGCCTGAAGGGGCGGCCGGGCCTGCGCGCCCGCGAGGACTGCGAGCCGTTCGCGCGCCAGCGCAGCTTCCAGGGCAGCCCGGGCCCGGGCGGCCGCCGGGACCTGTGCGGCCAGTGCCCCCGGACCGTGTCGGACCTGGCGCTGCAGAACGCCGTCGGGGAGCGCTGGGCGCCCTGCTTCGCCGAGTACGACTGGTGCTCCACCTGCTCGTCCTCCTCCGAGTCCGACAACGAGGGCTTCTTCCTCGGCGAGCCCATTCCGCAGCCGGCGCGCCTGCGCTACGTCACCAGCGACGAGCTGCTGCACAAGTACGGCTCCTACGGGGTCCCCAAGGCCTCCACCTTGGGGGGCCGGGGGCAGCTGCACGGCAGGAAAAGACAGAAGAGCAAAAACTGCATCATTTCCTAG

XM_004871607.1 Coding sequence

Atxn7 ataxin 7, transcript variant X2

Length: 2625 bp    Location: 2025066..1913985   Strand: -

>XM_004871607.1
ATGTCGGAGCGGGCCGTGGATGACGTCAGGGGGGAGCCGCGCCGCGCGGCGGGCGGAGCAGCCCGGCAGCCCCCGCAGCCCCCGCGGCAGCGCCCACGGCCGGAGGACGGCGGCCCGGGCAGCGCCGCCATGGCGATGGCCGGGGAGCGAAGGCCGCTGCCCAGCCCCGAGGCGATGCTGGGACAGCCGTGGAGTCTGTGGGTCGAGGCTTCCAAACTTCCCGGGAAGGATGGGACGGAATTGGACGAAAGTTTGAAGGAGTTTGGGAAAAACCGCGAAGTCATGGGGCTCTGTCGGGAAGACATGCCAATATTTGGTCTCTGTCCAGCGCATGATGATTTCTACTTGGTGGTGTGTAACGACTGTAATCAGGTTGTCAAACCGCAGGCATTTCAATCACATTATGAAAGAAGACATGGCTCATCCAAGCCTTCTTTGGCCGTTCCGCCCACCTCAGTATTCCCCTTCTTCCCTTCTCTGTCCAAGAGCAGAGGAGCCAGTACGAGTGGAAGCAGCCGCCCTTCCGGCGGAGGGCTTCTGAGCGCATCCTCCTCCAGTTCCAGGTTACTGAAGTCACCCAAAGAGAAACCGCAGCTTAGGGGGAACACCAGGCCGATGCACCCCTTTCAGCAAAGTAGAGGCCCCCACAGCAGAATCATGACACCCTCTGTGAAAGTGGAAAAGATCCAGCCGAAGATGGACGGCACACTACTGAAGTCTGCGGTGGGGCCGAGCTGTCCTGCTACTGTGAGTTCCTCAGTCAAGCCTGGCCTTAACTGCCCCTCAATACCAAAGCCAACCTTGCCTTCACCTGGACAGATGCTGAATGGCAAAGGGCTTCCTGCACCGCCCACTCTGGAGAAGAAAGCCGAAGACTGTTGCAGTAATAGGAAGTTTTTAAATAAGAGATTATCAGAAAGAGAGTTTGATCCTGACATCCACTGTGGGGTCATTGATCTCGACACCAAGAAGCCCTGCACTCGGTCTTTGACATGCAAGACACATTCCTTAACCCAGCGGAGGGCTGTTCAGGGTAGAAGAAAACGATTTGATGTGTTATTAGCGGAGCACAAAAACAAACCCAGGGAAAAGGAATCGATTCGCCATCTGGACTCTCAGCAACCACTGCAGCCTCTCAGGGACCCACATCCCACCCCTCCCCGTACGTCCCAGGAGCCCCACCAGAACATTCACGGGGTGACCCCCTCCGAATCAAAGCCTTTCGTAGCTAGTAAACCTAAACCACACACCCCCAGTCTTCCCAGGCCTCCAGGCTGCCCTGCTCAGCAAGGTGGGAATGCCCCCACTGAGCCTCCTCCAGTCCGTGAGTCTCCACAGCCTCCCCTGCCTGCCTCTGAGCCAGCTTCCCGGTTATCCAGTGAGGAGGGCGAGGGCGAGGGCGATGACAGGGAAGAGCCTGTTGAAAAACTGGACTGTCATTATTCAGGTCGTCACCCTCAGCCAGCATCGTTTTGCACATTCGGGAGCCGGCAGATGGGCAGAGGCTATTACGTGTTTGACTCCAGGTGGAACCGGCTTCGCTGCGCCATCAGCCTCATGGTGGAGAAGCATCTGAACTCGCAGCTGTGGAGGAAAATCCCGCCAGTGCCCAGCAGCCCATCGCCGCCGGTCTCGGCACGCGTCCCTCACCGGCCGAACTCCGTGCTGACATCCCAGTGCGGGGCCGGCTATCCCGCGGCCGCCACTGTCTCCGCGTCCCCCGCGCTGCTGTCGCCCGCCTGCACCTCCCCGAACAGCAAAGCGGTACCGGCTCACGGAACCACGCTGAACGTGCAGCCCGCCGCCTCCGGGGCGGTGGAGCCCGCATGCGGCGCGCAGTCCAGACAGGGCTGCTCCTCCTCCTCCTGCTCCTCCTCCTCCCCGCCCGTGCCCGTGCCCGTGCCCGCGCCCCTCTCCTCAGTGCCCCCCTCCCCCATGTCCAGGAAACCTCCCAAGTTGAAATCCTGCAAGTCTGTGAGGCCCAGGGAGTCTCCTGCTATCGGCACTAACTGTCACAGCGCCAGTAGCAGCAACAGTGGCGGCTCAGGAAAGAAACGCAAAAGCAGTTCCCCACTGCTAGTGCATCCTTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCTTCCTCTTCTCATTCCATGGAGCCTTTTAGGAAAAACTGTGCGGCTCACTCCGGGCCTCCCTACCCGTCCACAGTGACCTCCTCCCACGGCCTGGGCCTCAACTGCGTGGCGAACCGTGCGCACGTGGGGAGCCTCCGGCCTGAGCAGTCAGGGAGGGCCCCCCCAGGCGGGAGCCCTACAGAGGCCATCAAGCGCATGAGCGTGATGGTGAACAGCAGCGACTCCACGCTCTCGCTGGGCCCGTTTGTGCACCAGGCCAGCGAGCTGCCTGTGAACTCCCACAGCAGTTTCTCCCACTCCCACACTCCTCTGGACAAGCTCATGGGCAAGAAGAGAAAGTGCTGCCCGGGCTCGAGTAGCATCAACAACAGCAGTAGCAAACCCACAAAGGTTGCCAGACTGCCAGCCATGAACAACGTCCACATGAAACACACAGGCACCATCCCTGGGGCACAAGGACTGATGAACAGCTCCCTCCTCCACCAGCCAAAGGCACGTCCCTGA

XR_206351.1 Non-coding sequence

Adamts9 PREDICTED: Heterocephalus glaber ADAM metallopeptidase with thrombospondin type 1 motif, 9 (Adamts9), transcript variant X8, misc_RNA.

Length: 8320 bp     

>XR_206351.1
CCTCGGCGCGAGACCTCAGCGACTCCTAAGTGGAACGTCGGCGGCCGGCGCTCTCCAGCCCGCGCTCTGCGGGGCGGGCAGAAGGGCAGCGGGGCCGCAGGGTGGGGAGCACCATGCAGTTGGTACCCTGGGTCGCACTGCTAGCGCTTGTGGTGCGGGGCCCGGCCGGGATGCGGAGCCTGGACGCCGCGGCCGCCGTGCGCAAGGACAGGCTGCACCCGAGGCAAGCCAAACTACTGGAGACCCTGAGCGAGTATGAAATCGCGTCTCCCGTGCGAGTGGGCGCGGGCGGAGAACCTCTTCCCACGGACGTGCACTTCCGAAGAAGGCGGCGGAGCGCGGCCCCGGCCCCGGCCCCGGCCACTGAGCCCCGGCCTGCCTCCGCCTCCCCCTCTGCCTCCACGTCCTCCTCTACCTCCTCGCAGGAGCATTACCGCCTCTCCGCCTTCGGCCAACACTTTCTGTTTAACCTCACCGCCCAGGCCGGATTTATCGCTCCACTGTTCACTGTCACTCTCCTCGGGGCGCCGGGGGTGAACCAGACTAAGTTTTATTCCGAGGAGGAAACGGAGCTCCAACACTGTTTCTACACTGGCCACGTCAACGCCGAGACGGCGCACACGGCCGTGCTCAGCCTCTGCTCGGGAATGCTGGGCACATTCCAGTCCCATGATGGAGATTATTTTATTGAACCACTATTGTCCATGGATGAACAAGAGAAGAAAGAGGAGCAAAACAAACCCCACATTATTTATAGGCGCAGCATCCCTCAGCAGGAGCCCTCAGCAGGAAAGCATGCCTGTGGCACCTCAGGACATAGAAGCAGCCGCAGGAAAAACAGGAGGAAAGGCAGCAGGAGGAAGTGGGGAGCGACGATCCACCCGGCGGGCGACGTGGCAGCCCTGCACAGTGGGTCGGCAGCTGAGCCGCCCGCTGCACTGGGGAACCGGACCGATGGCCTGAGGGACAGGGGGACACGAAGGAGGACCAAGCGCTTCTTGTCCTACCCCCGCTTTGTGGAGGTGATGGTGGTGGCGGACAACAAGATGCTTCTGTACCACGGAGCGAACCTTCAGCACTATGTTTTGACCTTGATGGCCATTGTAGCCTCTATCTATAAAGACCCCAGTATTGGAAATTTAATTAATATTGTTATTGTGAACTTAGTTGTGATTCATGATGAACAGGAAGGACCTCCCATATCTTTTAATGCCCAGACAACATTAAAAAACTTCTGCCAGTGGCAGCATTCGAAGAACTACCCAGGTGGGATCCAGCACGATACTGCTGTGCTCATTACGAGGCAAGACATCTGCAGAGCTCACGACAAGTGCGACACCTTAGGTCTTGCTGAACTGGGAACCATTTGTGATCCCTACAGGAGCTGCTCTATTAGCGAAGACAGTGGGTTGAGTACAGCTTTTACAATTGCCCATGAACTGGGCCATGTGTTTAACATGCCTCACGACGACAGCAATAAGTGTAGAGAAGAGGGCGTGAAGAACACCCAGCACGTCATGGCGCCGACCCTGACGGTCGACACCAACCCCTGGATATGGTCAAAGTGCAGTCGAAAATACATCACTGAATTTTTAGACACTGGATACGGTGAATGTTTGCTTAATGAACCTGAATCCAGACCCTACTCTCTGCCTTCCCAACTGCCGGGCCTCTTTTACAGCGTGAATAAACAATGTGAATTCATTTTCGGACCAGGAGCTGAGTTGTGCCCGTACATGCAGGTGCAGTGTAGACGGCTGTGGTGCAACGTGAAGAGAAAGGATCAAAGCTGCCAGACGCAGCACACGCCCTGGGCTGACGGGACGGAGTGTGAGCCCGGAAAGCACTGCAAGTTTGGGTTTTGTGTTCCCAAAGAAATGGAGGGCCCAGCGGTTGACGGATCCTGGGGAAGCTGGAGTCCCTATGGCACCTGCTCCAGAACATGCGGCGGGGGCATCAAAACGGCCATTCGCGAGTGCGACCAACCAGAGCCAAGACATGGTGGGAAATACTGTGTAGGACGCAGAATGAAATTTAAGTCCTGCAGCCTGGAGCCGTGTCTCAAGCAGAAGCAGGACTTCCGGGACGAACAGTGTGCTCACTTTGACGGGAAGCACTTTAACATCAACGGGCTGCTGCCCACCGTGCGCTGGGTCCCCAAGTACAGCGGAATCTTGATGAAGGACCGGTGCAAGTTGTTCTGCAGAGTGGCTGGGAGCACGGCCTACTATCAGCTCCGGGACAGAGTGGTGGATGGGACTCCTTGTGGCCAGGATACGAATGATATCTGTGTCCAAGGCCTTTGCCGGCAAGCTGGATGCGATCATGTTTTAAACTCAAAAGCCCGGCGAGATAAGTGTGGAGTGTGTGGTGGTGATAATTCTTCATGCAGAACTGTGGCAGGAACCTTTAATGCCGTGCATTACGGTTACAATACCGTGGTCCGAATTCCAGCTGGTGCTACCAGTATTGATGTGCGGCAGCACAGCTTCTCAGGGAAATCCGAGGATGACAACTACTTAGCTTTGTCAAGCAGTAAAGGGGAATTCTTGCTAAACGGGGACTTCGTTGTCACAATGTCCAAAAAGGAAATCCGAATCGGGAAGGCGATGATTGAGTACAGCGGCTCTGACAACATAGTGGAGAGAATTAACTCCACCGACCGCATTGACCAAGAGCTTGTGCTTCAGGTGCTGTCAGTGGGGAAGCTATACAACCCCGATGTGCGCTACTCGTTCAACGTCCCGATTGAAGGCAGACTGCAGCAGTTCTACTGGAATAGCCGTGGGCCCTGGCAGGCCTGCAGCAAGCCCTGCCAAGGGGTGCGGAGACGGAAGCCTGTTTGCACCAGGGAATCCGACCAGCTTCCTGTCTCTGATCAGAGATGTGATCGGCTGCCCCAGCCAGAGCCCATCACAGAGGCCTGCGGTACGGACTGTGACCTGAGGTGGCACGTGGGTGGCAGGAGCGAATGCAGTGCCCAGTGTGGGCTGGGCTACCGCACGCTGGACGTCTACTGTGCCAGGTACAGCAGGCTGGATGGGAAGACGGAGAAGGTGGACGACAGTTTTTGCAGCAGTCACCCCAAACCAAACAACCAGGAAAAGTGCTCGGGCGAATGTAACACAGGGGGCTGGCGCTACTCGGCCTGGACTGAATGTTCTAAAAGCTGTGACGGCGGAAGCCAGAGGAGACGGGCTATCTGTGTAAACTCCCAAAATGACGTCCTAGATGACAACAAATGCACCCACCAGGAAAAAGTCACCACTCAGAGATGCAACGAGTTCCCCTGTCCACAGTGGCAGTCTGGAGACTGGTCAGAGTGCTTGGTCACCTGCGGGAAGGGCCACAGGCACCGGCAGGTCTGGTGTCAGTTCGGTGAAGATCGAGTGAGTGATAAAATCTGCGACCCCCAGGCCAAGCCGGCTTCCATGCAGCCCTGTCAGCAGTCGGAATGCGCATCCTGGCAGGCTGGTCCCTGGGGACAGTGCAGTGTCACCTGTGGCCAGGGCTACCAGCTGAGAGCAGTGAAATGTGTCCTGGGGACCTACATGGCAGTGGTGGACGACAGTGGCTGCAGTGCAGGCACGAGACCGACCGACACCCAGGACTGTGAAGTGTCGCCTTGTCAGCCTCCCCCGGTGGCCCCGGAAGCCAGAAGCCCCCACGGCGGGCGGAGGACGCAGTGGCGCTTTGGGTCTTGGACATCATGCTCAGCCACCTGTGGAAAAGGCACCCGCATGAGGTACGTCAGCTGCCGGGGCGAGGACGGCTCTGTCGCCGACGAGAGCGCCTGTGCCAGCCTGCCCAGACCCGAGGCCCGGGAGGGCTGCTCGGTGACGCCTTGCGGGCAGTGGAAGGCTTCCGACTGGAGCGCGTGCTCCGTGACGTGTGGCCAAGGGAGGGCAACGCGGCAAGTGGTGTGTGTCAACTACAGTGACCACGTCGTCGGCCAGAGCGAGTGCGACCTGGATTACATCCCCGAGACCGACCAGGACTGCTCCATGGCGCCGTGCCCCCGGTGGGGCCCCGACAGAGGCTGGGCTGCTTCGCACCCTTTCCAAAACGAGGACTTCCGGCCCAGGGGCGCCGGGCCAAGCCGCACCCACGTGCTGAGCGGAAACCAGTGGAGAACGGGCCCCTGGGGAGCGTGTTCCAGCACGTGCGCAGGTGGCTCCCAGCGGCGGGTTGTGGTGTGTCAGGATGAGAACGGGTACCCGGCGCGGGACTGTGTGGAGAGAATCAAGCCCGACGAGCAGAGAGCCTGCGAGGCTGGCCCGTGTCCTCAGTGGGTGTCCGGCAGCTGGGGAGAGTGCACGAAGCCTTGTGGGGGAGGCGTGCGGACCAGGCTGGTGGTCTGCCAGCGGGCCAGCGGCCAGCGCTTCCCGGACCTGAGCTGCGACGTCCTGGAGAAGCCCCCCGACCGTGAACAGTGCGGCGCGCACACTTGTCCCGATGGCACCTGGAGTGCTGGCCCTTGGAGCTCGTGTTCTGTCTCTTGCGGTCGAGGGCATAAGCAACGAAATGTTCACTGCATGGCAAGAGATGGAAGCCGTTTAGAGAGTGAGCACTGTGGGCACCTTGCTAAGCCGCATGGGCACAGACGGTGCCGCAGAGGACGGTGCCCCAGATGGAAGGCTGGCGCGTGGAGTCAGTGCTCTGTGTCCTGCGGCCAGGGTGTACAGCAGCGGCATGTGGCCTGTCAGGTCGGAACACAGAAAGCAGCCAGAGAGAGCGAGTGCAACTCGGTCACCAGACCAGAGGCGGAGCGTGCCTGCCCAGCCCCGCCGTGCCCCCTGCACACTTGGAGGGCAGAGCAATGGCAAGAATGCTCCAAGACCTGTGGCGAGGGCTTCCGGTTCCGCCGGGTGGTGTGCGTGGACGAGAACCAGGGCGAGGTTCACAGAGCGCTTTGCAGCTCCAGCCAGCGGCCCACAGACCGAGAGAGCTGCAGCCGGCAGCCCTGCGAGTACGTCTGGATCACGGGAGAGTGGTCGGAGTGCTCAGTGACCTGCGGGAAGGGCTACAAACAAAGGCTGGTCTCCTGCAGCGAGATTTACACCGGGAAGGAGAACTACGAGTACAGCTACCAAACCGCAGTCCACTGCCCAGGCACACAGCCCCCCAGCGCCCAGCCGTGCTACCTGCGGGAATGTCCTGTCTCGGCCACCTGGAGAGTTGGCAACTGGGGAAGCTGCTCTGTGACTTGTGGTGTCGGAGTGATGCACAGGTCCGTGCAGTGTCTGACCGACGAGGACCAGCCCAGCCGCATGTGTCCCGCTGACTCGAAACCAGAAGAACGGAAAACCTGCCACAATACTTACAACTGTGAGTTGCCCCAGAACTGCAAGGAGGTCAGAGGCCTCAGCGGAGCCAGTGAAGACAGTGAATATCTGCTGATCGTCAGAGGAAAGCTCCTGAAGATATTCTGTGCGGGAATGCAGTCCAGCCACCCCAAAGAATATGTGACCCTCGTTCATGGTGACTCTGAGAATTTCTCCGAGGTTTACGGGCACAGGTTGCACAACCCAACAGAATGCCCTTACAATGGAAGCCGCCGGGAGGACTGCCGGTGCCGGAAGGACTACACGGCCGCAGGGTTTTCCAGCTTCCAGAAAATCAGGATCGACCTGAGCAGCATGCAGATCATAACTACCGACTTACAGTTTGCGAGGACCAGTGAAGGACATCCTGTCCCTTTTGCCACCGCCGGGGACTGCTATAGTGCTGCCAAGTGTCCACAGGGTCGCTTCAGCATCAACCTCGACGGGACCGGCCTGTCCCTGACGGAGTCGGCCAGGTGGATATCGCAAGGGAATTACGCTGTCTCGGACATCAAGAAGTCCCCGGACGGCACCCGCGTGGTGGGGACGTGCGGCGGCTACTGCGGGAAGTGCACGCCCGCCTCCGGCACCGGCCTGGAGGTTCGGGTGCTGTAGCTGAGGTAAGTGCGTGCTGCGTGTGTGCTGTTCCGCCCTTCCCCGGCCCAGGGCGCGTGCGCCGGCCGGCTCGGTCGGGCCACGTGGGCGGTTCTGAAGCAGTCTCGGCGTCCACCGGAGCGCACGCACCCAGTGATAGTCAGGGGTGCGGGGCGGCTTCAGGTGGAAGAGGGAGGAGGGTTGCAGTCAGAGAGTTGCAGGACAGTGGGCCCGGGCGGGTCAGTCAATCCTGAGAGTGCCCCTGGAGACGTGTTCACACCTGATAAGATCAATCAGTGCATGCGTGCGTGTAAACTTCATGAGTGAGTGCACTTATACAGTGTTTACACATGTAAACATACGTACAGAGAAAGACTAGAAGGAGATGTACCCGATGCACCTGCATATTTGGAAACACTCTCTGGTGAGAGACTTTTGGAATCGTACTGAAGTTTTATTTCATTATTGATTACTTCCCTGAAACTTCCATGTTTCTTACAGCAAAACAAATACCTCCTGTTCAAATCTGGTCAAAATAATAGCATTATTTTAAAATTGCACATGTAAGAACATGTGGCTCTCTGACTCTTCATTTGTGGCATTTTAGTCAGAAGGCTTACATTTCCTGGTTTGCCTATTTCAGGTGGCTCTGCAGAGGAAGCCTTACGGGATGGATGAAGGATTGTGATGCAATATACCTCCGCCTTACATTGGGTGCATGTTGAGCATCCCTGATCCACAAATCTGAAGTCTGAAATGCTGCAAAACAACACAATACCACAAGTAGAAAATTCCACATCATGGAACTTTGTTTCATGAGCAAAATCATTCAAAATACTGTGTAAAATTACCTTTAGGCGGTATCAGGTGCATATGAAACATAAATGAATTTTGTCCTTAGGGTTGGATCCCATCCCCATGATATCTCATTGCATGTATGTGAATACTACAAAATATAAGAAAATCCCGACTCTGAAATACTGCTCATCCCAAGCATTTCGGATTAGGGATACTCAACCTGTGAAATATCCTAATGATGTAAAATTTAATATTTATGTTTGAAATTATTTATTGTGTTGTAATATTTTTGTACGTAAAATGATTTTATTGTGACTGCCTTTGCGCTATTTTGTCCCTTGCAGTCCAACCACTGCATTTTACGTACTCTACATTATATGTAGTCTTATGACAGAAGTGGTCCTTCATTATCATGGTACACTGTTGTTTACTTTTTATCTGTAAATGTTTTACTATTATGTTTTTTAAATCGTTTTTTTTTAAACAACCTAGCCATCATCAAGGTGCTACGAGAGTCGTACAAGGTATTCTTGGCATTCCCAGGAGCATATCATTAGCCGATAAGTAAGTTAGCGATTTCACAGATTGTACCAACTATGAATTGTGTTAAGCATCTCTTCCATGCCACGTGATCTCTGGGAAAAACGCTGCCTTGGTGCTAATTTTGTATGCATTTAAGTGATTTCCAGACTCAAAACCGTAAACACTGTTGATAGCCAGGAGGGAGGGAACACTTCCCAGTGGACACAGCCTCGGATGGAGCCGGAACTGCGGCTCACCTTTGCTTCTGGACACACCGTGCTGGAGGAGCTGGACTTCGTTCTTGCCACGTCTGTTGTCCGCGTGCCTGCGCAGCCATGTTGCCTTGGTCCCCTGCCATCCAGGGCTTCCACCCTGCTTCCTTACAGAGCAGCGCTGGGAGTGTGAGGTCACCTCATGGTTCTGTCACCAGCACATCCAGTAGCGGGACAGAGGAGCACAGCATGGCGGTGGCCTTCAGCACCCTCAGAAACCCGGAGAAGTTGAACCTCAGCTTCTGTGTCGCTGGGACAGCCTTCTCCTTGGAGATGCTGGCCAATGGCATACTTTCTCCTCAGGCTGTGAGCCTAGTACCCTGCCAGTTTTCCTGTCCTCACAGGTAGTGTGTGAAGAAACAAACTGGAGTTCAAGGTGCCTGAGTCCTTCTGATCTTCCACAAACCCACTTCTTATTACTTCTTTCCTGCACGGAAGTGCTGAAGTCATGATCTGTCTGCTGATTGGAGGGAATCCTTCCACCGGTGGCCACGGAGACACTTGGACTGAGCAACACCGTCCACTTCCAAAGACCAAAGAGATGAGGAAAACCTGGCCATACCCTCTAACTTTGAGCAAATTCCGGAGCGCTCCAGGAAAAGTAAACTCGATGTATGAATACGTGTTATTCTCCATTATTAATACATTGTGAGAACATATTACAAATAAATACCATGACCACATCCAAATTATTCGTGTTTTATGTGGCTCTGGACTCGACTTGAGGTGGAATAAGACTGTCTCAGTTTGAAGCAGGAGGATTCCAAGTTTGAGGCCAGCCTGGGCAGCTTAGCAAGACCCTGTTTCAAA

XR_206354.1 Non-coding sequence

LOC101704569 PREDICTED: Heterocephalus glaber cadherin-related family member 3-like (LOC101704569), transcript variant X4, misc_RNA.

Length: 2864 bp     

>XR_206354.1
ACTGAGCTCCTGAGAAGTCAGTGGAGCAGGAACTGGAGAGAAAGCATCTCTGCCAGGCAAGGGGCTTTCAAGTCCATCATGCCTTTGATCCCTTTGTGTTTGGTGTTGGTTGCTGCCCCAGGTGTTCTAGCATTTCTCAATTTTGCCATCGAGAATGCCAACCCTGTCCTGGAAAATGCCTCTGAGCACACTCGGGTGGCCGTGATCCGTGTGTCACTCTCACGTCACGCTTCTCTGGTTGGAGATCCTGTTATTCTTAATGCAAACCCCGTGGTCCACCCATTCGCACTGTCTCGTGGATCTACACTTCTGTGGGATTTATTCACCACTGGAGTACCCAAGCTGGACTTTGAGATGGTGGCACTCTACTCCCTGCTAATCTACGCCAGAGACAACCAAGGGGCCACTGCATCACAGACCATCTCAATTCAGATTGCAGATGTGAATGAACCGCCCACCTTCACTGGATCCCTTGCCCAGGGAGACCAAGCTGCTGAGATTTACGTCCTAGAGGACACTGCTCTGGGTGCAGTCATTTACAGAGCAGCGGCCAAGGACCCCGAGGATGCTGCTCTGGAGTACTTCCTCTCCCCGGAGGGCTCTGGCTTCGCAATCGACAGCTCCGGAACAATTTCCACAACAGCTGCGTTCGATTTTGAGAGTGAAACTAGAAGTTTTTCACTGGTTGTTAAAGCGGTTGACCCCGGAGGACTGTTCGCCACTGGAAATCTGAAGATTTTCCTCATCAATATCAACAATAAGGATCCCACTCTGACCTGCAGTTTGTTCAACATTGAGAACGCTGTCTTGAGTGTTGCATCTGTAAACTCAACTCTGCACAACAAAGTGGACCTCACGCTGGATGAAGAAATCCCAGTCGGGAAAACGATTGGAACGTGCCAGGCAAATGATGAAGATTGCTTGGGAGATTTAACCTTTGAACTTGATCCTGGGAATGTTTACTTTGCAGTCGATAAAGAGCGTGGGACCGTGGTCACTGCCACTCGCCTGGACGCAGAGAGAGCTGGGTTTGCGAGGGCCCAGTCCTTCTCCATTAAGGCTTGTGACCGTGACCAGCGGTGTGCAGCAGTTCCCGTGACCGCCTACATTCATGGCCTTAATGACAACTCGCCTTTCTGCGACCAGTATGTGATTAGGTACACAGGCAGAGAGATGATTGTAGAAGACACAGTAGTGGCAAAGCTCTCGTGTCGTGACCTTGACGACCCTCCTGATACAATCCACTATGTTCCAAGCTTGGGACCAGTTGGTTCTGGACAAATCTTTGAACAAGCACCAAATGCTGAAAACGTCATCCGGGTCACCAAAGAGCTGGATTACGAAGACCCAGAGGTGGTTGCTGTGGGCCATACTTATGAAATGACGATTTCAGTGTTTGATGACCTTCATCCCTCCCATACAGTTACTGTGACAGTCATTGTGGAGCTCGCTCCCGCCAACGACTTCAGCCCTGTGTTTAAAGCTGCACACTATTCATTCTCGGTTCCAGAGACATCAGGAGCTTTCTACAAAGTTGGAAGAGTGACTGCCACTGATGAAGACCACCCACCAAACTGTCTGACCTACAAAATTACCAATGGAGACATCGAGGCTGTACAAAAATTCTGGATTCATCCTCACTCTGGGATGATCGAACTCACCACACAGCCAGACTATGAGTCTGTGAAGCAATACAACCTCACCGTGGAAGCTGTGGACTGCGACAGAGTCCATCCACGCACAGCAGTGGCCACAGTCACGGTTGACATTGAGGATGAGAATGACGAAGCACCTGTCTGTGTGCCCTCTCTTTTCAAGGGAGTCATTTCCAACAATGTTGCTGCTGGGACAAACGTCAATGGCTTCAAACTAAGCTGTCACGACAGAGATTCGCAGGATTTCGAAATGCGCTTTGAGATAGCTTCTGGAAATGAGAACCATCATTTTGGATTTGACCCAACTCAAGGTTCAAATACTCCAAAATTAATTGTGAAGAATCCTTTTAACTTTGAACCTGGAGCTGAACGGCTGCGGCAGTACCACCTCGTGGTGCATATAGTGGATGACAATCTCAAACACGGCAGGACCACCAAGCCCAGGACGGGCACTGCTGCTATAGATATTTACGTGATCAGAGCTCCTACGCCATCCCCTCCAACCAGCTCTGAACAGAGAAAAGGCCTGACCATCGTGTACACAGCAGTCAACACGTATAGATCCGGTGCCTGGTACATCCCTTTCACCTTCACGCTGTTGGCTGTTTTCTGTGTTGGGCTCGTTTCCTGGCTGTGCTTCCTGCTTTGGAGGTATGGAAACATCATGGAGTGCTGTCAGGTCATGGCCAAGAGCGTCTCCAAGCCCATGCCCAGACAAATCTGTGAGCAAACAAGCAACCAACTCCTCGTCTTATCTTGATGCAAGATGTTTCACGGACGGACGGGTGTTTGACAGCCACTGGGCAGCAGCGCAGGGACTAGGAACGAGTCAGGTGACCTTTCTGCGCACTGAGACCGGAAGTAAGGCCAGAGGGACGGACGGGATCTTCAGCTGCTTCCGTCACCACCCAGGAAGAGCAAAGAGCATCAGGACTTCAAAAGGAGCCTTGGAATTGAACTTTTATTAATTAAGCAGAATTTATTTGTGCACAGAGAAGAGGGTCGCGGTGGTTAATGAGGCTGTTTCGTAATTTCCCAGACAACATTTCTTTTTGTCCTGGCTCAGAAAGGTGTTATAATAGTCACATGCTGAGTACTGAATGAGGTCCTGTTTGAAACGTGTTTTACCTTAATGAAGCTAATATTTTGTCCAATTTTCTTTTCATACAGAGAAATGAAATATATTGCAGGAGGTAGAGATCAAAAAGA

XR_206355.1 Non-coding sequence

LOC101706381 PREDICTED: Heterocephalus glaber uncharacterized LOC101706381 (LOC101706381), misc_RNA.

Length: 657 bp     

>XR_206355.1
AGGCGTCGGGTTGCCGCGGAGATTCAGCGCGGCGAATCAGATGGAGAACAGCAGGGGGCGCCTGGTTTGTTCATCTTGTTAACGTGAGGGAACGCCGCTTGGAGGAACGAGGACCGGCTTCGCCTCTGCTGACGCCCTGTGCTGTCAGGCTGGCTCCTCCCCAGGAGCTACTGAAAGGAAGCCCCCTGTGTTCTTAGAAGGGTACTGACCACTTTCAATAGGAATCCTAGAGCTTGGCAGATGATGAAACTGTGACTTGGATAAGGTGGAGAGCACCTCACTGATAGAGGAACGGGAGAAAGAATTCGCTGGGGAAGGAAGGAAACTCAGTCATCCATTCAACATCTGGTCAGTGTTGAGATTGCCTGGCCTGCTGGCTGCTGCAAGGTCAGAGTCTGCAAAGGGCGGATCCAGCTGATCACATGTCGAGATCGGTGTCCTCCCGTCCTGTGAGGTAGACAGACTCTTGAGCAGAATAGGATTCTCTAGCCCAGACTCCGGAGCCTTCATAACCCTGCATGTCCTGCCTTCCCACTCCCAGCCATTCTTTCTTGCCCTTCAATGGCCTCTGAGCTGGCCTCCCTTCTTCCTCTCTGTAGCCCGCTCTGCATCTAGCTGTCTGAAAGAATGAAATTACTCTCCTCCTTAAACCCTTTA

XR_206352.1 Non-coding sequence

LOC101701981 PREDICTED: Heterocephalus glaber uncharacterized LOC101701981 (LOC101701981), misc_RNA.

Length: 2773 bp     

>XR_206352.1
GGGCCGCCCAGGAGGAGGCCGACTGCGGATGCTGCCGCGCGTGGCTAGGGCCCCTGGATCTGCAGCTCCGAAACACGCGTGAGCTTCCGGGCCCCCGATCTGACAGGAGGCCCAGCAGGGCAGCCGGGCAGTTTCCGCCTGGCGAGGAAGCTTGCGAATGTCACCTGTCCTTGGCCTCTGACTGGTGTTCCTCTGTGGCCTATGGATGCTGCATTTATGTTCCTGGTTGCTCTGTGAACCCCATACTGAGACGAGTCCCCTTCTAAACATCGCCAGGGTCCAAGAGCTGTCTGATCCTCCCCAGCCCTGACTGTCTCAGCTCCAGGCAGGTGGGGACAGCGCCTGAGTGGTCAGGAGGACCCGAAAGTCCTCTGGATGGGTATCCTATCTGGTACTGGATTTTCACAGTGCCACAGAAGGGGGCAGAGAGAGGACAGAAATCTGTTCTGACCAAGCCACGGGAGCAGTCGGACAGAGAATTTGACACGAGTTCTAACAGGCTTGGGACAGAGAAAAGTATATAGTCCTTAAGACTGTGTTCCTGACTTCGCAGTGGATTCGATCAAGACTGTGGAGGAAGTAGCTGGGAACAGTAATTAGTCCGAAGATTTAGGGAGAACTGTGGCTGTAAATTCTCCATGTCTGACCCTCTGACAGTTTTTTGAAGAGTCGGTTATATGATTGCTCACGTCTAAACTCCTGGGAATTTTAGGAAAGGCACTCAGGAGAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATGCCATTTGCAAAAAATTCAAGGGTGCAATTATACCATATCCACAGCTGAACACATTTTCCTGATGCTTCATTGATTTCGTAATTTTATTTTCTCAAGAGTTCCTCAAAATAGCCATTTGTGCACATTTGTCTTTTCATCTAATTTTATTTTGATAATAGTTGGAAAACACAGCCAGATGCTTCCTTTTAAAAAATCTTCATATTGACATCAACATCAAGATTAACCCTCAGACTCCCGAAAGTCACTTGTTACTTCAGCCAGCAGTGAAGTTGGCCGACTCTTCTGACCTTGGGCGGCAGTGGGGCCTGAACCCTGGCCCGCCCACGGAGAGCTGCCGCTGAGCCCCTTTTCCACCTGGCTCCCCGGGGAACCACAAGCAGACAGACTTCCTCCTAGCGTTAAGTAACTACCCAGGCGTCAGTGGGCGCAGTGCCGTTAACTGGTCGCCCTTCACAGACAGGTGGAATTCTCCCCACATTCTTTACTGGAACCTAAATTTGGGGGTGTGCTTTCCAGAACCTTTGCTTTTTCTATCCACACACACAGAAAGTAACCATTTCTCCCTGCACCTGTTTTCCTTCTTTCTGAGCCGAGGCCTCACTGCTGTTTGTCATCCAGGGCTGGCCTCGAACTTGCAGGCCCACTGCCTCCGCCCTCTGAGTGCTGGGATGGCAGGAGTGCGCATGCTGGCCTTTTCCTGCTTTCCCGTTTTCCCTGGACCTGCATCTCCAGGAGCCCCAAGCCCGGCTGGCGGCCCGGGGCTGTGCAGCATCTCGCCTTCCCCGGGGGGAGAACGTCACTGACGCCCCTGAAAATGGCTTGTGAGGGAGACCACTTTGTTTCCATTTCCGGTCTGTAATTTGCAGATCTTTAAGAAAAAGCAGCGAAACCCCTTCCAGGACTCTGTATTCGTAGGATTTCTGCCAGAAGGATCTCAAGATCGCAGGATCCACCTGACGGGACGCAGAGAGGCTCGGGAGGAAGCGGGCGGCCGGGTGGGATCCGCCCCAGCCCCCTTCCACCACACCGAAGAGCCAGGTCCTTTGCTGCCTTGCTCAGCGCCCGCTTTTCCGGCTCCTGTCTGCCCGTCTGTCCTCTTTCTGTTTAATTCACCGCTGGTCACTTCCTGCTCGGCCCCACGTCTAATCGGAGTGTCCGGCAGCGGACCAGCAGCCCTCCTCGCTGACGCTCCGGCCCAGCGAGGAGCGCAGGCCCCAGGCAGCTCACATCCGGCACATCCCAGGGGTGAGGCGAGGCCTGAGCCCTGCCTTGGCTGGAAGAATCGGAACAGCGCTGAAGACAGCCCCATCCTCCTTTAAAAACAATTCTGTACGGTGCAGTGGTGCGTGCCTGTAACCCCAGCACCCGGGAGGCTGAGGCAGGAGGATCCTCACGAGTTCAAGGCCAGTCTGAGCTACATAGTGAGATGCTGTCTCAAAAGACCAAAAATTCTAGCATCATTGGTGGAAGATGATAATCTCATTTTGTTTTAATTTTTGACAGTATAAAGAATAATTTTCATATTTACTAGATTTGTCTTATTTAATTTCCCCTTTTGCTTCAAGCCAGTCTTTCTCGGTTGTACGCTCTTTTGCAAACCCACCTTGGCTACCCAGGGACTTTCTACTTTGAATTTCTAAAGAGCCAAAGCCAACTGCGGATGTTTACCGAGCTTGTGCTGCAAAGGAGTACAGGGGAGCGCTCCGTGCGCCCCCGTTACGCGCACCAAGCAGCCCGGGGTGCTGCTCGGAGCCCCCGGAGGAAGGCTCGGGCTGTCAGGCCTGCGGTTAGGAGCCCTGCCTCGGCTGCCCTGGGTGGAGCTGCTTCCAGCACCATCAGGGATACCGCGGGGCAGTGGAGGGGCGAGGGGTGCAGACCCCGCTGGTTCCAGCGGCCGCCCTGAGCAGGGGACCCTGGATGTTGGTACTGACAGGAGGCCCTGAGGGCTGAGCGCGCCCGGAACGGGGCAGCGCCGCGGCTCTGACCCGGGCTCACTGGCTCGCACT

XM_004871593.1 Coding sequence

LOC101698999 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 1-like, transcript variant X3

Length: 3624 bp    Location: 46080..684129   Strand: +

>XM_004871593.1
ATGTCGAAAGTGGCTCCGAAGAGGAGCCACTGGACTGGCCGGGTGCGCGAGTGCACCGTGAGGCGCGGACCGCAGGGCGAGCTGGGGCTGAGCGTGCTGGGGGGCGCGGAGCGCGGCGAGTTCCCGTACCTCGGGGCGGCCGAGCTGCCCGGCGGGGGCGCGGGCGAGCTGCTGCTGGAGGTGCAGGGCGTCCGCGTGTCCGGCTTGCCGCTCTACGACGTGCTGGGTGTCCTCGACAGCTGCCCAGAGGCCGTCACCTTCAAAGCCGTCAGACAAGGAGGAAAGCTCAACAAGGACCTGCGACATTTTCTCGGCCAACGGTTTCAGAAAGGGTCTCCTGATCATGAACTGCAGCAGACCATAAGGGACAACCTTTACCGCCGTGCTGTACCTTGCACGACCCGATCTCCCAGAGAAGGAGAGGTGCCTGGGGTAGATTACAGTTTCCTGACCGTGAAGGAGTTCTTGGACCTCGAGCAGAGTGGGGCTCTTCTGGAAGTTGGCACCTATGAAGGAAACTATTACGGGACACCCAAGCCTCCCAGCCAGCCAGTCAGGGGGAAGGTGATCACAACCGATGCCTTGCACAGTCTTCGGTCTGGCTCCAAGCAGTCGACCCCGAAGCGAACCAAGTCCTACAATGATATGCAAAGTGCTGGCATAGCCCATGCAGAGAATGAGGAGGAAGAGGATGTTCCTGAAATGAACAGTAGCTTCACAGCCGATTCTGGTGACCAGGACGAGCACACTCTGCAGGAAGCAGCACTCTCATCTGTGAATAGTAGCATCGCTGCTGCTCCCAACACGGACCCTTCTCAGAAGTTCCCTCAGTACCTACCTCTTTCTGCAGAGGATAATTTAGGTCCTCTACCTGAAAACTGGGAGATGGCCTATACGGAAAATGGAGAAGTCTACTTTATAGACCATAACACAAAAACAACATCTTGGTTAGACCCTCGGTGCCTGAGCAAGCAGCAGAAGCCTCTAGAAGAGTGTGAAGATGATGAAGGGGTCCACACCGAGGAGCTGGACAGTGAACTAGAGCTGCCTGCTGGTTGGGAGAAGATTGAAGACCCTGTCTACGGTGTCTACTATGTAGACCACATCAACAGGAAAACACAATACGAGAACCCAGTTCTTGAAGCCAAACGAAAGAAGCAGCTAGAGCAGCAGCAGCAGCAACAGCAGCCGCCACCACCAGAAGAGTGGACAGAAGAGCATTCATCCCTTGTGCCTCCTGTTATTCCAACCCACCCCCCGAGCAATCCGGAGCCGACCAGAGATGCTCCACTTCAGGGCAAACCCTTTTTCACGCGAAACCCTTCCGAGCTGAAAGGCAAGTTCATTCTCACAAAGCTTCGGAAAAGCAGTCGCGGCTTCGGCTTCACGGTGGTCGGCGGGGACGAGCCTGACGAGTTCCTCCAGATCAAGAGCTTGGTCCTAGACGGTCCTGCTGCACTGGACGGCAAGATGGAGACAGGGGATGTGATTGTCAGCGTGAACGACACCTGTGTTTTGGGCCACACGCATGCCCAAGTTGTGAAAATCTTTCAGTCCATCCCCATCGGTGCCAGCGTTGCCCTTGAGCTCTGCCGAGGCTACCCACTGCCTTTTGATCCAGACGACCCCAACACGAGTTTAGTGACCTCGGTAGCCATCTTGGACAAAGAACCCATTATTGTGAATGGGCAGGAGGCCTGTGATTCTCCAGCAAGCCACGGTAGTAAAGCTGGCAAGGTCAGCGGCGTGAAGGAGGCCAGGCCAGGCAGCCCGGCAGGCGTGGCTTCCAACGGCTCCCAGGGTTATCCCAGCGACACGGTGTCTCTGGCTTCCTCCATAGCCACTCAGCCGGAGCTCATCACAGTTCACATAGTCAAAGGGCCAATGGGCTTCGGCTTCACCATCGCGGACAGTCCTGGTGGCGGCGGGCAAAGGGTGAAGCAGATCGTGGACAGTCCCAGGTGCCGAGGCCTGAAGGAGGGGGACCTCATAGTGGAAGTTAACAAGAAGAACGTGCAGGCACTCACTCACAGCCAGGTTGTGGACCTGCTGATTGAGTGTCCCAAGGGAAGTGAGGTCACATTGCTGGTGCAACGAGGAGGGCTGCCTGTTCCCAAGAAGAGCCCCAAGTCGCAACCACTGGAGAGGAAAGACAGCCAGACCGGTTCTCAGCACAGTGTCTCCAGCCACCGGAATCTGCACACGGCATCCCCAAGCCACACCACGCAGGTGCTCCCTGAGTACCCGCCCACAGAGGCCCCCGCTGCTGATCAGACCGACAACCCTGGGCAGAAAAAGCCGGATCCTTTTAAAATCTGGGCCCAGTCTAGGAGCATGTATGAGAACCGACTTCCAGATCACCAAGAACAGGACATCTTCCTCTGGAGGAAAGAGACTGGATTCGGATTTAGAATTCTAGGTGGAAATGAGCCAGGGGAGCCCATTTATATTGGTCACATCGTACCACTGGGTGCTGCTGATGCGGACGGCCGCCTGCGGTCTGGCGACGAATTAGTCTGTGTAGATGGTACACCAGTAATTGGAAAATCACACCAGCTCGTGGTCCAGCTCATGCAGCAAGCGGCCAAGCAAGGACACGTCAACCTCACAGTGCGGCGTAAAGTGGTGTTTGCTGCGCCCAAGCCCCCGGAGCCCGAGGTGCCGTCGCCCGCGTCCTCGCAGCACAGCGGCACACAGACGGCCTCGCTGGCCGAGGGCAAGCGCACGCCGCAGGGCAGCCAGAACTCGCTGAGCACCGTGAGCTCGGGCAGCGGCAGCACCAGCGGCATCGGCAGCGGCGGCGGCGGTGGCGGCGGCGGCGTGGTGAGCACCGCCCTGCAGCCCTACGACGTGGAAATCCGGCGCGGCGACAGCGAGGGCTTCGGTTTCGTCATCGTGTCCTCGGTGAGCAGGCCCGAGGCGGGCACAGCCTTCGGCAATGCATGTGTGGCTATGCCTCACAAAATAGGTCGGATTATTGAGGGGAGCCCTGCTGACCACTGCGGCAAGCTCAAAGTGGGAGACCGGATCCTGGCAGTGAATGGCTGTTCCATCACCAACAAGTCCCACTCAGACATTGTCAACCTAATCAAGGAAGCAGGAAACACAGTGACGCTGCGCATCATTCCCGGGGACGAGTCCTCCAATGCCACCTTGTTGACCAACGCGGAGAAGATCGCCACCATCACCAGCACACACAGTCCTGCTCAGCAGGGGCCCCAGGAGCCCAGGAATACCACCAAACCAAAGCCAGAATCTCAGTTTGAGTTCAAAGCAGCCCAGGCCACACAGGAGCAAGATTTTTACACTGTGGAACTGGAAAGAGGAGCCAAGGGGTTTGGCTTTAGTCTTCGAGGAGGTCGAGAGTACAACATGGACCTGTATGTTCTGCGTTTGGCAGAGGACGGGCCTGCAGAAAGGTGTGGAAAGATGAGGATTGGTGATGAAATTCTAGAGATCAATGGTGAGACCACCAAAAACATGAAGCATTCTCGGGCCATAGAACTGATTAAGAGTGGTGGCCGCAGAGTTCGTCTGTTTCTCAGGCGGGGCGACGGCTCGGTCCCGGAATATGGTGGGTCAAACTTTGAAAACATTCCTTCCTTCCCTGGCATGACCCCGTGA

XM_004871592.1 Coding sequence

LOC101698999 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 1-like, transcript variant X2

Length: 3588 bp    Location: 46080..684129   Strand: +

>XM_004871592.1
ATGTCGAAAGTGGCTCCGAAGAGGAGCCACTGGACTGGCCGGGTGCGCGAGTGCACCGTGAGGCGCGGACCGCAGGGCGAGCTGGGGCTGAGCGTGCTGGGGGGCGCGGAGCGCGGCGAGTTCCCGTACCTCGGGGCGGCCGAGCTGCCCGGCGGGGGCGCGGGCGAGCTGCTGCTGGAGGTGCAGGGCGTCCGCGTGTCCGGCTTGCCGCTCTACGACGTGCTGGGTGTCCTCGACAGCTGCCCAGAGGCCGTCACCTTCAAAGCCGTCAGACAAGGAGGAAAGCTCAACAAGGACCTGCGACATTTTCTCGGCCAACGGTTTCAGAAAGGGTCTCCTGATCATGAACTGCAGCAGACCATAAGGGACAACCTTTACCGCCGTGCTGTACCTTGCACGACCCGATCTCCCAGAGAAGGAGAGGTGCCTGGGGTAGATTACAGTTTCCTGACCGTGAAGGAGTTCTTGGACCTCGAGCAGAGTGGGGCTCTTCTGGAAGTTGGCACCTATGAAGGAAACTATTACGGGACACCCAAGCCTCCCAGCCAGCCAGTCAGGGGGAAGGTGATCACAACCGATGCCTTGCACAGTCTTCGGTCTGGCTCCAAGCAGTCGACCCCGAAGCGAACCAAGTCCTACAATGATATGCAAAGTGCTGGCATAGCCCATGCAGAGAATGAGGAGGAAGAGGATGTTCCTGAAATGAACAGTAGCTTCACAGCCGATTCTGGTGACCAGGACGAGCACACTCTGCAGGAAGCAGCACTCTCATCTGTGAATAGTAGCATCGCTGCTGCTCCCAACACGGACCCTTCTCAGAAGTTCCCTCAGTACCTACCTCTTTCTGCAGAGGATAATTTAGGTCCTCTACCTGAAAACTGGGAGATGGCCTATACGGAAAATGGAGAAGTCTACTTTATAGACCATAACACAAAAACAACATCTTGGTTAGACCCTCGGTGCCTGAGCAAGCAGCAGAAGCCTCTAGAAGAGTGTGAAGATGATGAGCTGCCTGCTGGTTGGGAGAAGATTGAAGACCCTGTCTACGGTGTCTACTATGTAGACCACATCAACAGGAAAACACAATACGAGAACCCAGTTCTTGAAGCCAAACGAAAGAAGCAGCTAGAGCAGCAGCAGCAGCAACAGCAGCCGCCACCACCAGAAGAGTGGACAGAAGAGCATTCATCCCTTGTGCCTCCTGTTATTCCAACCCACCCCCCGAGCAATCCGGAGCCGACCAGAGATGCTCCACTTCAGGGCAAACCCTTTTTCACGCGAAACCCTTCCGAGCTGAAAGGCAAGTTCATTCTCACAAAGCTTCGGAAAAGCAGTCGCGGCTTCGGCTTCACGGTGGTCGGCGGGGACGAGCCTGACGAGTTCCTCCAGATCAAGAGCTTGGTCCTAGACGGTCCTGCTGCACTGGACGGCAAGATGGAGACAGGGGATGTGATTGTCAGCGTGAACGACACCTGTGTTTTGGGCCACACGCATGCCCAAGTTGTGAAAATCTTTCAGTCCATCCCCATCGGTGCCAGCGTTGCCCTTGAGCTCTGCCGAGGCTACCCACTGCCTTTTGATCCAGACGACCCCAACACGAGTTTAGTGACCTCGGTAGCCATCTTGGACAAAGAACCCATTATTGTGAATGGGCAGGAGGCCTGTGATTCTCCAGCAAGCCACGGTAGTAAAGCTGGCAAGGTCAGCGGCGTGAAGGAGGCCAGGCCAGGCAGCCCGGCAGGCGTGGCTTCCAACGGCTCCCAGGGTTATCCCAGCGACACGGTGTCTCTGGCTTCCTCCATAGCCACTCAGCCGGAGCTCATCACAGTTCACATAGTCAAAGGGCCAATGGGCTTCGGCTTCACCATCGCGGACAGTCCTGGTGGCGGCGGGCAAAGGGTGAAGCAGATCGTGGACAGTCCCAGGTGCCGAGGCCTGAAGGAGGGGGACCTCATAGTGGAAGTTAACAAGAAGAACGTGCAGGCACTCACTCACAGCCAGGTTGTGGACCTGCTGATTGAGTGTCCCAAGGGAAGTGAGGTCACATTGCTGGTGCAACGAGGAGGGCTGCCTGTTCCCAAGAAGAGCCCCAAGTCGCAACCACTGGAGAGGAAAGACAGCCAGACCGGTTCTCAGCACAGTGTCTCCAGCCACCGGAATCTGCACACGGCATCCCCAAGCCACACCACGCAGGTGCTCCCTGAGTACCCGCCCACAGAGGCCCCCGCTGCTGATCAGACCGACAACCCTGGGCAGAAAAAGCCGGATCCTTTTAAAATCTGGGCCCAGTCTAGGAGCATGTATGAGAACCGACTTCCAGATCACCAAGAACAGGACATCTTCCTCTGGAGGAAAGAGACTGGATTCGGATTTAGAATTCTAGGTGGAAATGAGCCAGGGGAGCCCATTTATATTGGTCACATCGTACCACTGGGTGCTGCTGATGCGGACGGCCGCCTGCGGTCTGGCGACGAATTAGTCTGTGTAGATGGTACACCAGTAATTGGAAAATCACACCAGCTCGTGGTCCAGCTCATGCAGCAAGCGGCCAAGCAAGGACACGTCAACCTCACAGTGCGGCGTAAAGTGGTGTTTGCTGCGCCCAAGCCCCCGGAGCCCGAGGTGCCGTCGCCCGCGTCCTCGCAGCACAGCGGCACACAGACGGCCTCGCTGGCCGAGGGCAAGCGCACGCCGCAGGGCAGCCAGAACTCGCTGAGCACCGTGAGCTCGGGCAGCGGCAGCACCAGCGGCATCGGCAGCGGCGGCGGCGGTGGCGGCGGCGGCGTGGTGAGCACCGCCCTGCAGCCCTACGACGTGGAAATCCGGCGCGGCGACAGCGAGGGCTTCGGTTTCGTCATCGTGTCCTCGGTGAGCAGGCCCGAGGCGGGCACAGCCTTCGGCAATGCATGTGTGGCTATGCCTCACAAAATAGGTCGGATTATTGAGGGGAGCCCTGCTGACCACTGCGGCAAGCTCAAAGTGGGAGACCGGATCCTGGCAGTGAATGGCTGTTCCATCACCAACAAGTCCCACTCAGACATTGTCAACCTAATCAAGGAAGCAGGAAACACAGTGACGCTGCGCATCATTCCCGGGGACGAGTCCTCCAATGCCACCTTGTTGACCAACGCGGAGAAGATCGCCACCATCACCAGCACACACAGTCCTGCTCAGCAGGGGCCCCAGGAGCCCAGGAATACCACCAAACCAAAGCCAGAATCTCAGTTTGAGTTCAAAGCAGCCCAGGCCACACAGGAGCAAGATTTTTACACTGTGGAACTGGAAAGAGGAGCCAAGGGGTTTGGCTTTAGTCTTCGAGGAGGTCGAGAGTACAACATGGACCTGTATGTTCTGCGTTTGGCAGAGGACGGGCCTGCAGAAAGGTGTGGAAAGATGAGGATTGGTGATGAAATTCTAGAGATCAATGGTGAGACCACCAAAAACATGAAGCATTCTCGGGCCATAGAACTGATTAAGAGTGGTGGCCGCAGAGTTCGTCTGTTTCTCAGGCGGGGCGACGGCTCGGTCCCGGAATATGGTGGGTCAAACTTTGAAAACATTCCTTCCTTCCCTGGCATGACCCCGTGA

XM_004871594.1 Coding sequence

Adamts9 ADAM metallopeptidase with thrombospondin type 1 motif, 9, transcript variant X1

Length: 5826 bp    Location: 1333714..1474897   Strand: +

>XM_004871594.1
ATGCAGTTGGTACCCTGGGTCGCACTGCTAGCGCTTGTGGTGCGGGGCCCGGCCGGGATGCGGAGCCTGGACGCCGCGGCCGCCGTGCGCAAGGACAGGCTGCACCCGAGGCAAGCCAAACTACTGGAGACCCTGAGCGAGTATGAAATCGCGTCTCCCGTGCGAGTGGGCGCGGGCGGAGAACCTCTTCCCACGGACGTGCACTTCCGAAGAAGGCGGCGGAGCGCGGCCCCGGCCCCGGCCCCGGCCACTGAGCCCCGGCCTGCCTCCGCCTCCCCCTCTGCCTCCACGTCCTCCTCTACCTCCTCGCAGGAGCATTACCGCCTCTCCGCCTTCGGCCAACACTTTCTGTTTAACCTCACCGCCCAGGCCGGATTTATCGCTCCACTGTTCACTGTCACTCTCCTCGGGGCGCCGGGGGTGAACCAGACTAAGTTTTATTCCGAGGAGGAAACGGAGCTCCAACACTGTTTCTACACTGGCCACGTCAACGCCGAGACGGCGCACACGGCCGTGCTCAGCCTCTGCTCGGGAATGCTGGGCACATTCCAGTCCCATGATGGAGATTATTTTATTGAACCACTATTGTCCATGGATGAACAAGAGAAGAAAGAGGAGCAAAACAAACCCCACATTATTTATAGGCGCAGCATCCCTCAGCAGGAGCCCTCAGCAGGAAAGCATGCCTGTGGCACCTCAGGACATAGAAGCAGCCGCAGGAAAAACAGGAGGAAAGGCAGCAGGAGGAAGTGGGGAGCGACGATCCACCCGGCGGGCGACGTGGCAGCCCTGCACAGTGGGTCGGCAGCTGAGCCGCCCGCTGCACTGGGGAACCGGACCGATGGCCTGAGGGACAGGGGGACACGAAGGAGGACCAAGCGCTTCTTGTCCTACCCCCGCTTTGTGGAGGTGATGGTGGTGGCGGACAACAAGATGCTTCTGTACCACGGAGCGAACCTTCAGCACTATGTTTTGACCTTGATGGCCATTGTAGCCTCTATCTATAAAGACCCCAGTATTGGAAATTTAATTAATATTGTTATTGTGAACTTAGTTGTGATTCATGATGAACAGGAAGGACCTCCCATATCTTTTAATGCCCAGACAACATTAAAAAACTTCTGCCAGTGGCAGCATTCGAAGAACTACCCAGGTGGGATCCAGCACGATACTGCTGTGCTCATTACGAGGCAAGACATCTGCAGAGCTCACGACAAGTGCGACACCTTAGGTCTTGCTGAACTGGGAACCATTTGTGATCCCTACAGGAGCTGCTCTATTAGCGAAGACAGTGGGTTGAGTACAGCTTTTACAATTGCCCATGAACTGGGCCATGTGTTTAACATGCCTCACGACGACAGCAATAAGTGTAGAGAAGAGGGCGTGAAGAACACCCAGCACGTCATGGCGCCGACCCTGACGGTCGACACCAACCCCTGGATATGGTCAAAGTGCAGTCGAAAATACATCACTGAATTTTTAGACACTGGATACGGTGAATGTTTGCTTAATGAACCTGAATCCAGACCCTACTCTCTGCCTTCCCAACTGCCGGGCCTCTTTTACAGCGTGAATAAACAATGTGAATTCATTTTCGGACCAGGAGCTGAGTTGTGCCCGTACATGCAGGTGCAGTGTAGACGGCTGTGGTGCAACGTGAAGAGAAAGGATCAAAGCTGCCAGACGCAGCACACGCCCTGGGCTGACGGGACGGAGTGTGAGCCCGGAAAGCACTGCAAGTTTGGGTTTTGTGTTCCCAAAGAAATGGAGGGCCCAGCGGTTGACGGATCCTGGGGAAGCTGGAGTCCCTATGGCACCTGCTCCAGAACATGCGGCGGGGGCATCAAAACGGCCATTCGCGAGTGCGACCAACCAGAGCCAAGACATGGTGGGAAATACTGTGTAGGACGCAGAATGAAATTTAAGTCCTGCAGCCTGGAGCCGTGTCTCAAGCAGAAGCAGGACTTCCGGGACGAACAGTGTGCTCACTTTGACGGGAAGCACTTTAACATCAACGGGCTGCTGCCCACCGTGCGCTGGGTCCCCAAGTACAGCGGAATCTTGATGAAGGACCGGTGCAAGTTGTTCTGCAGAGTGGCTGGGAGCACGGCCTACTATCAGCTCCGGGACAGAGTGGTGGATGGGACTCCTTGTGGCCAGGATACGAATGATATCTGTGTCCAAGGCCTTTGCCGGCAAGCTGGATGCGATCATGTTTTAAACTCAAAAGCCCGGCGAGATAAGTGTGGAGTGTGTGGTGGTGATAATTCTTCATGCAGAACTGTGGCAGGAACCTTTAATGCCGTGCATTACGGTTACAATACCGTGGTCCGAATTCCAGCTGGTGCTACCAGTATTGATGTGCGGCAGCACAGCTTCTCAGGGAAATCCGAGGATGACAACTACTTAGCTTTGTCAAGCAGTAAAGGGGAATTCTTGCTAAACGGGGACTTCGTTGTCACAATGTCCAAAAAGGAAATCCGAATCGGGAAGGCGATGATTGAGTACAGCGGCTCTGACAACATAGTGGAGAGAATTAACTCCACCGACCGCATTGACCAAGAGCTTGTGCTTCAGGTGCTGTCAGTGGGGAAGCTATACAACCCCGATGTGCGCTACTCGTTCAACGTCCCGATTGAAGGCAGACTGCAGCAGTTCTACTGGAATAGCCGTGGGCCCTGGCAGGCCTGCAGCAAGCCCTGCCAAGGGGTGCGGAGACGGAAGCCTGTTTGCACCAGGGAATCCGACCAGCTTCCTGTCTCTGATCAGAGATGTGATCGGCTGCCCCAGCCAGAGCCCATCACAGAGGCCTGCGGTACGGACTGTGACCTGAGGTGGCACGTGGGTGGCAGGAGCGAATGCAGTGCCCAGTGTGGGCTGGGCTACCGCACGCTGGACGTCTACTGTGCCAGGTACAGCAGGCTGGATGGGAAGACGGAGAAGGTGGACGACAGTTTTTGCAGCAGTCACCCCAAACCAAACAACCAGGAAAAGTGCTCGGGCGAATGTAACACAGGGGGCTGGCGCTACTCGGCCTGGACTGAATGTTCTAAAAGCTGTGACGGCGGAAGCCAGAGGAGACGGGCTATCTGTGTAAACTCCCAAAATGACGTCCTAGATGACAACAAATGCACCCACCAGGAAAAAGTCACCACTCAGAGATGCAACGAGTTCCCCTGTCCACAGTGGCAGTCTGGAGACTGGTCAGAGTGCTTGGTCACCTGCGGGAAGGGCCACAGGCACCGGCAGGTCTGGTGTCAGTTCGGTGAAGATCGAGTGAGTGATAAAATCTGCGACCCCCAGGCCAAGCCGGCTTCCATGCAGCCCTGTCAGCAGTCGGAATGCGCATCCTGGCAGGCTGGTCCCTGGGGACAGTGCAGTGTCACCTGTGGCCAGGGCTACCAGCTGAGAGCAGTGAAATGTGTCCTGGGGACCTACATGGCAGTGGTGGACGACAGTGGCTGCAGTGCAGGCACGAGACCGACCGACACCCAGGACTGTGAAGTGTCGCCTTGTCAGCCTCCCCCGGTGGCCCCGGAAGCCAGAAGCCCCCACGGCGGGCGGAGGACGCAGTGGCGCTTTGGGTCTTGGACATCATGCTCAGCCACCTGTGGAAAAGGCACCCGCATGAGGTACGTCAGCTGCCGGGGCGAGGACGGCTCTGTCGCCGACGAGAGCGCCTGTGCCAGCCTGCCCAGACCCGAGGCCCGGGAGGGCTGCTCGGTGACGCCTTGCGGGCAGTGGAAGGCTTCCGACTGGAGCGCGTGCTCCGTGACGTGTGGCCAAGGGAGGGCAACGCGGCAAGTGGTGTGTGTCAACTACAGTGACCACGTCGTCGGCCAGAGCGAGTGCGACCTGGATTACATCCCCGAGACCGACCAGGACTGCTCCATGGCGCCGTGCCCCCGGTGGGGCCCCGACAGAGGCTGGGCTGCTTCGCACCCTTTCCAAAACGAGGACTTCCGGCCCAGGGGCGCCGGGCCAAGCCGCACCCACGTGCTGAGCGGAAACCAGTGGAGAACGGGCCCCTGGGGAGCGTGTTCCAGCACGTGCGCAGGTGGCTCCCAGCGGCGGGTTGTGGTGTGTCAGGATGAGAACGGGTACCCGGCGCGGGACTGTGTGGAGAGAATCAAGCCCGACGAGCAGAGAGCCTGCGAGGCTGGCCCGTGTCCTCAGTGGGTGTCCGGCAGCTGGGGAGAGTGCACGAAGCCTTGTGGGGGAGGCGTGCGGACCAGGCTGGTGGTCTGCCAGCGGGCCAGCGGCCAGCGCTTCCCGGACCTGAGCTGCGACGTCCTGGAGAAGCCCCCCGACCGTGAACAGTGCGGCGCGCACACTTGTCCCGATGGCACCTGGAGTGCTGGCCCTTGGAGCTCGTGTTCTGTCTCTTGCGGTCGAGGGCATAAGCAACGAAATGTTCACTGCATGGCAAGAGATGGAAGCCGTTTAGAGAGTGAGCACTGTGGGCACCTTGCTAAGCCGCATGGGCACAGACGGTGCCGCAGAGGACGGTGCCCCAGATGGAAGGCTGGCGCGTGGAGTCAGTGCTCTGTGTCCTGCGGCCAGGGTGTACAGCAGCGGCATGTGGCCTGTCAGGTCGGAACACAGAAAGCAGCCAGAGAGAGCGAGTGCAACTCGGTCACCAGACCAGAGGCGGAGCGTGCCTGCCCAGCCCCGCCGTGCCCCCTGCACACTTGGAGGGCAGAGCAATGGCAAGAATGCTCCAAGACCTGTGGCGAGGGCTTCCGGTTCCGCCGGGTGGTGTGCGTGGACGAGAACCAGGGCGAGGTTCACAGAGCGCTTTGCAGCTCCAGCCAGCGGCCCACAGACCGAGAGAGCTGCAGCCGGCAGCCCTGCGAGTACGTCTGGATCACGGGAGAGTGGTCGGAGTGCTCAGTGACCTGCGGGAAGGGCTACAAACAAAGGCTGGTCTCCTGCAGCGAGATTTACACCGGGAAGGAGAACTACGAGTACAGCTACCAAACCGCAGTCCACTGCCCAGGCACACAGCCCCCCAGCGCCCAGCCGTGCTACCTGCGGGAATGTCCTGTCTCGGCCACCTGGAGAGTTGGCAACTGGGGAAGCTGCTCTGTGACTTGTGGTGTCGGAGTGATGCACAGGTCCGTGCAGTGTCTGACCGACGAGGACCAGCCCAGCCGCATGTGTCCCGCTGACTCGAAACCAGAAGAACGGAAAACCTGCCACAATACTTACAACTGTGAGTTGCCCCAGAACTGCAAGGAGGTCAGAGGCCTCAGCGGAGCCAGTGAAGACAGTGAATATCTGCTGATCGTCAGAGGAAAGCTCCTGAAGATATTCTGTGCGGGAATGCAGTCCAGCCACCCCAAAGAATATGTGACCCTCGTTCATGGTGACTCTGAGAATTTCTCCGAGGTTTACGGGCACAGGTTGCACAACCCAACAGAATGCCCTTACAATGGAAGCCGCCGGGAGGACTGCCGGTGCCGGAAGGACTACACGGCCGCAGGGTTTTCCAGCTTCCAGAAAATCAGGATCGACCTGAGCAGCATGCAGATCATAACTACCGACTTACAGTTTGCGAGGACCAGTGAAGGACATCCTGTCCCTTTTGCCACCGCCGGGGACTGCTATAGTGCTGCCAAGTGTCCACAGGGTCGCTTCAGCATCAACCTCGACGGGACCGGCCTGTCCCTGACGGAGTCGGCCAGGTGGATATCGCAAGGGAATTACGCTGTCTCGGACATCAAGAAGTCCCCGGACGGCACCCGCGTGGTGGGGACGTGCGGCGGCTACTGCGGGAAGTGCACGCCCGCCTCCGGCACCGGCCTGGAGGTTCGGGTGCTGTAG

XM_004871595.1 Coding sequence

Adamts9 ADAM metallopeptidase with thrombospondin type 1 motif, 9, transcript variant X2

Length: 5826 bp    Location: 1333714..1474897   Strand: +

>XM_004871595.1
ATGCAGTTGGTACCCTGGGTCGCACTGCTAGCGCTTGTGGTGCGGGGCCCGGCCGGGATGCGGAGCCTGGACGCCGCGGCCGCCGTGCGCAAGGACAGGCTGCACCCGAGGCAAGCCAAACTACTGGAGACCCTGAGCGAGTATGAAATCGCGTCTCCCGTGCGAGTGGGCGCGGGCGGAGAACCTCTTCCCACGGACGTGCACTTCCGAAGAAGGCGGCGGAGCGCGGCCCCGGCCCCGGCCCCGGCCACTGAGCCCCGGCCTGCCTCCGCCTCCCCCTCTGCCTCCACGTCCTCCTCTACCTCCTCGCAGGAGCATTACCGCCTCTCCGCCTTCGGCCAACACTTTCTGTTTAACCTCACCGCCCAGGCCGGATTTATCGCTCCACTGTTCACTGTCACTCTCCTCGGGGCGCCGGGGGTGAACCAGACTAAGTTTTATTCCGAGGAGGAAACGGAGCTCCAACACTGTTTCTACACTGGCCACGTCAACGCCGAGACGGCGCACACGGCCGTGCTCAGCCTCTGCTCGGGAATGCTGGGCACATTCCAGTCCCATGATGGAGATTATTTTATTGAACCACTATTGTCCATGGATGAACAAGAGAAGAAAGAGGAGCAAAACAAACCCCACATTATTTATAGGCGCAGCATCCCTCAGCAGGAGCCCTCAGCAGGAAAGCATGCCTGTGGCACCTCAGGACATAGAAGCAGCCGCAGGAAAAACAGGAGGAAAGGCAGCAGGAGGAAGTGGGGAGCGACGATCCACCCGGCGGGCGACGTGGCAGCCCTGCACAGTGGGTCGGCAGCTGAGCCGCCCGCTGCACTGGGGAACCGGACCGATGGCCTGAGGGACAGGGGGACACGAAGGAGGACCAAGCGCTTCTTGTCCTACCCCCGCTTTGTGGAGGTGATGGTGGTGGCGGACAACAAGATGCTTCTGTACCACGGAGCGAACCTTCAGCACTATGTTTTGACCTTGATGGCCATTGTAGCCTCTATCTATAAAGACCCCAGTATTGGAAATTTAATTAATATTGTTATTGTGAACTTAGTTGTGATTCATGATGAACAGGAAGGACCTCCCATATCTTTTAATGCCCAGACAACATTAAAAAACTTCTGCCAGTGGCAGCATTCGAAGAACTACCCAGGTGGGATCCAGCACGATACTGCTGTGCTCATTACGAGGCAAGACATCTGCAGAGCTCACGACAAGTGCGACACCTTAGGTCTTGCTGAACTGGGAACCATTTGTGATCCCTACAGGAGCTGCTCTATTAGCGAAGACAGTGGGTTGAGTACAGCTTTTACAATTGCCCATGAACTGGGCCATGTGTTTAACATGCCTCACGACGACAGCAATAAGTGTAGAGAAGAGGGCGTGAAGAACACCCAGCACGTCATGGCGCCGACCCTGACGGTCGACACCAACCCCTGGATATGGTCAAAGTGCAGTCGAAAATACATCACTGAATTTTTAGACACTGGATACGGTGAATGTTTGCTTAATGAACCTGAATCCAGACCCTACTCTCTGCCTTCCCAACTGCCGGGCCTCTTTTACAGCGTGAATAAACAATGTGAATTCATTTTCGGACCAGGAGCTGAGTTGTGCCCGTACATGCAGGTGCAGTGTAGACGGCTGTGGTGCAACGTGAAGAGAAAGGATCAAAGCTGCCAGACGCAGCACACGCCCTGGGCTGACGGGACGGAGTGTGAGCCCGGAAAGCACTGCAAGTTTGGGTTTTGTGTTCCCAAAGAAATGGAGGGCCCAGCGGTTGACGGATCCTGGGGAAGCTGGAGTCCCTATGGCACCTGCTCCAGAACATGCGGCGGGGGCATCAAAACGGCCATTCGCGAGTGCGACCAACCAGAGCCAAGACATGGTGGGAAATACTGTGTAGGACGCAGAATGAAATTTAAGTCCTGCAGCCTGGAGCCGTGTCTCAAGCAGAAGCAGGACTTCCGGGACGAACAGTGTGCTCACTTTGACGGGAAGCACTTTAACATCAACGGGCTGCTGCCCACCGTGCGCTGGGTCCCCAAGTACAGCGGAATCTTGATGAAGGACCGGTGCAAGTTGTTCTGCAGAGTGGCTGGGAGCACGGCCTACTATCAGCTCCGGGACAGAGTGGTGGATGGGACTCCTTGTGGCCAGGATACGAATGATATCTGTGTCCAAGGCCTTTGCCGGCAAGCTGGATGCGATCATGTTTTAAACTCAAAAGCCCGGCGAGATAAGTGTGGAGTGTGTGGTGGTGATAATTCTTCATGCAGAACTGTGGCAGGAACCTTTAATGCCGTGCATTACGGTTACAATACCGTGGTCCGAATTCCAGCTGGTGCTACCAGTATTGATGTGCGGCAGCACAGCTTCTCAGGGAAATCCGAGGATGACAACTACTTAGCTTTGTCAAGCAGTAAAGGGGAATTCTTGCTAAACGGGGACTTCGTTGTCACAATGTCCAAAAAGGAAATCCGAATCGGGAAGGCGATGATTGAGTACAGCGGCTCTGACAACATAGTGGAGAGAATTAACTCCACCGACCGCATTGACCAAGAGCTTGTGCTTCAGGTGCTGTCAGTGGGGAAGCTATACAACCCCGATGTGCGCTACTCGTTCAACGTCCCGATTGAAGGCAGACTGCAGCAGTTCTACTGGAATAGCCGTGGGCCCTGGCAGGCCTGCAGCAAGCCCTGCCAAGGGGTGCGGAGACGGAAGCCTGTTTGCACCAGGGAATCCGACCAGCTTCCTGTCTCTGATCAGAGATGTGATCGGCTGCCCCAGCCAGAGCCCATCACAGAGGCCTGCGGTACGGACTGTGACCTGAGGTGGCACGTGGGTGGCAGGAGCGAATGCAGTGCCCAGTGTGGGCTGGGCTACCGCACGCTGGACGTCTACTGTGCCAGGTACAGCAGGCTGGATGGGAAGACGGAGAAGGTGGACGACAGTTTTTGCAGCAGTCACCCCAAACCAAACAACCAGGAAAAGTGCTCGGGCGAATGTAACACAGGGGGCTGGCGCTACTCGGCCTGGACTGAATGTTCTAAAAGCTGTGACGGCGGAAGCCAGAGGAGACGGGCTATCTGTGTAAACTCCCAAAATGACGTCCTAGATGACAACAAATGCACCCACCAGGAAAAAGTCACCACTCAGAGATGCAACGAGTTCCCCTGTCCACAGTGGCAGTCTGGAGACTGGTCAGAGTGCTTGGTCACCTGCGGGAAGGGCCACAGGCACCGGCAGGTCTGGTGTCAGTTCGGTGAAGATCGAGTGAGTGATAAAATCTGCGACCCCCAGGCCAAGCCGGCTTCCATGCAGCCCTGTCAGCAGTCGGAATGCGCATCCTGGCAGGCTGGTCCCTGGGGACAGTGCAGTGTCACCTGTGGCCAGGGCTACCAGCTGAGAGCAGTGAAATGTGTCCTGGGGACCTACATGGCAGTGGTGGACGACAGTGGCTGCAGTGCAGGCACGAGACCGACCGACACCCAGGACTGTGAAGTGTCGCCTTGTCAGCCTCCCCCGGTGGCCCCGGAAGCCAGAAGCCCCCACGGCGGGCGGAGGACGCAGTGGCGCTTTGGGTCTTGGACATCATGCTCAGCCACCTGTGGAAAAGGCACCCGCATGAGGTACGTCAGCTGCCGGGGCGAGGACGGCTCTGTCGCCGACGAGAGCGCCTGTGCCAGCCTGCCCAGACCCGAGGCCCGGGAGGGCTGCTCGGTGACGCCTTGCGGGCAGTGGAAGGCTTCCGACTGGAGCGCGTGCTCCGTGACGTGTGGCCAAGGGAGGGCAACGCGGCAAGTGGTGTGTGTCAACTACAGTGACCACGTCGTCGGCCAGAGCGAGTGCGACCTGGATTACATCCCCGAGACCGACCAGGACTGCTCCATGGCGCCGTGCCCCCGGTGGGGCCCCGACAGAGGCTGGGCTGCTTCGCACCCTTTCCAAAACGAGGACTTCCGGCCCAGGGGCGCCGGGCCAAGCCGCACCCACGTGCTGAGCGGAAACCAGTGGAGAACGGGCCCCTGGGGAGCGTGTTCCAGCACGTGCGCAGGTGGCTCCCAGCGGCGGGTTGTGGTGTGTCAGGATGAGAACGGGTACCCGGCGCGGGACTGTGTGGAGAGAATCAAGCCCGACGAGCAGAGAGCCTGCGAGGCTGGCCCGTGTCCTCAGTGGGTGTCCGGCAGCTGGGGAGAGTGCACGAAGCCTTGTGGGGGAGGCGTGCGGACCAGGCTGGTGGTCTGCCAGCGGGCCAGCGGCCAGCGCTTCCCGGACCTGAGCTGCGACGTCCTGGAGAAGCCCCCCGACCGTGAACAGTGCGGCGCGCACACTTGTCCCGATGGCACCTGGAGTGCTGGCCCTTGGAGCTCGTGTTCTGTCTCTTGCGGTCGAGGGCATAAGCAACGAAATGTTCACTGCATGGCAAGAGATGGAAGCCGTTTAGAGAGTGAGCACTGTGGGCACCTTGCTAAGCCGCATGGGCACAGACGGTGCCGCAGAGGACGGTGCCCCAGATGGAAGGCTGGCGCGTGGAGTCAGTGCTCTGTGTCCTGCGGCCAGGGTGTACAGCAGCGGCATGTGGCCTGTCAGGTCGGAACACAGAAAGCAGCCAGAGAGAGCGAGTGCAACTCGGTCACCAGACCAGAGGCGGAGCGTGCCTGCCCAGCCCCGCCGTGCCCCCTGCACACTTGGAGGGCAGAGCAATGGCAAGAATGCTCCAAGACCTGTGGCGAGGGCTTCCGGTTCCGCCGGGTGGTGTGCGTGGACGAGAACCAGGGCGAGGTTCACAGAGCGCTTTGCAGCTCCAGCCAGCGGCCCACAGACCGAGAGAGCTGCAGCCGGCAGCCCTGCGAGTACGTCTGGATCACGGGAGAGTGGTCGGAGTGCTCAGTGACCTGCGGGAAGGGCTACAAACAAAGGCTGGTCTCCTGCAGCGAGATTTACACCGGGAAGGAGAACTACGAGTACAGCTACCAAACCGCAGTCCACTGCCCAGGCACACAGCCCCCCAGCGCCCAGCCGTGCTACCTGCGGGAATGTCCTGTCTCGGCCACCTGGAGAGTTGGCAACTGGGGAAGCTGCTCTGTGACTTGTGGTGTCGGAGTGATGCACAGGTCCGTGCAGTGTCTGACCGACGAGGACCAGCCCAGCCGCATGTGTCCCGCTGACTCGAAACCAGAAGAACGGAAAACCTGCCACAATACTTACAACTGTGAGTTGCCCCAGAACTGCAAGGAGGTCAGAGGCCTCAGCGGAGCCAGTGAAGACAGTGAATATCTGCTGATCGTCAGAGGAAAGCTCCTGAAGATATTCTGTGCGGGAATGCAGTCCAGCCACCCCAAAGAATATGTGACCCTCGTTCATGGTGACTCTGAGAATTTCTCCGAGGTTTACGGGCACAGGTTGCACAACCCAACAGAATGCCCTTACAATGGAAGCCGCCGGGAGGACTGCCGGTGCCGGAAGGACTACACGGCCGCAGGGTTTTCCAGCTTCCAGAAAATCAGGATCGACCTGAGCAGCATGCAGATCATAACTACCGACTTACAGTTTGCGAGGACCAGTGAAGGACATCCTGTCCCTTTTGCCACCGCCGGGGACTGCTATAGTGCTGCCAAGTGTCCACAGGGTCGCTTCAGCATCAACCTCGACGGGACCGGCCTGTCCCTGACGGAGTCGGCCAGGTGGATATCGCAAGGGAATTACGCTGTCTCGGACATCAAGAAGTCCCCGGACGGCACCCGCGTGGTGGGGACGTGCGGCGGCTACTGCGGGAAGTGCACGCCCGCCTCCGGCACCGGCCTGGAGGTTCGGGTGCTGTAG

XM_004871596.1 Coding sequence

Adamts9 ADAM metallopeptidase with thrombospondin type 1 motif, 9, transcript variant X3

Length: 5823 bp    Location: 1333714..1474897   Strand: +

>XM_004871596.1
ATGCAGTTGGTACCCTGGGTCGCACTGCTAGCGCTTGTGGTGCGGGGCCCGGCCGGGATGCGGAGCCTGGACGCCGCGGCCGCCGTGCGCAAGGACAGGCTGCACCCGAGGCAAGCCAAACTACTGGAGACCCTGAGCGAGTATGAAATCGCGTCTCCCGTGCGAGTGGGCGCGGGCGGAGAACCTCTTCCCACGGACGTGCACTTCCGAAGAAGGCGGCGGAGCGCGGCCCCGGCCCCGGCCCCGGCCACTGAGCCCCGGCCTGCCTCCGCCTCCCCCTCTGCCTCCACGTCCTCCTCTACCTCCTCGCAGGAGCATTACCGCCTCTCCGCCTTCGGCCAACACTTTCTGTTTAACCTCACCGCCCAGGCCGGATTTATCGCTCCACTGTTCACTGTCACTCTCCTCGGGGCGCCGGGGGTGAACCAGACTAAGTTTTATTCCGAGGAGGAAACGGAGCTCCAACACTGTTTCTACACTGGCCACGTCAACGCCGAGACGGCGCACACGGCCGTGCTCAGCCTCTGCTCGGGAATGCTGGGCACATTCCAGTCCCATGATGGAGATTATTTTATTGAACCACTATTGTCCATGGATGAACAAGAGAAGAAAGAGGAGCAAAACAAACCCCACATTATTTATAGGCGCAGCATCCCTCAGCAGGAGCCCTCAGCAGGAAAGCATGCCTGTGGCACCTCAGGACATAGAAGCAGCCGCAGGAAAAACAGGAGGAAAGGCAGCAGGAGGAAGTGGGGAGCGACGATCCACCCGGCGGGCGACGTGGCAGCCCTGCACAGTGGGTCGGCAGCTGAGCCGCCCGCTGCACTGGGGAACCGGACCGATGGCCTGAGGGACAGGGGGACACGAAGGAGGACCAAGCGCTTCTTGTCCTACCCCCGCTTTGTGGAGGTGATGGTGGTGGCGGACAACAAGATGCTTCTGTACCACGGAGCGAACCTTCAGCACTATGTTTTGACCTTGATGGCCATTGTAGCCTCTATCTATAAAGACCCCAGTATTGGAAATTTAATTAATATTGTTATTGTGAACTTAGTTGTGATTCATGATGAACAGGAAGGACCTCCCATATCTTTTAATGCCCAGACAACATTAAAAAACTTCTGCCAGTGGCAGCATTCGAAGAACTACCCAGGTGGGATCCAGCACGATACTGCTGTGCTCATTACGAGGCAAGACATCTGCAGAGCTCACGACAAGTGCGACACCTTAGGTCTTGCTGAACTGGGAACCATTTGTGATCCCTACAGGAGCTGCTCTATTAGCGAAGACAGTGGGTTGAGTACAGCTTTTACAATTGCCCATGAACTGGGCCATGTGTTTAACATGCCTCACGACGACAGCAATAAGTGTAGAGAAGAGGGCGTGAAGAACACCCAGCACGTCATGGCGCCGACCCTGACGGTCGACACCAACCCCTGGATATGGTCAAAGTGCAGTCGAAAATACATCACTGAATTTTTAGACACTGGATACGGTGAATGTTTGCTTAATGAACCTGAATCCAGACCCTACTCTCTGCCTTCCCAACTGCCGGGCCTCTTTTACAGCGTGAATAAACAATGTGAATTCATTTTCGGACCAGGAGCTGAGTTGTGCCCGTACATGGTGCAGTGTAGACGGCTGTGGTGCAACGTGAAGAGAAAGGATCAAAGCTGCCAGACGCAGCACACGCCCTGGGCTGACGGGACGGAGTGTGAGCCCGGAAAGCACTGCAAGTTTGGGTTTTGTGTTCCCAAAGAAATGGAGGGCCCAGCGGTTGACGGATCCTGGGGAAGCTGGAGTCCCTATGGCACCTGCTCCAGAACATGCGGCGGGGGCATCAAAACGGCCATTCGCGAGTGCGACCAACCAGAGCCAAGACATGGTGGGAAATACTGTGTAGGACGCAGAATGAAATTTAAGTCCTGCAGCCTGGAGCCGTGTCTCAAGCAGAAGCAGGACTTCCGGGACGAACAGTGTGCTCACTTTGACGGGAAGCACTTTAACATCAACGGGCTGCTGCCCACCGTGCGCTGGGTCCCCAAGTACAGCGGAATCTTGATGAAGGACCGGTGCAAGTTGTTCTGCAGAGTGGCTGGGAGCACGGCCTACTATCAGCTCCGGGACAGAGTGGTGGATGGGACTCCTTGTGGCCAGGATACGAATGATATCTGTGTCCAAGGCCTTTGCCGGCAAGCTGGATGCGATCATGTTTTAAACTCAAAAGCCCGGCGAGATAAGTGTGGAGTGTGTGGTGGTGATAATTCTTCATGCAGAACTGTGGCAGGAACCTTTAATGCCGTGCATTACGGTTACAATACCGTGGTCCGAATTCCAGCTGGTGCTACCAGTATTGATGTGCGGCAGCACAGCTTCTCAGGGAAATCCGAGGATGACAACTACTTAGCTTTGTCAAGCAGTAAAGGGGAATTCTTGCTAAACGGGGACTTCGTTGTCACAATGTCCAAAAAGGAAATCCGAATCGGGAAGGCGATGATTGAGTACAGCGGCTCTGACAACATAGTGGAGAGAATTAACTCCACCGACCGCATTGACCAAGAGCTTGTGCTTCAGGTGCTGTCAGTGGGGAAGCTATACAACCCCGATGTGCGCTACTCGTTCAACGTCCCGATTGAAGGCAGACTGCAGCAGTTCTACTGGAATAGCCGTGGGCCCTGGCAGGCCTGCAGCAAGCCCTGCCAAGGGGTGCGGAGACGGAAGCCTGTTTGCACCAGGGAATCCGACCAGCTTCCTGTCTCTGATCAGAGATGTGATCGGCTGCCCCAGCCAGAGCCCATCACAGAGGCCTGCGGTACGGACTGTGACCTGAGGTGGCACGTGGGTGGCAGGAGCGAATGCAGTGCCCAGTGTGGGCTGGGCTACCGCACGCTGGACGTCTACTGTGCCAGGTACAGCAGGCTGGATGGGAAGACGGAGAAGGTGGACGACAGTTTTTGCAGCAGTCACCCCAAACCAAACAACCAGGAAAAGTGCTCGGGCGAATGTAACACAGGGGGCTGGCGCTACTCGGCCTGGACTGAATGTTCTAAAAGCTGTGACGGCGGAAGCCAGAGGAGACGGGCTATCTGTGTAAACTCCCAAAATGACGTCCTAGATGACAACAAATGCACCCACCAGGAAAAAGTCACCACTCAGAGATGCAACGAGTTCCCCTGTCCACAGTGGCAGTCTGGAGACTGGTCAGAGTGCTTGGTCACCTGCGGGAAGGGCCACAGGCACCGGCAGGTCTGGTGTCAGTTCGGTGAAGATCGAGTGAGTGATAAAATCTGCGACCCCCAGGCCAAGCCGGCTTCCATGCAGCCCTGTCAGCAGTCGGAATGCGCATCCTGGCAGGCTGGTCCCTGGGGACAGTGCAGTGTCACCTGTGGCCAGGGCTACCAGCTGAGAGCAGTGAAATGTGTCCTGGGGACCTACATGGCAGTGGTGGACGACAGTGGCTGCAGTGCAGGCACGAGACCGACCGACACCCAGGACTGTGAAGTGTCGCCTTGTCAGCCTCCCCCGGTGGCCCCGGAAGCCAGAAGCCCCCACGGCGGGCGGAGGACGCAGTGGCGCTTTGGGTCTTGGACATCATGCTCAGCCACCTGTGGAAAAGGCACCCGCATGAGGTACGTCAGCTGCCGGGGCGAGGACGGCTCTGTCGCCGACGAGAGCGCCTGTGCCAGCCTGCCCAGACCCGAGGCCCGGGAGGGCTGCTCGGTGACGCCTTGCGGGCAGTGGAAGGCTTCCGACTGGAGCGCGTGCTCCGTGACGTGTGGCCAAGGGAGGGCAACGCGGCAAGTGGTGTGTGTCAACTACAGTGACCACGTCGTCGGCCAGAGCGAGTGCGACCTGGATTACATCCCCGAGACCGACCAGGACTGCTCCATGGCGCCGTGCCCCCGGTGGGGCCCCGACAGAGGCTGGGCTGCTTCGCACCCTTTCCAAAACGAGGACTTCCGGCCCAGGGGCGCCGGGCCAAGCCGCACCCACGTGCTGAGCGGAAACCAGTGGAGAACGGGCCCCTGGGGAGCGTGTTCCAGCACGTGCGCAGGTGGCTCCCAGCGGCGGGTTGTGGTGTGTCAGGATGAGAACGGGTACCCGGCGCGGGACTGTGTGGAGAGAATCAAGCCCGACGAGCAGAGAGCCTGCGAGGCTGGCCCGTGTCCTCAGTGGGTGTCCGGCAGCTGGGGAGAGTGCACGAAGCCTTGTGGGGGAGGCGTGCGGACCAGGCTGGTGGTCTGCCAGCGGGCCAGCGGCCAGCGCTTCCCGGACCTGAGCTGCGACGTCCTGGAGAAGCCCCCCGACCGTGAACAGTGCGGCGCGCACACTTGTCCCGATGGCACCTGGAGTGCTGGCCCTTGGAGCTCGTGTTCTGTCTCTTGCGGTCGAGGGCATAAGCAACGAAATGTTCACTGCATGGCAAGAGATGGAAGCCGTTTAGAGAGTGAGCACTGTGGGCACCTTGCTAAGCCGCATGGGCACAGACGGTGCCGCAGAGGACGGTGCCCCAGATGGAAGGCTGGCGCGTGGAGTCAGTGCTCTGTGTCCTGCGGCCAGGGTGTACAGCAGCGGCATGTGGCCTGTCAGGTCGGAACACAGAAAGCAGCCAGAGAGAGCGAGTGCAACTCGGTCACCAGACCAGAGGCGGAGCGTGCCTGCCCAGCCCCGCCGTGCCCCCTGCACACTTGGAGGGCAGAGCAATGGCAAGAATGCTCCAAGACCTGTGGCGAGGGCTTCCGGTTCCGCCGGGTGGTGTGCGTGGACGAGAACCAGGGCGAGGTTCACAGAGCGCTTTGCAGCTCCAGCCAGCGGCCCACAGACCGAGAGAGCTGCAGCCGGCAGCCCTGCGAGTACGTCTGGATCACGGGAGAGTGGTCGGAGTGCTCAGTGACCTGCGGGAAGGGCTACAAACAAAGGCTGGTCTCCTGCAGCGAGATTTACACCGGGAAGGAGAACTACGAGTACAGCTACCAAACCGCAGTCCACTGCCCAGGCACACAGCCCCCCAGCGCCCAGCCGTGCTACCTGCGGGAATGTCCTGTCTCGGCCACCTGGAGAGTTGGCAACTGGGGAAGCTGCTCTGTGACTTGTGGTGTCGGAGTGATGCACAGGTCCGTGCAGTGTCTGACCGACGAGGACCAGCCCAGCCGCATGTGTCCCGCTGACTCGAAACCAGAAGAACGGAAAACCTGCCACAATACTTACAACTGTGAGTTGCCCCAGAACTGCAAGGAGGTCAGAGGCCTCAGCGGAGCCAGTGAAGACAGTGAATATCTGCTGATCGTCAGAGGAAAGCTCCTGAAGATATTCTGTGCGGGAATGCAGTCCAGCCACCCCAAAGAATATGTGACCCTCGTTCATGGTGACTCTGAGAATTTCTCCGAGGTTTACGGGCACAGGTTGCACAACCCAACAGAATGCCCTTACAATGGAAGCCGCCGGGAGGACTGCCGGTGCCGGAAGGACTACACGGCCGCAGGGTTTTCCAGCTTCCAGAAAATCAGGATCGACCTGAGCAGCATGCAGATCATAACTACCGACTTACAGTTTGCGAGGACCAGTGAAGGACATCCTGTCCCTTTTGCCACCGCCGGGGACTGCTATAGTGCTGCCAAGTGTCCACAGGGTCGCTTCAGCATCAACCTCGACGGGACCGGCCTGTCCCTGACGGAGTCGGCCAGGTGGATATCGCAAGGGAATTACGCTGTCTCGGACATCAAGAAGTCCCCGGACGGCACCCGCGTGGTGGGGACGTGCGGCGGCTACTGCGGGAAGTGCACGCCCGCCTCCGGCACCGGCCTGGAGGTTCGGGTGCTGTAG

XM_004871597.1 Coding sequence

Adamts9 ADAM metallopeptidase with thrombospondin type 1 motif, 9, transcript variant X4

Length: 5742 bp    Location: 1333714..1474897   Strand: +

>XM_004871597.1
ATGCAGTTGGTACCCTGGGTCGCACTGCTAGCGCTTGTGGTGCGGGGCCCGGCCGGGATGCGGAGCCTGGACGCCGCGGCCGCCGTGCGCAAGGACAGGCTGCACCCGAGGCAAGCCAAACTACTGGAGACCCTGAGCGAGTATGAAATCGCGTCTCCCGTGCGAGTGGGCGCGGGCGGAGAACCTCTTCCCACGGACGTGCACTTCCGAAGAAGGCGGCGGAGCGCGGCCCCGGCCCCGGCCCCGGCCACTGAGCCCCGGCCTGCCTCCGCCTCCCCCTCTGCCTCCACGTCCTCCTCTACCTCCTCGCAGGAGCATTACCGCCTCTCCGCCTTCGGCCAACACTTTCTGTTTAACCTCACCGCCCAGGCCGGATTTATCGCTCCACTGTTCACTGTCACTCTCCTCGGGGCGCCGGGGGTGAACCAGACTAAGTTTTATTCCGAGGAGGAAACGGAGCTCCAACACTGTTTCTACACTGGCCACGTCAACGCCGAGACGGCGCACACGGCCGTGCTCAGCCTCTGCTCGGGAATGCTGGGCACATTCCAGTCCCATGATGGAGATTATTTTATTGAACCACTATTGTCCATGGATGAACAAGAGAAGAAAGAGGAGCAAAACAAACCCCACATTATTTATAGGCGCAGCATCCCTCAGCAGGAGCCCTCAGCAGGAAAGCATGCCTGTGGCACCTCAGGACATAGAAGCAGCCGCAGGAAAAACAGGAGGAAAGGCAGCAGGAGGAAGTGGGGAGCGACGATCCACCCGGCGGGCGACGTGGCAGCCCTGCACAGTGGGTCGGCAGCTGAGCCGCCCGCTGCACTGGGGAACCGGACCGATGGCCTGAGGGACAGGGGGACACGAAGGAGGACCAAGCGCTTCTTGTCCTACCCCCGCTTTGTGGAGGTGATGGTGGTGGCGGACAACAAGATGCTTCTGTACCACGGAGCGAACCTTCAGCACTATGTTTTGACCTTGATGGCCATTGAAGGACCTCCCATATCTTTTAATGCCCAGACAACATTAAAAAACTTCTGCCAGTGGCAGCATTCGAAGAACTACCCAGGTGGGATCCAGCACGATACTGCTGTGCTCATTACGAGGCAAGACATCTGCAGAGCTCACGACAAGTGCGACACCTTAGGTCTTGCTGAACTGGGAACCATTTGTGATCCCTACAGGAGCTGCTCTATTAGCGAAGACAGTGGGTTGAGTACAGCTTTTACAATTGCCCATGAACTGGGCCATGTGTTTAACATGCCTCACGACGACAGCAATAAGTGTAGAGAAGAGGGCGTGAAGAACACCCAGCACGTCATGGCGCCGACCCTGACGGTCGACACCAACCCCTGGATATGGTCAAAGTGCAGTCGAAAATACATCACTGAATTTTTAGACACTGGATACGGTGAATGTTTGCTTAATGAACCTGAATCCAGACCCTACTCTCTGCCTTCCCAACTGCCGGGCCTCTTTTACAGCGTGAATAAACAATGTGAATTCATTTTCGGACCAGGAGCTGAGTTGTGCCCGTACATGCAGGTGCAGTGTAGACGGCTGTGGTGCAACGTGAAGAGAAAGGATCAAAGCTGCCAGACGCAGCACACGCCCTGGGCTGACGGGACGGAGTGTGAGCCCGGAAAGCACTGCAAGTTTGGGTTTTGTGTTCCCAAAGAAATGGAGGGCCCAGCGGTTGACGGATCCTGGGGAAGCTGGAGTCCCTATGGCACCTGCTCCAGAACATGCGGCGGGGGCATCAAAACGGCCATTCGCGAGTGCGACCAACCAGAGCCAAGACATGGTGGGAAATACTGTGTAGGACGCAGAATGAAATTTAAGTCCTGCAGCCTGGAGCCGTGTCTCAAGCAGAAGCAGGACTTCCGGGACGAACAGTGTGCTCACTTTGACGGGAAGCACTTTAACATCAACGGGCTGCTGCCCACCGTGCGCTGGGTCCCCAAGTACAGCGGAATCTTGATGAAGGACCGGTGCAAGTTGTTCTGCAGAGTGGCTGGGAGCACGGCCTACTATCAGCTCCGGGACAGAGTGGTGGATGGGACTCCTTGTGGCCAGGATACGAATGATATCTGTGTCCAAGGCCTTTGCCGGCAAGCTGGATGCGATCATGTTTTAAACTCAAAAGCCCGGCGAGATAAGTGTGGAGTGTGTGGTGGTGATAATTCTTCATGCAGAACTGTGGCAGGAACCTTTAATGCCGTGCATTACGGTTACAATACCGTGGTCCGAATTCCAGCTGGTGCTACCAGTATTGATGTGCGGCAGCACAGCTTCTCAGGGAAATCCGAGGATGACAACTACTTAGCTTTGTCAAGCAGTAAAGGGGAATTCTTGCTAAACGGGGACTTCGTTGTCACAATGTCCAAAAAGGAAATCCGAATCGGGAAGGCGATGATTGAGTACAGCGGCTCTGACAACATAGTGGAGAGAATTAACTCCACCGACCGCATTGACCAAGAGCTTGTGCTTCAGGTGCTGTCAGTGGGGAAGCTATACAACCCCGATGTGCGCTACTCGTTCAACGTCCCGATTGAAGGCAGACTGCAGCAGTTCTACTGGAATAGCCGTGGGCCCTGGCAGGCCTGCAGCAAGCCCTGCCAAGGGGTGCGGAGACGGAAGCCTGTTTGCACCAGGGAATCCGACCAGCTTCCTGTCTCTGATCAGAGATGTGATCGGCTGCCCCAGCCAGAGCCCATCACAGAGGCCTGCGGTACGGACTGTGACCTGAGGTGGCACGTGGGTGGCAGGAGCGAATGCAGTGCCCAGTGTGGGCTGGGCTACCGCACGCTGGACGTCTACTGTGCCAGGTACAGCAGGCTGGATGGGAAGACGGAGAAGGTGGACGACAGTTTTTGCAGCAGTCACCCCAAACCAAACAACCAGGAAAAGTGCTCGGGCGAATGTAACACAGGGGGCTGGCGCTACTCGGCCTGGACTGAATGTTCTAAAAGCTGTGACGGCGGAAGCCAGAGGAGACGGGCTATCTGTGTAAACTCCCAAAATGACGTCCTAGATGACAACAAATGCACCCACCAGGAAAAAGTCACCACTCAGAGATGCAACGAGTTCCCCTGTCCACAGTGGCAGTCTGGAGACTGGTCAGAGTGCTTGGTCACCTGCGGGAAGGGCCACAGGCACCGGCAGGTCTGGTGTCAGTTCGGTGAAGATCGAGTGAGTGATAAAATCTGCGACCCCCAGGCCAAGCCGGCTTCCATGCAGCCCTGTCAGCAGTCGGAATGCGCATCCTGGCAGGCTGGTCCCTGGGGACAGTGCAGTGTCACCTGTGGCCAGGGCTACCAGCTGAGAGCAGTGAAATGTGTCCTGGGGACCTACATGGCAGTGGTGGACGACAGTGGCTGCAGTGCAGGCACGAGACCGACCGACACCCAGGACTGTGAAGTGTCGCCTTGTCAGCCTCCCCCGGTGGCCCCGGAAGCCAGAAGCCCCCACGGCGGGCGGAGGACGCAGTGGCGCTTTGGGTCTTGGACATCATGCTCAGCCACCTGTGGAAAAGGCACCCGCATGAGGTACGTCAGCTGCCGGGGCGAGGACGGCTCTGTCGCCGACGAGAGCGCCTGTGCCAGCCTGCCCAGACCCGAGGCCCGGGAGGGCTGCTCGGTGACGCCTTGCGGGCAGTGGAAGGCTTCCGACTGGAGCGCGTGCTCCGTGACGTGTGGCCAAGGGAGGGCAACGCGGCAAGTGGTGTGTGTCAACTACAGTGACCACGTCGTCGGCCAGAGCGAGTGCGACCTGGATTACATCCCCGAGACCGACCAGGACTGCTCCATGGCGCCGTGCCCCCGGTGGGGCCCCGACAGAGGCTGGGCTGCTTCGCACCCTTTCCAAAACGAGGACTTCCGGCCCAGGGGCGCCGGGCCAAGCCGCACCCACGTGCTGAGCGGAAACCAGTGGAGAACGGGCCCCTGGGGAGCGTGTTCCAGCACGTGCGCAGGTGGCTCCCAGCGGCGGGTTGTGGTGTGTCAGGATGAGAACGGGTACCCGGCGCGGGACTGTGTGGAGAGAATCAAGCCCGACGAGCAGAGAGCCTGCGAGGCTGGCCCGTGTCCTCAGTGGGTGTCCGGCAGCTGGGGAGAGTGCACGAAGCCTTGTGGGGGAGGCGTGCGGACCAGGCTGGTGGTCTGCCAGCGGGCCAGCGGCCAGCGCTTCCCGGACCTGAGCTGCGACGTCCTGGAGAAGCCCCCCGACCGTGAACAGTGCGGCGCGCACACTTGTCCCGATGGCACCTGGAGTGCTGGCCCTTGGAGCTCGTGTTCTGTCTCTTGCGGTCGAGGGCATAAGCAACGAAATGTTCACTGCATGGCAAGAGATGGAAGCCGTTTAGAGAGTGAGCACTGTGGGCACCTTGCTAAGCCGCATGGGCACAGACGGTGCCGCAGAGGACGGTGCCCCAGATGGAAGGCTGGCGCGTGGAGTCAGTGCTCTGTGTCCTGCGGCCAGGGTGTACAGCAGCGGCATGTGGCCTGTCAGGTCGGAACACAGAAAGCAGCCAGAGAGAGCGAGTGCAACTCGGTCACCAGACCAGAGGCGGAGCGTGCCTGCCCAGCCCCGCCGTGCCCCCTGCACACTTGGAGGGCAGAGCAATGGCAAGAATGCTCCAAGACCTGTGGCGAGGGCTTCCGGTTCCGCCGGGTGGTGTGCGTGGACGAGAACCAGGGCGAGGTTCACAGAGCGCTTTGCAGCTCCAGCCAGCGGCCCACAGACCGAGAGAGCTGCAGCCGGCAGCCCTGCGAGTACGTCTGGATCACGGGAGAGTGGTCGGAGTGCTCAGTGACCTGCGGGAAGGGCTACAAACAAAGGCTGGTCTCCTGCAGCGAGATTTACACCGGGAAGGAGAACTACGAGTACAGCTACCAAACCGCAGTCCACTGCCCAGGCACACAGCCCCCCAGCGCCCAGCCGTGCTACCTGCGGGAATGTCCTGTCTCGGCCACCTGGAGAGTTGGCAACTGGGGAAGCTGCTCTGTGACTTGTGGTGTCGGAGTGATGCACAGGTCCGTGCAGTGTCTGACCGACGAGGACCAGCCCAGCCGCATGTGTCCCGCTGACTCGAAACCAGAAGAACGGAAAACCTGCCACAATACTTACAACTGTGAGTTGCCCCAGAACTGCAAGGAGGTCAGAGGCCTCAGCGGAGCCAGTGAAGACAGTGAATATCTGCTGATCGTCAGAGGAAAGCTCCTGAAGATATTCTGTGCGGGAATGCAGTCCAGCCACCCCAAAGAATATGTGACCCTCGTTCATGGTGACTCTGAGAATTTCTCCGAGGTTTACGGGCACAGGTTGCACAACCCAACAGAATGCCCTTACAATGGAAGCCGCCGGGAGGACTGCCGGTGCCGGAAGGACTACACGGCCGCAGGGTTTTCCAGCTTCCAGAAAATCAGGATCGACCTGAGCAGCATGCAGATCATAACTACCGACTTACAGTTTGCGAGGACCAGTGAAGGACATCCTGTCCCTTTTGCCACCGCCGGGGACTGCTATAGTGCTGCCAAGTGTCCACAGGGTCGCTTCAGCATCAACCTCGACGGGACCGGCCTGTCCCTGACGGAGTCGGCCAGGTGGATATCGCAAGGGAATTACGCTGTCTCGGACATCAAGAAGTCCCCGGACGGCACCCGCGTGGTGGGGACGTGCGGCGGCTACTGCGGGAAGTGCACGCCCGCCTCCGGCACCGGCCTGGAGGTTCGGGTGCTGTAG

XM_004871599.1 Coding sequence

Adamts9 ADAM metallopeptidase with thrombospondin type 1 motif, 9, transcript variant X6

Length: 5739 bp    Location: 1333714..1474897   Strand: +

>XM_004871599.1
ATGCAGTTGGTACCCTGGGTCGCACTGCTAGCGCTTGTGGTGCGGGGCCCGGCCGGGATGCGGAGCCTGGACGCCGCGGCCGCCGTGCGCAAGGACAGGCTGCACCCGAGGCAAGCCAAACTACTGGAGACCCTGAGCGAGTATGAAATCGCGTCTCCCGTGCGAGTGGGCGCGGGCGGAGAACCTCTTCCCACGGACGTGCACTTCCGAAGAAGGCGGCGGAGCGCGGCCCCGGCCCCGGCCCCGGCCACTGAGCCCCGGCCTGCCTCCGCCTCCCCCTCTGCCTCCACGTCCTCCTCTACCTCCTCGCAGGAGCATTACCGCCTCTCCGCCTTCGGCCAACACTTTCTGTTTAACCTCACCGCCCAGGCCGGATTTATCGCTCCACTGTTCACTGTCACTCTCCTCGGGGCGCCGGGGGTGAACCAGACTAAGTTTTATTCCGAGGAGGAAACGGAGCTCCAACACTGTTTCTACACTGGCCACGTCAACGCCGAGACGGCGCACACGGCCGTGCTCAGCCTCTGCTCGGGAATGCTGGGCACATTCCAGTCCCATGATGGAGATTATTTTATTGAACCACTATTGTCCATGGATGAACAAGAGAAGAAAGAGGAGCAAAACAAACCCCACATTATTTATAGGCGCAGCATCCCTCAGCAGGAGCCCTCAGCAGGAAAGCATGCCTGTGGCACCTCAGGACATAGAAGCAGCCGCAGGAAAAACAGGAGGAAAGGCAGCAGGAGGAAGTGGGGAGCGACGATCCACCCGGCGGGCGACGTGGCAGCCCTGCACAGTGGGTCGGCAGCTGAGCCGCCCGCTGCACTGGGGAACCGGACCGATGGCCTGAGGGACAGGGGGACACGAAGGAGGACCAAGCGCTTCTTGTCCTACCCCCGCTTTGTGGAGGTGATGGTGGTGGCGGACAACAAGATGCTTCTGTACCACGGAGCGAACCTTCAGCACTATGTTTTGACCTTGATGGCCATTGAAGGACCTCCCATATCTTTTAATGCCCAGACAACATTAAAAAACTTCTGCCAGTGGCAGCATTCGAAGAACTACCCAGGTGGGATCCAGCACGATACTGCTGTGCTCATTACGAGGCAAGACATCTGCAGAGCTCACGACAAGTGCGACACCTTAGGTCTTGCTGAACTGGGAACCATTTGTGATCCCTACAGGAGCTGCTCTATTAGCGAAGACAGTGGGTTGAGTACAGCTTTTACAATTGCCCATGAACTGGGCCATGTGTTTAACATGCCTCACGACGACAGCAATAAGTGTAGAGAAGAGGGCGTGAAGAACACCCAGCACGTCATGGCGCCGACCCTGACGGTCGACACCAACCCCTGGATATGGTCAAAGTGCAGTCGAAAATACATCACTGAATTTTTAGACACTGGATACGGTGAATGTTTGCTTAATGAACCTGAATCCAGACCCTACTCTCTGCCTTCCCAACTGCCGGGCCTCTTTTACAGCGTGAATAAACAATGTGAATTCATTTTCGGACCAGGAGCTGAGTTGTGCCCGTACATGGTGCAGTGTAGACGGCTGTGGTGCAACGTGAAGAGAAAGGATCAAAGCTGCCAGACGCAGCACACGCCCTGGGCTGACGGGACGGAGTGTGAGCCCGGAAAGCACTGCAAGTTTGGGTTTTGTGTTCCCAAAGAAATGGAGGGCCCAGCGGTTGACGGATCCTGGGGAAGCTGGAGTCCCTATGGCACCTGCTCCAGAACATGCGGCGGGGGCATCAAAACGGCCATTCGCGAGTGCGACCAACCAGAGCCAAGACATGGTGGGAAATACTGTGTAGGACGCAGAATGAAATTTAAGTCCTGCAGCCTGGAGCCGTGTCTCAAGCAGAAGCAGGACTTCCGGGACGAACAGTGTGCTCACTTTGACGGGAAGCACTTTAACATCAACGGGCTGCTGCCCACCGTGCGCTGGGTCCCCAAGTACAGCGGAATCTTGATGAAGGACCGGTGCAAGTTGTTCTGCAGAGTGGCTGGGAGCACGGCCTACTATCAGCTCCGGGACAGAGTGGTGGATGGGACTCCTTGTGGCCAGGATACGAATGATATCTGTGTCCAAGGCCTTTGCCGGCAAGCTGGATGCGATCATGTTTTAAACTCAAAAGCCCGGCGAGATAAGTGTGGAGTGTGTGGTGGTGATAATTCTTCATGCAGAACTGTGGCAGGAACCTTTAATGCCGTGCATTACGGTTACAATACCGTGGTCCGAATTCCAGCTGGTGCTACCAGTATTGATGTGCGGCAGCACAGCTTCTCAGGGAAATCCGAGGATGACAACTACTTAGCTTTGTCAAGCAGTAAAGGGGAATTCTTGCTAAACGGGGACTTCGTTGTCACAATGTCCAAAAAGGAAATCCGAATCGGGAAGGCGATGATTGAGTACAGCGGCTCTGACAACATAGTGGAGAGAATTAACTCCACCGACCGCATTGACCAAGAGCTTGTGCTTCAGGTGCTGTCAGTGGGGAAGCTATACAACCCCGATGTGCGCTACTCGTTCAACGTCCCGATTGAAGGCAGACTGCAGCAGTTCTACTGGAATAGCCGTGGGCCCTGGCAGGCCTGCAGCAAGCCCTGCCAAGGGGTGCGGAGACGGAAGCCTGTTTGCACCAGGGAATCCGACCAGCTTCCTGTCTCTGATCAGAGATGTGATCGGCTGCCCCAGCCAGAGCCCATCACAGAGGCCTGCGGTACGGACTGTGACCTGAGGTGGCACGTGGGTGGCAGGAGCGAATGCAGTGCCCAGTGTGGGCTGGGCTACCGCACGCTGGACGTCTACTGTGCCAGGTACAGCAGGCTGGATGGGAAGACGGAGAAGGTGGACGACAGTTTTTGCAGCAGTCACCCCAAACCAAACAACCAGGAAAAGTGCTCGGGCGAATGTAACACAGGGGGCTGGCGCTACTCGGCCTGGACTGAATGTTCTAAAAGCTGTGACGGCGGAAGCCAGAGGAGACGGGCTATCTGTGTAAACTCCCAAAATGACGTCCTAGATGACAACAAATGCACCCACCAGGAAAAAGTCACCACTCAGAGATGCAACGAGTTCCCCTGTCCACAGTGGCAGTCTGGAGACTGGTCAGAGTGCTTGGTCACCTGCGGGAAGGGCCACAGGCACCGGCAGGTCTGGTGTCAGTTCGGTGAAGATCGAGTGAGTGATAAAATCTGCGACCCCCAGGCCAAGCCGGCTTCCATGCAGCCCTGTCAGCAGTCGGAATGCGCATCCTGGCAGGCTGGTCCCTGGGGACAGTGCAGTGTCACCTGTGGCCAGGGCTACCAGCTGAGAGCAGTGAAATGTGTCCTGGGGACCTACATGGCAGTGGTGGACGACAGTGGCTGCAGTGCAGGCACGAGACCGACCGACACCCAGGACTGTGAAGTGTCGCCTTGTCAGCCTCCCCCGGTGGCCCCGGAAGCCAGAAGCCCCCACGGCGGGCGGAGGACGCAGTGGCGCTTTGGGTCTTGGACATCATGCTCAGCCACCTGTGGAAAAGGCACCCGCATGAGGTACGTCAGCTGCCGGGGCGAGGACGGCTCTGTCGCCGACGAGAGCGCCTGTGCCAGCCTGCCCAGACCCGAGGCCCGGGAGGGCTGCTCGGTGACGCCTTGCGGGCAGTGGAAGGCTTCCGACTGGAGCGCGTGCTCCGTGACGTGTGGCCAAGGGAGGGCAACGCGGCAAGTGGTGTGTGTCAACTACAGTGACCACGTCGTCGGCCAGAGCGAGTGCGACCTGGATTACATCCCCGAGACCGACCAGGACTGCTCCATGGCGCCGTGCCCCCGGTGGGGCCCCGACAGAGGCTGGGCTGCTTCGCACCCTTTCCAAAACGAGGACTTCCGGCCCAGGGGCGCCGGGCCAAGCCGCACCCACGTGCTGAGCGGAAACCAGTGGAGAACGGGCCCCTGGGGAGCGTGTTCCAGCACGTGCGCAGGTGGCTCCCAGCGGCGGGTTGTGGTGTGTCAGGATGAGAACGGGTACCCGGCGCGGGACTGTGTGGAGAGAATCAAGCCCGACGAGCAGAGAGCCTGCGAGGCTGGCCCGTGTCCTCAGTGGGTGTCCGGCAGCTGGGGAGAGTGCACGAAGCCTTGTGGGGGAGGCGTGCGGACCAGGCTGGTGGTCTGCCAGCGGGCCAGCGGCCAGCGCTTCCCGGACCTGAGCTGCGACGTCCTGGAGAAGCCCCCCGACCGTGAACAGTGCGGCGCGCACACTTGTCCCGATGGCACCTGGAGTGCTGGCCCTTGGAGCTCGTGTTCTGTCTCTTGCGGTCGAGGGCATAAGCAACGAAATGTTCACTGCATGGCAAGAGATGGAAGCCGTTTAGAGAGTGAGCACTGTGGGCACCTTGCTAAGCCGCATGGGCACAGACGGTGCCGCAGAGGACGGTGCCCCAGATGGAAGGCTGGCGCGTGGAGTCAGTGCTCTGTGTCCTGCGGCCAGGGTGTACAGCAGCGGCATGTGGCCTGTCAGGTCGGAACACAGAAAGCAGCCAGAGAGAGCGAGTGCAACTCGGTCACCAGACCAGAGGCGGAGCGTGCCTGCCCAGCCCCGCCGTGCCCCCTGCACACTTGGAGGGCAGAGCAATGGCAAGAATGCTCCAAGACCTGTGGCGAGGGCTTCCGGTTCCGCCGGGTGGTGTGCGTGGACGAGAACCAGGGCGAGGTTCACAGAGCGCTTTGCAGCTCCAGCCAGCGGCCCACAGACCGAGAGAGCTGCAGCCGGCAGCCCTGCGAGTACGTCTGGATCACGGGAGAGTGGTCGGAGTGCTCAGTGACCTGCGGGAAGGGCTACAAACAAAGGCTGGTCTCCTGCAGCGAGATTTACACCGGGAAGGAGAACTACGAGTACAGCTACCAAACCGCAGTCCACTGCCCAGGCACACAGCCCCCCAGCGCCCAGCCGTGCTACCTGCGGGAATGTCCTGTCTCGGCCACCTGGAGAGTTGGCAACTGGGGAAGCTGCTCTGTGACTTGTGGTGTCGGAGTGATGCACAGGTCCGTGCAGTGTCTGACCGACGAGGACCAGCCCAGCCGCATGTGTCCCGCTGACTCGAAACCAGAAGAACGGAAAACCTGCCACAATACTTACAACTGTGAGTTGCCCCAGAACTGCAAGGAGGTCAGAGGCCTCAGCGGAGCCAGTGAAGACAGTGAATATCTGCTGATCGTCAGAGGAAAGCTCCTGAAGATATTCTGTGCGGGAATGCAGTCCAGCCACCCCAAAGAATATGTGACCCTCGTTCATGGTGACTCTGAGAATTTCTCCGAGGTTTACGGGCACAGGTTGCACAACCCAACAGAATGCCCTTACAATGGAAGCCGCCGGGAGGACTGCCGGTGCCGGAAGGACTACACGGCCGCAGGGTTTTCCAGCTTCCAGAAAATCAGGATCGACCTGAGCAGCATGCAGATCATAACTACCGACTTACAGTTTGCGAGGACCAGTGAAGGACATCCTGTCCCTTTTGCCACCGCCGGGGACTGCTATAGTGCTGCCAAGTGTCCACAGGGTCGCTTCAGCATCAACCTCGACGGGACCGGCCTGTCCCTGACGGAGTCGGCCAGGTGGATATCGCAAGGGAATTACGCTGTCTCGGACATCAAGAAGTCCCCGGACGGCACCCGCGTGGTGGGGACGTGCGGCGGCTACTGCGGGAAGTGCACGCCCGCCTCCGGCACCGGCCTGGAGGTTCGGGTGCTGTAG

XM_004871598.1 Coding sequence

Adamts9 ADAM metallopeptidase with thrombospondin type 1 motif, 9, transcript variant X5

Length: 5742 bp    Location: 1333714..1468269   Strand: +

>XM_004871598.1
ATGCAGTTGGTACCCTGGGTCGCACTGCTAGCGCTTGTGGTGCGGGGCCCGGCCGGGATGCGGAGCCTGGACGCCGCGGCCGCCGTGCGCAAGGACAGGCTGCACCCGAGGCAAGCCAAACTACTGGAGACCCTGAGCGAGTATGAAATCGCGTCTCCCGTGCGAGTGGGCGCGGGCGGAGAACCTCTTCCCACGGACGTGCACTTCCGAAGAAGGCGGCGGAGCGCGGCCCCGGCCCCGGCCCCGGCCACTGAGCCCCGGCCTGCCTCCGCCTCCCCCTCTGCCTCCACGTCCTCCTCTACCTCCTCGCAGGAGCATTACCGCCTCTCCGCCTTCGGCCAACACTTTCTGTTTAACCTCACCGCCCAGGCCGGATTTATCGCTCCACTGTTCACTGTCACTCTCCTCGGGGCGCCGGGGGTGAACCAGACTAAGTTTTATTCCGAGGAGGAAACGGAGCTCCAACACTGTTTCTACACTGGCCACGTCAACGCCGAGACGGCGCACACGGCCGTGCTCAGCCTCTGCTCGGGAATGCTGGGCACATTCCAGTCCCATGATGGAGATTATTTTATTGAACCACTATTGTCCATGGATGAACAAGAGAAGAAAGAGGAGCAAAACAAACCCCACATTATTTATAGGCGCAGCATCCCTCAGCAGGAGCCCTCAGCAGGAAAGCATGCCTGTGGCACCTCAGGACATAGAAGCAGCCGCAGGAAAAACAGGAGGAAAGGCAGCAGGAGGAAGTGGGGAGCGACGATCCACCCGGCGGGCGACGTGGCAGCCCTGCACAGTGGGTCGGCAGCTGAGCCGCCCGCTGCACTGGGGAACCGGACCGATGGCCTGAGGGACAGGGGGACACGAAGGAGGACCAAGCGCTTCTTGTCCTACCCCCGCTTTGTGGAGGTGATGGTGGTGGCGGACAACAAGATGCTTCTGTACCACGGAGCGAACCTTCAGCACTATGTTTTGACCTTGATGGCCATTGTAGCCTCTATCTATAAAGACCCCAGTATTGGAAATTTAATTAATATTGTTATTGTGAACTTAGTTGTGATTCATGATGAACAGGAAGGACCTCCCATATCTTTTAATGCCCAGACAACATTAAAAAACTTCTGCCAGTGGCAGCATTCGAAGAACTACCCAGGTGGGATCCAGCACGATACTGCTGTGCTCATTACGAGGCAAGACATCTGCAGAGCTCACGACAAGTGCGACACCTTAGGTCTTGCTGAACTGGGAACCATTTGTGATCCCTACAGGAGCTGCTCTATTAGCGAAGACAGTGGGTTGAGTACAGCTTTTACAATTGCCCATGAACTGGGCCATGTGTTTAACATGCCTCACGACGACAGCAATAAGTGTAGAGAAGAGGGCGTGAAGAACACCCAGCACGTCATGGCGCCGACCCTGACGGTCGACACCAACCCCTGGATATGGTCAAAGTGCAGTCGAAAATACATCACTGAATTTTTAGACACTGGATACGGTGAATGTTTGCTTAATGAACCTGAATCCAGACCCTACTCTCTGCCTTCCCAACTGCCGGGCCTCTTTTACAGCGTGAATAAACAATGTGAATTCATTTTCGGACCAGGAGCTGAGTTGTGCCCGTACATGCAGGTGCAGTGTAGACGGCTGTGGTGCAACGTGAAGAGAAAGGATCAAAGCTGCCAGACGCAGCACACGCCCTGGGCTGACGGGACGGAGTGTGAGCCCGGAAAGCACTGCAAGTTTGGGTTTTGTGTTCCCAAAGAAATGGAGGGCCCAGCGGTTGACGGATCCTGGGGAAGCTGGAGTCCCTATGGCACCTGCTCCAGAACATGCGGCGGGGGCATCAAAACGGCCATTCGCGAGTGCGACCAACCAGAGCCAAGACATGGTGGGAAATACTGTGTAGGACGCAGAATGAAATTTAAGTCCTGCAGCCTGGAGCCGTGTCTCAAGCAGAAGCAGGACTTCCGGGACGAACAGTGTGCTCACTTTGACGGGAAGCACTTTAACATCAACGGGCTGCTGCCCACCGTGCGCTGGGTCCCCAAGTACAGCGGAATCTTGATGAAGGACCGGTGCAAGTTGTTCTGCAGAGTGGCTGGGAGCACGGCCTACTATCAGCTCCGGGACAGAGTGGTGGATGGGACTCCTTGTGGCCAGGATACGAATGATATCTGTGTCCAAGGCCTTTGCCGGCAAGCTGGATGCGATCATGTTTTAAACTCAAAAGCCCGGCGAGATAAGTGTGGAGTGTGTGGTGGTGATAATTCTTCATGCAGAACTGTGGCAGGAACCTTTAATGCCGTGCATTACGGTTACAATACCGTGGTCCGAATTCCAGCTGGTGCTACCAGTATTGATGTGCGGCAGCACAGCTTCTCAGGGAAATCCGAGGATGACAACTACTTAGCTTTGTCAAGCAGTAAAGGGGAATTCTTGCTAAACGGGGACTTCGTTGTCACAATGTCCAAAAAGGAAATCCGAATCGGGAAGGCGATGATTGAGTACAGCGGCTCTGACAACATAGTGGAGAGAATTAACTCCACCGACCGCATTGACCAAGAGCTTGTGCTTCAGGTGCTGTCAGTGGGGAAGCTATACAACCCCGATGTGCGCTACTCGTTCAACGTCCCGATTGAAGGCAGACTGCAGCAGTTCTACTGGAATAGCCGTGGGCCCTGGCAGGCCTGCAGCAAGCCCTGCCAAGGGGTGCGGAGACGGAAGCCTGTTTGCACCAGGGAATCCGACCAGCTTCCTGTCTCTGATCAGAGATGTGATCGGCTGCCCCAGCCAGAGCCCATCACAGAGGCCTGCGGTACGGACTGTGACCTGAGGTGGCACGTGGGTGGCAGGAGCGAATGCAGTGCCCAGTGTGGGCTGGGCTACCGCACGCTGGACGTCTACTGTGCCAGGTACAGCAGGCTGGATGGGAAGACGGAGAAGGTGGACGACAGTTTTTGCAGCAGTCACCCCAAACCAAACAACCAGGAAAAGTGCTCGGGCGAATGTAACACAGGGGGCTGGCGCTACTCGGCCTGGACTGAATGTTCTAAAAGCTGTGACGGCGGAAGCCAGAGGAGACGGGCTATCTGTGTAAACTCCCAAAATGACGTCCTAGATGACAACAAATGCACCCACCAGGAAAAAGTCACCACTCAGAGATGCAACGAGTTCCCCTGTCCACAGTGGCAGTCTGGAGACTGGTCAGAGTGCTTGGTCACCTGCGGGAAGGGCCACAGGCACCGGCAGGTCTGGTGTCAGTTCGGTGAAGATCGAGTGAGTGATAAAATCTGCGACCCCCAGGCCAAGCCGGCTTCCATGCAGCCCTGTCAGCAGTCGGAATGCGCATCCTGGCAGGCTGGTCCCTGGGGACAGTGCAGTGTCACCTGTGGCCAGGGCTACCAGCTGAGAGCAGTGAAATGTGTCCTGGGGACCTACATGGCAGTGGTGGACGACAGTGGCTGCAGTGCAGGCACGAGACCGACCGACACCCAGGACTGTGAAGTGTCGCCTTGTCAGCCTCCCCCGGTGGCCCCGGAAGCCAGAAGCCCCCACGGCGGGCGGAGGACGCAGTGGCGCTTTGGGTCTTGGACATCATGCTCAGCCACCTGTGGAAAAGGCACCCGCATGAGGTACGTCAGCTGCCGGGGCGAGGACGGCTCTGTCGCCGACGAGAGCGCCTGTGCCAGCCTGCCCAGACCCGAGGCCCGGGAGGGCTGCTCGGTGACGCCTTGCGGGCAGTGGAAGGCTTCCGACTGGAGCGCGTGCTCCGTGACGTGTGGCCAAGGGAGGGCAACGCGGCAAGTGGTGTGTGTCAACTACAGTGACCACGTCGTCGGCCAGAGCGAGTGCGACCTGGATTACATCCCCGAGACCGACCAGGACTGCTCCATGGCGCCGTGCCCCCGGTGGGGCCCCGACAGAGGCTGGGCTGCTTCGCACCCTTTCCAAAACGAGGACTTCCGGCCCAGGGGCGCCGGGCCAAGCCGCACCCACGTGCTGAGCGGAAACCAGTGGAGAACGGGCCCCTGGGGAGCGTGTTCCAGCACGTGCGCAGGTGGCTCCCAGCGGCGGGTTGTGGTGTGTCAGGATGAGAACGGGTACCCGGCGCGGGACTGTGTGGAGAGAATCAAGCCCGACGAGCAGAGAGCCTGCGAGGCTGGCCCGTGTCCTCAGTGGGTGTCCGGCAGCTGGGGAGAGTGCACGAAGCCTTGTGGGGGAGGCGTGCGGACCAGGCTGGTGGTCTGCCAGCGGGCCAGCGGCCAGCGCTTCCCGGACCTGAGCTGCGACGTCCTGGAGAAGCCCCCCGACCGTGAACAGTGCGGCGCGCACACTTGTCCCGATGGCACCTGGAGTGCTGGCCCTTGGAGCTCGTGTTCTGTCTCTTGCGGTCGAGGGCATAAGCAACGAAATGTTCACTGCATGGCAAGAGATGGAAGCCGTTTAGAGAGTGAGCACTGTGGGCACCTTGCTAAGCCGCATGGGCACAGACGGTGCCGCAGAGGACGGTGCCCCAGATGGAAGGCTGGCGCGTGGAGTCAGTGCTCTGTGTCCTGCGGCCAGGGTGTACAGCAGCGGCATGTGGCCTGTCAGGTCGGAACACAGAAAGCAGCCAGAGAGAGCGAGTGCAACTCGGTCACCAGACCAGAGGCGGAGCGTGCCTGCCCAGCCCCGCCGTGCCCCCTGCACACTTGGAGGGCAGAGCAATGGCAAGAATGCTCCAAGACCTGTGGCGAGGGCTTCCGGTTCCGCCGGGTGGTGTGCGTGGACGAGAACCAGGGCGAGGTTCACAGAGCGCTTTGCAGCTCCAGCCAGCGGCCCACAGACCGAGAGAGCTGCAGCCGGCAGCCCTGCGAGTACGTCTGGATCACGGGAGAGTGGTCGGAGTGCTCAGTGACCTGCGGGAAGGGCTACAAACAAAGGCTGGTCTCCTGCAGCGAGATTTACACCGGGAAGGAGAACTACGAGTACAGCTACCAAACCGCAGTCCACTGCCCAGGCACACAGCCCCCCAGCGCCCAGCCGTGCTACCTGCGGGAATGTCCTGTCTCGGCCACCTGGAGAGTTGGCAACTGGGGAAGCTGCTCTGTGACTTGTGGTGTCGGAGTGATGCACAGGTCCGTGCAGTGTCTGACCGACGAGGACCAGCCCAGCCGCATGTGTCCCGCTGACTCGAAACCAGAAGAACGGAAAACCTGCCACAATACTTACAACTGTGAGTTGCCCCAGAACTGCAAGGAGGTCAGAGGCCTCAGCGGAGCCAGTGAAGACAGTGAATATCTGCTGATCGTCAGAGGAAAGCTCCTGAAGATATTCTGTGCGGGAATGCAGTCCAGCCACCCCAAAGAATATGTGACCCTCGTTCATGGTGACTCTGAGAATTTCTCCGAGGTTTACGGGCACAGGTTGCACAACCCAACAGAATGCCCTTACAATGGAAGCCGCCGGGAGGACTGCCGGTGCCGGAAGGACTACACGGCCGCAGGGTTTTCCAGCTTCCAGAAAATCAGGATCGACCTGAGCAGCATGCAGATCATAACTACCGACTTACAGTTTGCGAGGACCAGTGAAGGACATCCTGTCCCTTTTGCCACCGCCGGGGACTGCTATAGTGCTGCCAAGTGTCCACAGGGTCGCTTCAGCATCAACCTCGACGGGACCGGCCTGTCCCTGACGGAGTCGGCCAGGTGGATATCGCAAGGGAATTACGCTGTCTCGGACATCAAGAAGTCCCCGCACTGA

XM_004871600.1 Coding sequence

Adamts9 ADAM metallopeptidase with thrombospondin type 1 motif, 9, transcript variant X7

Length: 5235 bp    Location: 1336125..1474897   Strand: +

>XM_004871600.1
ATGGATGAACAAGAGAAGAAAGAGGAGCAAAACAAACCCCACATTATTTATAGGCGCAGCATCCCTCAGCAGGAGCCCTCAGCAGGAAAGCATGCCTGTGGCACCTCAGGACATAGAAGCAGCCGCAGGAAAAACAGGAGGAAAGGCAGCAGGAGGAAGTGGGGAGCGACGATCCACCCGGCGGGCGACGTGGCAGCCCTGCACAGTGGGTCGGCAGCTGAGCCGCCCGCTGCACTGGGGAACCGGACCGATGGCCTGAGGGACAGGGGGACACGAAGGAGGACCAAGCGCTTCTTGTCCTACCCCCGCTTTGTGGAGGTGATGGTGGTGGCGGACAACAAGATGCTTCTGTACCACGGAGCGAACCTTCAGCACTATGTTTTGACCTTGATGGCCATTGTAGCCTCTATCTATAAAGACCCCAGTATTGGAAATTTAATTAATATTGTTATTGTGAACTTAGTTGTGATTCATGATGAACAGGAAGGACCTCCCATATCTTTTAATGCCCAGACAACATTAAAAAACTTCTGCCAGTGGCAGCATTCGAAGAACTACCCAGGTGGGATCCAGCACGATACTGCTGTGCTCATTACGAGGCAAGACATCTGCAGAGCTCACGACAAGTGCGACACCTTAGGTCTTGCTGAACTGGGAACCATTTGTGATCCCTACAGGAGCTGCTCTATTAGCGAAGACAGTGGGTTGAGTACAGCTTTTACAATTGCCCATGAACTGGGCCATGTGTTTAACATGCCTCACGACGACAGCAATAAGTGTAGAGAAGAGGGCGTGAAGAACACCCAGCACGTCATGGCGCCGACCCTGACGGTCGACACCAACCCCTGGATATGGTCAAAGTGCAGTCGAAAATACATCACTGAATTTTTAGACACTGGATACGGTGAATGTTTGCTTAATGAACCTGAATCCAGACCCTACTCTCTGCCTTCCCAACTGCCGGGCCTCTTTTACAGCGTGAATAAACAATGTGAATTCATTTTCGGACCAGGAGCTGAGTTGTGCCCGTACATGCAGGTGCAGTGTAGACGGCTGTGGTGCAACGTGAAGAGAAAGGATCAAAGCTGCCAGACGCAGCACACGCCCTGGGCTGACGGGACGGAGTGTGAGCCCGGAAAGCACTGCAAGTTTGGGTTTTGTGTTCCCAAAGAAATGGAGGGCCCAGCGGTTGACGGATCCTGGGGAAGCTGGAGTCCCTATGGCACCTGCTCCAGAACATGCGGCGGGGGCATCAAAACGGCCATTCGCGAGTGCGACCAACCAGAGCCAAGACATGGTGGGAAATACTGTGTAGGACGCAGAATGAAATTTAAGTCCTGCAGCCTGGAGCCGTGTCTCAAGCAGAAGCAGGACTTCCGGGACGAACAGTGTGCTCACTTTGACGGGAAGCACTTTAACATCAACGGGCTGCTGCCCACCGTGCGCTGGGTCCCCAAGTACAGCGGAATCTTGATGAAGGACCGGTGCAAGTTGTTCTGCAGAGTGGCTGGGAGCACGGCCTACTATCAGCTCCGGGACAGAGTGGTGGATGGGACTCCTTGTGGCCAGGATACGAATGATATCTGTGTCCAAGGCCTTTGCCGGCAAGCTGGATGCGATCATGTTTTAAACTCAAAAGCCCGGCGAGATAAGTGTGGAGTGTGTGGTGGTGATAATTCTTCATGCAGAACTGTGGCAGGAACCTTTAATGCCGTGCATTACGGTTACAATACCGTGGTCCGAATTCCAGCTGGTGCTACCAGTATTGATGTGCGGCAGCACAGCTTCTCAGGGAAATCCGAGGATGACAACTACTTAGCTTTGTCAAGCAGTAAAGGGGAATTCTTGCTAAACGGGGACTTCGTTGTCACAATGTCCAAAAAGGAAATCCGAATCGGGAAGGCGATGATTGAGTACAGCGGCTCTGACAACATAGTGGAGAGAATTAACTCCACCGACCGCATTGACCAAGAGCTTGTGCTTCAGGTGCTGTCAGTGGGGAAGCTATACAACCCCGATGTGCGCTACTCGTTCAACGTCCCGATTGAAGGCAGACTGCAGCAGTTCTACTGGAATAGCCGTGGGCCCTGGCAGGCCTGCAGCAAGCCCTGCCAAGGGGTGCGGAGACGGAAGCCTGTTTGCACCAGGGAATCCGACCAGCTTCCTGTCTCTGATCAGAGATGTGATCGGCTGCCCCAGCCAGAGCCCATCACAGAGGCCTGCGGTACGGACTGTGACCTGAGGTGGCACGTGGGTGGCAGGAGCGAATGCAGTGCCCAGTGTGGGCTGGGCTACCGCACGCTGGACGTCTACTGTGCCAGGTACAGCAGGCTGGATGGGAAGACGGAGAAGGTGGACGACAGTTTTTGCAGCAGTCACCCCAAACCAAACAACCAGGAAAAGTGCTCGGGCGAATGTAACACAGGGGGCTGGCGCTACTCGGCCTGGACTGAATGTTCTAAAAGCTGTGACGGCGGAAGCCAGAGGAGACGGGCTATCTGTGTAAACTCCCAAAATGACGTCCTAGATGACAACAAATGCACCCACCAGGAAAAAGTCACCACTCAGAGATGCAACGAGTTCCCCTGTCCACAGTGGCAGTCTGGAGACTGGTCAGAGTGCTTGGTCACCTGCGGGAAGGGCCACAGGCACCGGCAGGTCTGGTGTCAGTTCGGTGAAGATCGAGTGAGTGATAAAATCTGCGACCCCCAGGCCAAGCCGGCTTCCATGCAGCCCTGTCAGCAGTCGGAATGCGCATCCTGGCAGGCTGGTCCCTGGGGACAGTGCAGTGTCACCTGTGGCCAGGGCTACCAGCTGAGAGCAGTGAAATGTGTCCTGGGGACCTACATGGCAGTGGTGGACGACAGTGGCTGCAGTGCAGGCACGAGACCGACCGACACCCAGGACTGTGAAGTGTCGCCTTGTCAGCCTCCCCCGGTGGCCCCGGAAGCCAGAAGCCCCCACGGCGGGCGGAGGACGCAGTGGCGCTTTGGGTCTTGGACATCATGCTCAGCCACCTGTGGAAAAGGCACCCGCATGAGGTACGTCAGCTGCCGGGGCGAGGACGGCTCTGTCGCCGACGAGAGCGCCTGTGCCAGCCTGCCCAGACCCGAGGCCCGGGAGGGCTGCTCGGTGACGCCTTGCGGGCAGTGGAAGGCTTCCGACTGGAGCGCGTGCTCCGTGACGTGTGGCCAAGGGAGGGCAACGCGGCAAGTGGTGTGTGTCAACTACAGTGACCACGTCGTCGGCCAGAGCGAGTGCGACCTGGATTACATCCCCGAGACCGACCAGGACTGCTCCATGGCGCCGTGCCCCCGGTGGGGCCCCGACAGAGGCTGGGCTGCTTCGCACCCTTTCCAAAACGAGGACTTCCGGCCCAGGGGCGCCGGGCCAAGCCGCACCCACGTGCTGAGCGGAAACCAGTGGAGAACGGGCCCCTGGGGAGCGTGTTCCAGCACGTGCGCAGGTGGCTCCCAGCGGCGGGTTGTGGTGTGTCAGGATGAGAACGGGTACCCGGCGCGGGACTGTGTGGAGAGAATCAAGCCCGACGAGCAGAGAGCCTGCGAGGCTGGCCCGTGTCCTCAGTGGGTGTCCGGCAGCTGGGGAGAGTGCACGAAGCCTTGTGGGGGAGGCGTGCGGACCAGGCTGGTGGTCTGCCAGCGGGCCAGCGGCCAGCGCTTCCCGGACCTGAGCTGCGACGTCCTGGAGAAGCCCCCCGACCGTGAACAGTGCGGCGCGCACACTTGTCCCGATGGCACCTGGAGTGCTGGCCCTTGGAGCTCGTGTTCTGTCTCTTGCGGTCGAGGGCATAAGCAACGAAATGTTCACTGCATGGCAAGAGATGGAAGCCGTTTAGAGAGTGAGCACTGTGGGCACCTTGCTAAGCCGCATGGGCACAGACGGTGCCGCAGAGGACGGTGCCCCAGATGGAAGGCTGGCGCGTGGAGTCAGTGCTCTGTGTCCTGCGGCCAGGGTGTACAGCAGCGGCATGTGGCCTGTCAGGTCGGAACACAGAAAGCAGCCAGAGAGAGCGAGTGCAACTCGGTCACCAGACCAGAGGCGGAGCGTGCCTGCCCAGCCCCGCCGTGCCCCCTGCACACTTGGAGGGCAGAGCAATGGCAAGAATGCTCCAAGACCTGTGGCGAGGGCTTCCGGTTCCGCCGGGTGGTGTGCGTGGACGAGAACCAGGGCGAGGTTCACAGAGCGCTTTGCAGCTCCAGCCAGCGGCCCACAGACCGAGAGAGCTGCAGCCGGCAGCCCTGCGAGTACGTCTGGATCACGGGAGAGTGGTCGGAGTGCTCAGTGACCTGCGGGAAGGGCTACAAACAAAGGCTGGTCTCCTGCAGCGAGATTTACACCGGGAAGGAGAACTACGAGTACAGCTACCAAACCGCAGTCCACTGCCCAGGCACACAGCCCCCCAGCGCCCAGCCGTGCTACCTGCGGGAATGTCCTGTCTCGGCCACCTGGAGAGTTGGCAACTGGGGAAGCTGCTCTGTGACTTGTGGTGTCGGAGTGATGCACAGGTCCGTGCAGTGTCTGACCGACGAGGACCAGCCCAGCCGCATGTGTCCCGCTGACTCGAAACCAGAAGAACGGAAAACCTGCCACAATACTTACAACTGTGAGTTGCCCCAGAACTGCAAGGAGGTCAGAGGCCTCAGCGGAGCCAGTGAAGACAGTGAATATCTGCTGATCGTCAGAGGAAAGCTCCTGAAGATATTCTGTGCGGGAATGCAGTCCAGCCACCCCAAAGAATATGTGACCCTCGTTCATGGTGACTCTGAGAATTTCTCCGAGGTTTACGGGCACAGGTTGCACAACCCAACAGAATGCCCTTACAATGGAAGCCGCCGGGAGGACTGCCGGTGCCGGAAGGACTACACGGCCGCAGGGTTTTCCAGCTTCCAGAAAATCAGGATCGACCTGAGCAGCATGCAGATCATAACTACCGACTTACAGTTTGCGAGGACCAGTGAAGGACATCCTGTCCCTTTTGCCACCGCCGGGGACTGCTATAGTGCTGCCAAGTGTCCACAGGGTCGCTTCAGCATCAACCTCGACGGGACCGGCCTGTCCCTGACGGAGTCGGCCAGGTGGATATCGCAAGGGAATTACGCTGTCTCGGACATCAAGAAGTCCCCGGACGGCACCCGCGTGGTGGGGACGTGCGGCGGCTACTGCGGGAAGTGCACGCCCGCCTCCGGCACCGGCCTGGAGGTTCGGGTGCTGTAG