The Bowhead Whale Genome Resource

Part of scaffold_2018 (Scaffold)

For more information consult the page for scaffold_2018 (Scaffold)

Potential Gene Matches

The following genes have been identified as possible orthologs in this organism.

SPTA1 ENSTTRG00000001869 (Bottlenosed dolphin)

Gene Details

spectrin, alpha, erythrocytic 1 (elliptocytosis 2)

External Links

Gene match (Ensembl Protein ID: ENSTTRP00000001754, Bottlenosed dolphin)

Protein Percentage	96.58%
cDNA percentage	97.47%
Ka/Ks Ratio	0.41528 (Ka = 0.0181, Ks = 0.0435)

SPTA1 ENSBTAG00000000888 (Cow)

Gene Details

spectrin alpha chain, erythrocyte

External Links

EntrezGene ID: 505122
UniGene: Bt.89351

Gene match (Ensembl Protein ID: ENSBTAP00000053194, Cow)

Protein Percentage	86.77%
cDNA percentage	90.62%
Ka/Ks Ratio	0.39148 (Ka = 0.0735, Ks = 0.1878)

Additional orthologs identified in other species via the OPTIC pipeline.

SPTA1 (Human) Spta1 (Mouse)

Genome Location

Sequence Coding sequence

Length: 6759 bp Location:248721..184365 Strand:-

Raw sequence

>bmy_19330
ATGGAGAGTGGTGGACCAAAGGTGCTGGAAACAGCAGAAGAGATCCAGGAGAGGCGTCAGGAGGTGTTGAACCGGTACCAGAGGTTCAAGCAACTGGTTGCTGAGAGGGGTCAGAAGCTTGAAGATTCCTATCACTACCAGGTTTTCATAMGAGATGCAGATGACCTCGAGAAATGGATCTTGGAGAAAATCAAGATTGCAGGCGATAAAAGCTATGAAGACCCAACTAACATACAGGGGAAATATCAGAAACATGAATCCTTTGAAGCAGAGGTGCAAGCAAAATCGAGGGTCATTCCTGAGCTGGAAGAAACCAGGAAAGTTCGATTTCCTGAGGGRCATTTTGCCCATGAGGACACCAAGGTCCTTCTGGAGGAACTCAGCCACCTGTGGGACCTGCTGCTGGAGCTGACTCAAGAGAAGGGCACCCTGCTGCTGCAGGCCCTGAAGCTTCAGCAGTACTTACAGGAGTGTGCTGACATCTTGGAGTGGATTGGAGACAAGGAGGCTATMGTGACATCAGTGGAGCTGGGTGAGGACTGGGAGCGCACAGAGGTTCTGCATAAGAAGTTTGAAGATTTCCAAGCAGATCTGGCAGTTCGAAAGGAGAGAGTGAATGCAGTGAACCAATATGCCAATGAGTGTGCTGAGGAAAAGCATCCTGAGATGCCCTTGATTCAGTCAAAGCAGGAGGAAGTGAATGCAGCCTGGGAGCGGCTCCATGGTCTGGCTCTCCAACGACAGAAAATGCTGTCCAGTGCTGCAGACCTCCAGCGATTCAAAAGGGATGTGACTGAAGCCATCCAGTGGATTAAGGAGAAGGAGCCTCAAGTCACCTCTGAGGACTATGGCAAAGACCTTGTGAGCTCTGAGGCACTGTTTCACAGTCACAAGACACTTGAGAGGAACCTTGCAGTCATGAATGACAAGATCCAGCARATGAAAGAGGATCTGGTCTCCAACTGGGGGCACATTCGCACCTTGGCTACCAGCAGATATGAAAAGCTGCAGGCTTCTTATAGGTACCAGCGGTTCTTATCTGACTATGATGAGCTCTCAGGCTGGATGAAGGAGAAGACTGCTTTGATCAATGCTGATGAGCTGCCCACAGATGTGACTAGTGGGGAAGCCCTACTGGACAGGCATCAGCAGCATAAGAATGAGATTGACTCTTATGATGACCGATTTCAATCTGCTAATGAGACTGGTCGAGCCCTGCTGGATGCCAATCATGAAGCATCTGACGAAGTCATGGATAAGCGTTGGCAGCAGTATGGGCAGTGCCTGGAACTGCACCTCTTCTACCGTGACAGTGAGCAAGTGGACAGTTGGATGAGTAGACAAGAGGCCTTCCTGGAAAATGAGGACTTGGGAAACTCCTTGGGCAGTGTTGAAGCCCTTCTTCAGAAGCATGATGACTTTGAGGAAGCCTTTACTGCCCAGGAGGAGAAGATCACAACCTTGGACAAGACTGCAAACAAACTGATTGATAATGACCATTATGATTCAGAGAACATTGCTGCTATCCGGGATGGGCTGTTGGCCCGACAGAATGCTTTACGTGAAAGGGCTGCCACTCGACGCAGATTGCTGGAGGATTCATTGCTTCTACAGCGACTGTATCAGGACTCAGATGACTTAAAGAACTGGATCAACAAGAAGAAAAAGTTGGCAGATGATGAAGATTACAAGGATACACAGAACTTGAAGAGCCAGGTTCAAAAGCAGCAAGTCTTTGAAGAAGAATTGGCAGCTAAYGAGATCCAGCTCAATAACCTACAGAAAACTGGCCAGGAGATGATTGAGAGCAATCATTATGCCTCTGAAAGTGTGGATGTTCGTTTGAGTGAAGTTGCCAAACTCTGGACGGAATTGCTGGAGGCTACAGCACAGAAAGGGACCCAGTTATATGAAGCTAACAAGCAGCTGCAATTTGAAAATAATGCAGAAGACCTGAAGCACTGGCTGGAGGAGGTGGAATGGCAGGCTAGGTCTGAGGATTATGGGAAAGGTCTGGCTGATATACAGAATCTGCTCAGGAAACATGGCCTCCTGGAATCTGCCATGGCTGCTCGTCAGGATCAGGTGGACACTCTCACAGACCTGGCAGCATATATTGAAGAAATAGGCCATCCCAATGCTGGGGACATACGGGCAAGGCAGGAGTCCCTGGTGTCTTGGTTTGAAGACCTGAAAAAGCGACTGGCCAACCGGAAGAATAAGCTCGTTGACCTTCTCCTCCTGCACCAGATCTGCAGAGACACAGAGGATGAGGAGGCCTGGATCCAAGAGACTGAACCTTCTGCAGCTTCCACCTACCTTGGCAAGGACCTGATTTCCTCCAAGAATCTTCTGAACAGACACCAAGTCATCCAGGCTAATATTGCCAGCCATGAGCCACGCATCCAAGTGATAACAGAGAGGGGGAACAAAATGGTAGAGGAAGGACACTTTGCTGCAGAAGATGTGGCCTCTAGGGTCAAGAGTTTGAATGAGAATATGGAATCTCTCCAGGCTCGAGCTGCTAGACGGCAGAATGATCTTGAAGCCAATGTCCAGTTCCAGCAATACCTAGCTGACCTGCATGAAGCAGAAGCATGGATTAGAGAGAGGGAACCTATAGTAGACAACACTAACTATGGGGCTGATGAAGAAGCAGCTGGGGCTCTTCTAAAGAAACATGAGGCCTTTCTGGTGGATCTGAAGGCTTTTGGAAACAGTATGCAAGCTCTTCGGGATCAGGCAGAAGCCTGTCAGCAACAACAGGCTGCACCCGTGGAGGAAGCTGCTCGAGAAGAGAGGGTTGTGGCCTTATATGACTTCCAGGCCCGCAGCCCCCGAGAAGTCACCATGAAGAAAGATGATATCTTAACACTGCTCAGTTCCATCAACAAGGACTGGTGGAAAGTGGAAGCTGATGATCACCAGGGCTTTGTGCCAGCTGTCTACGTCAGGAAACTTGCCCGTGATGAGTTTCCTATGCTCCCGCAACGGAGGCGAGAAGAACCAGGCAACATCACCCAGCGTCAGGAACAGATTGAGAACCAGTACCTTTCTCTCCTGGATCGGGCAGAAGAACGCAGACGTCGTCTATTGCAACGTTACAATGAGTTTTTGCTGGCCTATGAGGCAGGAGACATGCTGGACTGGATCCGAGAAAAAAAGGCAGAAAACAGCGGGGTGGAATTAGATGATGTTTGGGAGCTGCAGAAAAAGTTTGATGAGTTCCAAATGGAGTTGAATGCCCGCTGGGGGTCCTTGCAGAGGCTGGCAGAGGAACAGCGCCAGCTCTTGGGCAGTGCCCATGCTGTCCAAATGTTTCACAGAGAAGCAGATGACACCAAGGAACAGATTGAGAAGAAGTGTCAGGCCCTCAGTGCTGCTGACCCTGGCTCAGACTTGTTCAGTGTTCAAGCCCTTCAGCGACAGCATGAGGGCTTTGAGAGGGACCTCATACCCCTGGAGGAAAAGGTGGCTGTATTGGGGGAGACAGCAGATCGGCTCAGTGAGTCCCACCCAGATGCCACCGATGACCTGCAGAGGCAGCGACTGGAGCTGAATGAGGCCTGGAATGACCTGCTGGGGCTTACGGAGGAACGTAAGGAGAACCTACAGGAGGACCTAAAATTCTTCCTGTTCCTCAGCCAGGCCAGGGACCAACAGAATTGGCTCAGTGGCATTGGTGGCATGGTATCATCCCAGGAGCTAGCTGAGGATTTAACTGGCACAGAGATCATGATAGAGCGACACCAGGAGCATCTTGCTGAAATGGAGGCCGAGGCTCCCACCTTCCAAGCCTTAGAAGACTTCGGTACAGATCTTATAAGCAGTGGGCATCGTGCCAGCCCTGAAATTGAAGAAAAGCTTCAAGCTGTCAAACTAGAGAGAGATGAGTTGGAGAAAGCTTGGGAACAACGCAAGAAGATGCTAGATCAGTGTCTGGAATTGCAGTTTTTCCGAGGGAACTGTGATCAGGCTGAGAGCTGGATGGTGGTACGTGAGAATTACCTAAGGTCAGATGATAAGGGTTCCTTAGACAGTCTGGAGGCCTTGATGAAGAAACGTGACGATTTGGACAAAGCAATCACTGCCCAGGAAGAGAAGATCACTGAACTAGAACTTTTTGCTGAGCAGCTCATAGCTGATGACCACTATGCCAAGGAAGAGATTGCTGCTCGGCGCCAACGGAGAAAATATCTGAAGCACAAGACCTTTGAAAATGAGGTCTATGGCCGAGCTGAGCAGGTGAAAGGAGTCATCACCTTGGGGAACACTCTGATTGAGAGGAGGGCATGTGATGGCAATGAAGAGGCCATGAAGGGTCAAGTAGAAGAGTTGGAGAAAAACTGGGACTACTTGTTTGAGAGAACAATTGACAAAGGACAGAAGCTCAATGAAGCTAGTCGCCAGCAGAGGTTCAACACAGGCATCCGGGACTTTGAGTTCTGGCTCTCAGAGGCAGAGACACTGCTGTCCATGAAAGATCATGCCAGGGATTTGGCTTCGGCAGGAAACTTGCTCAAGAAGCATCAGCTATTGGAAACAGAGATGTTGGCCCGAAAGGATGCACTCGAGGACCTGAATATGTTGGCTGCAGATCTTATCTCCAGCGGGACTTTCAATACTGACCAGATTGTGGAGAAAAGGGATAATGTCAATGAGCGCTTCCTRAAAGTCCAGAAATTGGCAGCTGAACACCATGAAAAACTGAAAGAGGCCTATGCCTTGTTCCAGTTCTTCCAGGACCTAGACAATGAGGAATTCTGGATAGAGGAGAAGTTGGTACGAGTGCGATCCCAGGATTATGGGAGGGATCTGCAGGGGAGGTTGTGGGGTAACGTGACATGGAGGGGGTGTGTTCTTCAGAATGTGCTGGATATGGCGGAGAGCCTGGGAGACAAGGCTGCCGTGGGGCGAGAGGAGATCCGGGAGAGGCTGGATCAGTTTGTTCAACACTGGAACCAGCTCAAAGAGTTGACCAAGGCTCGAGGGATTCGGTTGGGAGAGTCCCTAGAATACTTGGAATTCATGGAGAATGCTGAAGAGGAGGAAGCTTGGATCAGTGAAAAAGAAGCTATGGTTACCCGAGGGGATTCTGGAGACACTTTGGCTGCTACTCAGAGCTTGCTAAAGAAACTCGAAGCTTTGGAGAATGACTTCACTGTCCATGAGATCCGAGTGCAAAATGTGTGTGCTCAAGGAGAAGACATCCTGAGCAAGGAGGAAAGTCAGCATAAAGAGAAGATTTCTACCAAGATAGAGGCTCTAAAAGAGAAGGCCCCATCTCTGGCCAAGGCAATGGCTGCTTGGAAGTTACAACTGGAAGATGATTATGACTTTCAGCAGTTCAACTGGAAGGCTGATGTGGTTGAGGCCTGGATAGCTGAGAAAGAAACAAGCCTGAAGACCAATGGCAATGGTGCAGACCTCGCTGCCTTCCTCACTCTCCTGGCAAAGCAGGACACACTGCATGCCAGTCTGCAGAGCTTCCAGCAAGAGAGACTGTCTGAGATAACTGACCTGAAGGACCAACTGGTGGCTGCTGAGCACAGCCAGACCGAAGCCATTAAGGAGCGCCATGCTGCCCTGCTGAGGCTCTGGGAACAGCTGCTGGAAGCTTCTGAAGCCCACAGACAGGAATTACTGGAAAAACAGCTGCCCCTACAGAAGGCTTCAGCTTTCAACAACTGGTGTGAGAATGCTGAGGAGGACCTGTCAGAGCCTGTGCGCTGTGTCTCACTGGATACAATTCGGCAACTGCAGAAGGACCATGAGGCCTTCTTGACCTCCTTGGCAAGGGCCCAAGGAGACTTCAACTATTTGCTAGAGCTAGACAAGCAGATTAAGGCCTTAAATGTGTCCTCTAGCCCCTATACCTGGTTAACAGTGGAGGTGCTAGAAAGGATCTGGAATCACCTATCTGACATCATCAAGGAAAGGGAGCAGGAGCTGGAAAAGGAAGAGGCAAGACAGGTCAAGAACTTTGAGATGTGCCAAGAATTTGAACAGAATGCCAGTGCCTTCCTTGATTGGATCGTGCAGACCAGATCTTTGCTGAAAGAAACAGGAACTTTGGAATCCCAGCTGGAAGCAAATAAAAGGAAGCAGAAGGAGATCCAGGCAATGAAGCGTAAGCTGACCAAGATTGAGGACCTGGGGGAAAATTTAGAAGAGGCTCTTGTCCTGGACATTAAATACAGCACCATTGGGCTGGCTCAGCAGTGGGACCAGCTCTACCAGCTTGGGATGAGAAGGCAACACAGTCTGGAACAACAGATCCAAGCCAGAGACATCACTGGTCTGAGTGAGGAGACACTACAGGAGTTTGAAACAGCCTTCAGGCACTTTGATGAGAATTTGACAGGTCGCTTAAGTCACAAAGATTTCCGGTCCTGCCTGAGAGGGCTCAATTACTACTTGCCCATGGTGGAGGAAGGTGAACCTGAGCCCAAGTTTGAGAAATTCCTGGATGCTGTTGATCCAGGGAGAAAGGGCTATATCTCACAAACCGACTATACCGACTTCCTGATCGACAAGGAGTCAGAGAACATCAAGTCCAGCGATGAACTAGAGGATGCTTTCCAAGCCCTGGCAGAAGGCAAGGCCTATATTACCAAAGAGGACATGAAGCAGGCCCTAACCCCAGAACAAGTGTCATTCTGTGCCTCACATATGCAGCAATACATGGACCCACGGGGCCGAAGCCAGCCTGCTGGCTATGATTATGTTGGCTTCATCAATTCCTACTTTGGCAAGTGA

Related Sequences

bmy_19330T0 Protein

Length: 2253 aa View alignments

>bmy_19330T0
MESGGPKVLETAEEIQERRQEVLNRYQRFKQLVAERGQKLEDSYHYQVFIRDADDLEKWILEKIKIAGDKSYEDPTNIQGKYQKHESFEAEVQAKSRVIPELEETRKVRFPEGHFAHEDTKVLLEELSHLWDLLLELTQEKGTLLLQALKLQQYLQECADILEWIGDKEAIVTSVELGEDWERTEVLHKKFEDFQADLAVRKERVNAVNQYANECAEEKHPEMPLIQSKQEEVNAAWERLHGLALQRQKMLSSAADLQRFKRDVTEAIQWIKEKEPQVTSEDYGKDLVSSEALFHSHKTLERNLAVMNDKIQQMKEDLVSNWGHIRTLATSRYEKLQASYRYQRFLSDYDELSGWMKEKTALINADELPTDVTSGEALLDRHQQHKNEIDSYDDRFQSANETGRALLDANHEASDEVMDKRWQQYGQCLELHLFYRDSEQVDSWMSRQEAFLENEDLGNSLGSVEALLQKHDDFEEAFTAQEEKITTLDKTANKLIDNDHYDSENIAAIRDGLLARQNALRERAATRRRLLEDSLLLQRLYQDSDDLKNWINKKKKLADDEDYKDTQNLKSQVQKQQVFEEELAANEIQLNNLQKTGQEMIESNHYASESVDVRLSEVAKLWTELLEATAQKGTQLYEANKQLQFENNAEDLKHWLEEVEWQARSEDYGKGLADIQNLLRKHGLLESAMAARQDQVDTLTDLAAYIEEIGHPNAGDIRARQESLVSWFEDLKKRLANRKNKLVDLLLLHQICRDTEDEEAWIQETEPSAASTYLGKDLISSKNLLNRHQVIQANIASHEPRIQVITERGNKMVEEGHFAAEDVASRVKSLNENMESLQARAARRQNDLEANVQFQQYLADLHEAEAWIREREPIVDNTNYGADEEAAGALLKKHEAFLVDLKAFGNSMQALRDQAEACQQQQAAPVEEAAREERVVALYDFQARSPREVTMKKDDILTLLSSINKDWWKVEADDHQGFVPAVYVRKLARDEFPMLPQRRREEPGNITQRQEQIENQYLSLLDRAEERRRRLLQRYNEFLLAYEAGDMLDWIREKKAENSGVELDDVWELQKKFDEFQMELNARWGSLQRLAEEQRQLLGSAHAVQMFHREADDTKEQIEKKCQALSAADPGSDLFSVQALQRQHEGFERDLIPLEEKVAVLGETADRLSESHPDATDDLQRQRLELNEAWNDLLGLTEERKENLQEDLKFFLFLSQARDQQNWLSGIGGMVSSQELAEDLTGTEIMIERHQEHLAEMEAEAPTFQALEDFGTDLISSGHRASPEIEEKLQAVKLERDELEKAWEQRKKMLDQCLELQFFRGNCDQAESWMVVRENYLRSDDKGSLDSLEALMKKRDDLDKAITAQEEKITELELFAEQLIADDHYAKEEIAARRQRRKYLKHKTFENEVYGRAEQVKGVITLGNTLIERRACDGNEEAMKGQVEELEKNWDYLFERTIDKGQKLNEASRQQRFNTGIRDFEFWLSEAETLLSMKDHARDLASAGNLLKKHQLLETEMLARKDALEDLNMLAADLISSGTFNTDQIVEKRDNVNERFLKVQKLAAEHHEKLKEAYALFQFFQDLDNEEFWIEEKLVRVRSQDYGRDLQGRLWGNVTWRGCVLQNVLDMAESLGDKAAVGREEIRERLDQFVQHWNQLKELTKARGIRLGESLEYLEFMENAEEEEAWISEKEAMVTRGDSGDTLAATQSLLKKLEALENDFTVHEIRVQNVCAQGEDILSKEESQHKEKISTKIEALKEKAPSLAKAMAAWKLQLEDDYDFQQFNWKADVVEAWIAEKETSLKTNGNGADLAAFLTLLAKQDTLHASLQSFQQERLSEITDLKDQLVAAEHSQTEAIKERHAALLRLWEQLLEASEAHRQELLEKQLPLQKASAFNNWCENAEEDLSEPVRCVSLDTIRQLQKDHEAFLTSLARAQGDFNYLLELDKQIKALNVSSSPYTWLTVEVLERIWNHLSDIIKEREQELEKEEARQVKNFEMCQEFEQNASAFLDWIVQTRSLLKETGTLESQLEANKRKQKEIQAMKRKLTKIEDLGENLEEALVLDIKYSTIGLAQQWDQLYQLGMRRQHSLEQQIQARDITGLSEETLQEFETAFRHFDENLTGRLSHKDFRSCLRGLNYYLPMVEEGEPEPKFEKFLDAVDPGRKGYISQTDYTDFLIDKESENIKSSDELEDAFQALAEGKAYITKEDMKQALTPEQVSFCASHMQQYMDPRGRSQPAGYDYVGFINSYFGK*