Monarch geneset OGS2.0

DPOGS201261
TranscriptDPOGS201261-TA5934 bp
ProteinDPOGS201261-PA1977 aa
Genomic positionDPSCF300037 + 524706-555772
RNAseq coverage760x (Rank: top 17%)
Annotation
HeliconiusHMEL0053580.072.86% 
BombyxBGIBMGA012482-TA0.086.18% 
Drosophilabtsz-PI6e-11955.15% 
EBI UniRef50UniRef50_E2AQH20.039.18%Synaptotagmin-like protein 5 n=10 Tax=Endopterygota RepID=E2AQH2_CAMFO
NCBI RefSeqXP_001842762.13e-13943.94%bitesize [Culex quinquefasciatus]
NCBI nr blastpgi|3071732860.039.18%Synaptotagmin-like protein 5 [Camponotus floridanus]
NCBI nr blastxgi|910773720.039.87%PREDICTED: similar to bitesize CG33555-PC [Tribolium castaneum]
Group
Gene OntologyGO:00055151.2e-38protein binding
GO:00160203.1e-06membrane
GO:00068103.1e-06transport
GO:00080213.1e-06synaptic vesicle
GO:00052153.1e-06transporter activity
KEGG pathway 
InterPro domain[1679-1815] IPR0089731.2e-38C2 calcium/lipid-binding domain, CaLB
[1702-1791] IPR0000084.1e-22C2 calcium-dependent membrane targeting
[1689-1704] IPR0015653.1e-06Synaptotagmin
Orthology groupMCL11133 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS201261-TA
ATGCAGGCCGCCAGGGACGCCGGCCGACCGAAGAGAAATCTGAAGAGAAGGAGCTCCAGGAAGAAGTCACTGTCACCGTCAGACCTTAGATGTGTCCGAGGGGATGTGAAGAACGACAAAATGAACGGCAAGAGGTCGCTCTCAGAGGGCTCCTTGAAAAATAGGCACAAAAAAGCCGCGCTGCCGACATATCCTATACCTGGAAGTGATTTCGAAGTGTCTCTAGATTTGACCACCGATCCGAAGGGTCCTACCGAGAGCGACGAGTCTAACATACCGCCGACCAGTTCCGACAGAGACACCGAGGACGACATCAAAGCCCCCAAGATTGTCCCTCACCGCCCTCGCTGGGACTCCGCCAGCGACATGGACTCGCTCGTCTCCATCGCCGTCAAGAAAGCAGCTCGCAGAAGAAAAACCTCCTCTAACCTCGTTAATATCGATAGTAGTACGGCCATCACTAGACGGTACAGTCGGCCGCCTCCCTCGCTCAGCGAGCACAGTCCTGTGCACGCGCAATACAACCTGACCGGTTATTCTTGTATCAACGGCGAAGGTGAAGTGATTGAAGCTGAGGCCGGTCGCATGCGTCCCGAGGACTACCGGCTCGTGTTCCTCAGCTCGGACTCGTCTGGTCGGGACGACACCGAGGACTCGGCTTCCACCGCCTCGTCTGCCGCCCCTCCCGCGCCCGACGACTGCGACTGGGACTACTTCGAGCCGGGCGCTCCGCCGCCGCCTGCGCCGCCTCCCCCTGTCACCACACACCACCCCCCCACCTGCTCGTGCGGCGCCGAGCCCCGCCTAGTGCCGGTGCCCGTTCCTGTCCCTGTGCCAGTGCCGGCGTCGTTGTGGCCCGCTCTCCTCGCCTTCCCCCCTCCGCCGACCCCCGCCTGGAGTACGTACCCCGGCTTCCCTATCGATGCGGCGACCCTCGCTCGCCTCACGACGGCCGCGGTGGTCACCGCCGCCGCCACCGCTCGGAACAAACTAGAAATGACCGTCGATAAGACGGATAAGGCGATACAGGCGTCCGCCGATAAGGATAAAGATGATAAGTGTATCGAGCGAGCAGTCGGACCCGAGCCGTCGGACGAGATAAAGGTGATCGCCGAGGACTCTGTGTCCGTGATGTCCGAAGCGGAGACGATGCCGGAGCACCTGCTGGCGGAGAACGCGTTCCCCTCCTCGGACGAGTCCAACTCGAGCGACTCCGAGGCGGGGGCGGAGCGCCGCAGCTACGACCTTCACAGCGGCGCCCCGGACGAGCCCGCCACCAGCGACGAGGACTCCGACGACTCCGGGGGAGGCGGACAGTTCTCACGAGTATTCGTCGTCAACCCCGCGGACTCCTCCTCGGACGAGGACGCAGACAGCAGCGGCATCGACTGCGACGACTCCTTCGACAAGAAGTCCGACAGCCTGGAGATCATAGCGGCGGAACTCGCCGCGCAACACGACGACCACGAACCCGAGTCTAATCGACGCCCGCGCGATGATGAGAACATCGTTGTTTTGGAAGCCGTGAATTATACGGAGAAATATCCTATGATTTCCTTATGCAATAACAGTGACGATGGTGGTGAAAGTGTAGCTAAAAATGATAGTATTATGACGTTCTGTGACGACAACATGCTACAGAGTGAAATTAGTGAGAAGTTCAATAGCTTTAATACGGTCAGTGATGAACGCGAAAATAGTTTAAATTATGCGAGTAACGTGGAGAATAACCGAAGTAGTGGTGCCTCCGATAACATAGAGTGCGACTCCTTGGACAACTCCTTTAGCTCCGATTATAATATTAAAGTGTCCGTGTCCGTCGAGTCCGACAAGCCTTACGACGACGAGAGTTCAAACACAAACCAAACACAGTCAGTGGAATTGAGAAAACTATCACCTTCACCCGAACTCGGAAGTGAGGAAACGAGTTTGCGAACCTTATCGTCAGCTCCCGCAGATAAAATAGACCTGTTCAAAGGTATCGAACGCACGCTCAGTGAGTTGTTGAAGAAAGAATTAATGGGAGACCAGGGGGAGGAGAAAACGCAGGGGACGGGCGGCGCGGAGGGGAGCGCCGGCGCACCTGACGCCGACACAGTCAGCCGCCCGCCGTCGACCGACGCGGACCTCGCGCGATTCACGAGCCGCGTTATGATAACGCACGACCGCGTCTCCGTCGTCACGTCCGACACGACGCGGCTCATGCGTGACATTATAGTGCACCACACTAACTCTCAGAGCGAGCCGGACCCGAGCGTGGCCGGGCTTCACGGGAGCGAGCGGTCCGACGACGAGGCTCAGCAACCTTCGGGTGGAGTGACTGTCGTTAGCAACGCAGACACTCTCTCGGCGGTCGTGTGTCTAGAGGAGGGGCTCGCGGACGACGACTCGTGGGTCGAGGACGTCAGCCACGATGACGCTACATCACCGTCGGACTCGGAGTCGGGGGATGAAGCCACTTTGCCCACTCGAGCTGATTTCGCGTATTGCCGGCGCTCCTTGGACTTCACCCTACATACGATCGTCGAAGAGAGCTGCGAAGAGAGTGAGACGGAGAAAACCGTTAAAAAGACTAGACCTATATCGGCTACCGAATTGGAGAAGTACTTTTTCTTCGGGCTAGGTGACGGAACGACCACTCGCGAGGATGAAGAACAAGTGTCCGAGACGTCCAGCGTGTGCAGTGAAGGTGGTGAGTCGACTGTGGACATGGAACAACAGACCAGTAGGAAAAGTGGTGATAGTGATGAGCTTGTGTCCTCTCGATTAGAGAAATACTTTCTCTCTGGCTTTATGGGTTTCAATCAAGAGAGACGTGATTCTGATGGATCAGGAAGCGTCGGCAGTGACAGTGAGGGGAAACAGAGTCCCGAACAGAGACGAAAAAGATTGGTTCGGGCTCGGGGCGCCCCCAGATCACATTCGTCTTCGTTGGACAACTTACTGGCGGGCGATGAACCCTCTCAAGACACTCAGGAAATATCGGACGGATCGAGCACCGAGACAGAGGATCGTCACGAATCTCTCGAAAGGCTCGACATGACGGGTGAAGTTAAGAGGAAAAAACAAAGTAAAAAGTCGCGCGGCTCGCCCGCTGACGAACGGCGACAGTCCGTGGAATTCCCTGAAGAGACCAGGGATGACACGAGATCCGTGTCTGAAGGCGAAGACGGCAGACTGACACCGAGAGTAGAATTCCCACCTCTAGGTTCCGAACTGTCGGAATCTAAAAAACAAACGAGTAGAGATAGCGGTTTCGTCGGTAGTTGTGATGATTTGTTAAAGAACGGCGACAACGGCGTAGATTTCCCCAGATCTCATGAACCTAAAACAGAGTTGGAGGAAATCATTGAGGAAGCTCGACCGGAGCTGGACGAGAGGATCGACCGTCCGCCGTCATCGCGACCCCCGCCGAGCCCACTGACGCGTAAAGATAGCTTTAATAACTGGTCCTCCGACGAGGAAACTAATCTCATGATGACAAAAATGCGTCAATTTTTCAAACAAATGATAAACACGACCAACGTCAGGGCGTCGACTCCGGCCTCATCCAACTCGGAAAGCTCACGCCCACCGAAACCACCACAACTACTTTATTTCGAGAGCGAGTTGACGAGATTAATGAAAACTGTACCCGGAATAAGGGACGAGGAAGTCAGGGAAATCGTAGAATACTTATCAAGCGAGGATACGTGGAGCGACTCTTATGACTCGTCGGACTACGCGGGCTCCGATCTCGAAGGCACCTCCGCCAACAGATCGGCGTTAAGAAAGCAAATATCCGACAGCTGTCGCGAGATAATAGACGAGTTCGACCGAGGAAACAGTGAGGCGGGGTCCTTAGAGCGGGACGCTGTCGGCGCGTATCAAAGACTCGCCGCGACTTTGGGTCGCGCCGGGGACGGGTCGCCGCCTCTGTTCGGGAAGGTGATGCGGCACATCGGAGGCAGACTCGTGGCGTTGATGCACGAGGTGTCAGCGGGGGCGCCACCCAGCACCGACGAAGACAGCGCCTCCGAGCCCGGAGCTTTAGCCAGGAGTCGCTCGCACGACATCTTAGAGGCGGCGGCGAGTCGCGGCAGTGTCGCCAGTGACAGTGAGAGGTTTTCGTGGAGAGGAAGTTTTGAATCTGCTCTACTGGCGGCGGATTCCAGGGGCACATTGGGGGGCGAAGCCCGACGCTCGCCGGCGGGGGCTGAGCTGGCGGCTCAAAAGTCCCATTCGAGAAGCTGCGGTGCCATCAGCGGGAGCGAAGACAGGCTGTGGAGAGGACGGAGGAGAGCCTCGGCGCCAGACGCAGAGTCGGAGGAAGAACAACGCGCTGGTTCGTTGCCTCGGCTTCCTTCTATCGCGGGGGTAGGCCCCGTCAAGTCCGCTCGCTACCGGGCCCCGGGGTTCAGGACCGCGACCCGCGCAGCCTCCGCCCCCGGACTCCACGTGCCGAGGAGACGAAGGCCTGGACCTCACGCACACACTCCCTCCACACCAAGCCTCCAAGGAGTTGTTGAGGATTGTAAGGAAAGCAACTTTATGTCTCGTTTGTACGGTGTGTGTTGTTATTGTTGTGGCGGAAAAAACACTCAAGAATTACCGGACTCGCCATCTGATGATCTTAATGCGTCTTTGGTGGAACATCTCGGCTGTAGCTATACGTTAAATACAGATGCGTGCCAAAAGCAACCTGTTCCCACTGTAACTGTCACGAAGATAATCGACAACGATTCTGTGAAATCAACCCAACTTCTACTGAAACACGAGAGAGACGACAGTGATTCTATCATCAGTTCAACGATAAAACGTGGCCGCCATGAAATGCTTTGTGACTCTGGAAAAAATAGTAGAAGCAGCACCCTGAGAGCTGATGACATGTACATATCTGAAGGTGTGTCGGGACATGCTACTTTACCCCGTCGGTCTAATTCGCCTGTGCCGCATGAACGAGACGTGGACCGGGAACGGTTTCCTCTCAACAGGAGTGGTCTCCAGACTCGGTCTGAGTCTATGGCATCAGTATACTCCGGTGCGGGAGAGGCAGGACGCGGCGGTGTGCCGGTGCGAGGGGAAGTTCAGTTCTCGCTGGTGTACAACTACCGGCTGGGCGCTCTGGAGGTGGGAGTCAAGAGATGCAGGGACCTCGCGCCCATCGACCAGAAGAAAAACAGATCGGATCCTTATGTTAAGGTGTACTTGTTGCCCGACAAGTCCAAGACTGGCAAAAGGAAGACGAAGGTAAAGAAGAACACACTGAACCCCGTGTTCGAGGAGACCCTGTCGTTCACGGCTCCGCTGGAGTCCCTCGCGAGCCGCGCGCTGTGGCTGAGCGCTTGGCACGCTGACATGTTCGGAAGAAACGACTTCCTTGGGGAGGTGACCCTGCCGCTCGCCGGCAGACTGTTCGATGATCCCTCGCCCGCGTGGTACCCGCTCACCGAGAGGTCGGAGCTGCCGGAGGAGGCGGCCGGTACTCGCGGGGACCTCATCGTGGGTCTCAAGCTGGAGCCGGAAGCTCGCGCCCTGCACGTGCTGGTGAAGGAGGCGCGCGGGCTGGTTCCGTCCAGGGCCGGGTCGCTGGCGGACGTGTTCTGCAAGGCCTACCTCCTGCCCGAGAGAGGAAGACTCCACAAGCGGAAGACGCCCGTCTGCCGCCGCACGCTCGCGCCCGTCTGGCGGACGCAGCTGACTTACAATGACGTCACATCCGCCGCGCTCAGCGAGCGAGCGCTGGAACTCACGCTGTGGGACCGGGACCGGCTCGCGTCCAACGAGTTCCTCGGAGCCGTGAGGCTGTCGCTCGGGACGGGCGTTCACAGAGGAGAGAGCGTTAGCTGGATGGATAGCGCGGGCAAGGAAGTCGCTCTGTGGCAGACCATGTTGCAGCAGCCCAATTTCTGGGTGGAAGGGTCATTGCCCTTGCGACCCCACCTTAATAACTGA

Protein sequence:

>DPOGS201261-PA
MQAARDAGRPKRNLKRRSSRKKSLSPSDLRCVRGDVKNDKMNGKRSLSEGSLKNRHKKAALPTYPIPGSDFEVSLDLTTDPKGPTESDESNIPPTSSDRDTEDDIKAPKIVPHRPRWDSASDMDSLVSIAVKKAARRRKTSSNLVNIDSSTAITRRYSRPPPSLSEHSPVHAQYNLTGYSCINGEGEVIEAEAGRMRPEDYRLVFLSSDSSGRDDTEDSASTASSAAPPAPDDCDWDYFEPGAPPPPAPPPPVTTHHPPTCSCGAEPRLVPVPVPVPVPVPASLWPALLAFPPPPTPAWSTYPGFPIDAATLARLTTAAVVTAAATARNKLEMTVDKTDKAIQASADKDKDDKCIERAVGPEPSDEIKVIAEDSVSVMSEAETMPEHLLAENAFPSSDESNSSDSEAGAERRSYDLHSGAPDEPATSDEDSDDSGGGGQFSRVFVVNPADSSSDEDADSSGIDCDDSFDKKSDSLEIIAAELAAQHDDHEPESNRRPRDDENIVVLEAVNYTEKYPMISLCNNSDDGGESVAKNDSIMTFCDDNMLQSEISEKFNSFNTVSDERENSLNYASNVENNRSSGASDNIECDSLDNSFSSDYNIKVSVSVESDKPYDDESSNTNQTQSVELRKLSPSPELGSEETSLRTLSSAPADKIDLFKGIERTLSELLKKELMGDQGEEKTQGTGGAEGSAGAPDADTVSRPPSTDADLARFTSRVMITHDRVSVVTSDTTRLMRDIIVHHTNSQSEPDPSVAGLHGSERSDDEAQQPSGGVTVVSNADTLSAVVCLEEGLADDDSWVEDVSHDDATSPSDSESGDEATLPTRADFAYCRRSLDFTLHTIVEESCEESETEKTVKKTRPISATELEKYFFFGLGDGTTTREDEEQVSETSSVCSEGGESTVDMEQQTSRKSGDSDELVSSRLEKYFLSGFMGFNQERRDSDGSGSVGSDSEGKQSPEQRRKRLVRARGAPRSHSSSLDNLLAGDEPSQDTQEISDGSSTETEDRHESLERLDMTGEVKRKKQSKKSRGSPADERRQSVEFPEETRDDTRSVSEGEDGRLTPRVEFPPLGSELSESKKQTSRDSGFVGSCDDLLKNGDNGVDFPRSHEPKTELEEIIEEARPELDERIDRPPSSRPPPSPLTRKDSFNNWSSDEETNLMMTKMRQFFKQMINTTNVRASTPASSNSESSRPPKPPQLLYFESELTRLMKTVPGIRDEEVREIVEYLSSEDTWSDSYDSSDYAGSDLEGTSANRSALRKQISDSCREIIDEFDRGNSEAGSLERDAVGAYQRLAATLGRAGDGSPPLFGKVMRHIGGRLVALMHEVSAGAPPSTDEDSASEPGALARSRSHDILEAAASRGSVASDSERFSWRGSFESALLAADSRGTLGGEARRSPAGAELAAQKSHSRSCGAISGSEDRLWRGRRRASAPDAESEEEQRAGSLPRLPSIAGVGPVKSARYRAPGFRTATRAASAPGLHVPRRRRPGPHAHTPSTPSLQGVVEDCKESNFMSRLYGVCCYCCGGKNTQELPDSPSDDLNASLVEHLGCSYTLNTDACQKQPVPTVTVTKIIDNDSVKSTQLLLKHERDDSDSIISSTIKRGRHEMLCDSGKNSRSSTLRADDMYISEGVSGHATLPRRSNSPVPHERDVDRERFPLNRSGLQTRSESMASVYSGAGEAGRGGVPVRGEVQFSLVYNYRLGALEVGVKRCRDLAPIDQKKNRSDPYVKVYLLPDKSKTGKRKTKVKKNTLNPVFEETLSFTAPLESLASRALWLSAWHADMFGRNDFLGEVTLPLAGRLFDDPSPAWYPLTERSELPEEAAGTRGDLIVGLKLEPEARALHVLVKEARGLVPSRAGSLADVFCKAYLLPERGRLHKRKTPVCRRTLAPVWRTQLTYNDVTSAALSERALELTLWDRDRLASNEFLGAVRLSLGTGVHRGESVSWMDSAGKEVALWQTMLQQPNFWVEGSLPLRPHLNN-