Monarch geneset OGS2.0

DPOGS205042
TranscriptDPOGS205042-TA3165 bp
ProteinDPOGS205042-PA1054 aa
Genomic positionDPSCF300074 - 648253-673238
RNAseq coverage10x (Rank: top 84%)
Annotation
HeliconiusHMEL0156180.078.95% 
BombyxBGIBMGA006922-TA0.091.65% 
Drosophilaelk-PA0.057.36% 
EBI UniRef50UniRef50_Q7Q9F50.064.91%AGAP005251-PA n=12 Tax=Coelomata RepID=Q7Q9F5_ANOGA
NCBI RefSeqXP_314166.40.064.91%AGAP005251-PA [Anopheles gambiae str. PEST]
NCBI nr blastpgi|2700129470.067.21%hypothetical protein TcasGA2_TC004313 [Tribolium castaneum]
NCBI nr blastxgi|1582928820.065.04%AGAP005251-PA [Anopheles gambiae str. PEST]
Group
Gene OntologyGO:00160207.8e-46membrane
GO:00068137.8e-46potassium ion transport
GO:00052497.8e-46voltage-gated potassium channel activity
GO:00550852e-16transmembrane transport
GO:00068112e-16ion transport
GO:00052162e-16ion channel activity
GO:00071651.6e-10signal transduction
GO:00048711.6e-10signal transducer activity
GO:00063551.4e-08regulation of transcription, DNA-dependent
KEGG pathway 
InterPro domain[261-270] IPR0039387.8e-46Potassium channel, voltage-dependent, EAG/ELK/ERG
[518-725] IPR0184901.1e-31Cyclic nucleotide-binding-like
[100-109] IPR0039503.4e-21Potassium channel, voltage-dependent, ELK
[589-726] IPR0147106.5e-18RmlC-like jelly roll fold
[303-510] IPR0058212e-16Ion transport
[592-722] IPR0005951.7e-12Cyclic nucleotide-binding domain
[41-139] IPR0000141.6e-10PAS
[93-135] IPR0016101.4e-08PAC motif
Orthology groupMCL10770 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS205042-TA
ATGCCGGTTCGCAAGGGGCTCCTTGCGCCCCAGAACACCTTCCTCGATACTATAGCGACACGCTTCGATGGCACACACAGCAATTTCGTGTTGGGAAACGCGCAAGTGCCGTGTTACCCGATCGTATATTGCTCAGATGGATTCTGCGAGTTGACTGGATGGGCTCGGGCGCACATTATGCAAAAGGGATGCGCCTGCAAGTTTCTTCATGGACCTGACACAATGGAAGAACATCGACACGAGATCGACACAGCCCTGGATTCCAAACATGAACTCAAGCTGGAACTTATATTCTATAAGAAAAACGGGACCCCTTTCTGGTGCTTACTTGATATCGTCCCAATTAAAAATGAAAAACGAGAAGTGGTCTTATTCCTCGCTTCGTTCAAAGATATCACCAACACTAAGATGGCCGCGATGAACACTAATGAGGAGTTCGACAGCGGAGCCGCGGTGCGGCCTTCGGCAGGAGTGGTCACTCTAGCGTTATCCCCATTTGTACCCGCAGCGGCACTTTTAGGCGCCAGGTTCCGAGCTGAATCTAGTTGCCTACTTCCAGACCCGAATGGCAATCTTGACCCCGAAGCGCCCTCACCCGCCAACATGGGCAGACGGCGCTCCAGGGCAGTTTTATACCAGCTTTCAGGACATTATAAACCGGATAAAATGAAGACCAAATTAAAACTCAACAATGTTAGTAAGAACCTCCTACACTCATCTGACCCTCCGCTGCCTGAATACAAAACGTCAGCTATAAAAAAGTCAAGATTTATTATCTCACATTACGGCATTTTTAAAACCTTCTGGGACTGGTTGATCCTAATAGCAACATTTTATGTAGCTGTTGTGGTGCCATATAACGCGAGTTTTGTTGATGAAGGTCATCCAAGGATCAGTGTAACGAGTGACGTTGTTGTCGAAGCCCTTTTCATTATAGATATCGTTTTAAATTTCCGAACAACATTTGTAAGTAAGAAAGGAGAAGTAGTATCTGATTCAAAAGCAATAGCTCTTAATTACATCCGCACTTGGTTTGTCGTTGATCTTCTTGCCGCGCTTCCGTTTGACCTACTTTATGCATCAGACGTATATAGCGGGACGGAGTCTACTCACGGGAACGTTCATCTTGTGAAATTAACTCGACTACTACGTTTGGCTCGTTTGCTCCAAAAAATGGACCGATATTCACAATATTCCGCCCTAATTTTAACTCTTTTAATGTTATCTTTCACGCTAGTAGCACATTGGCTGGCCTGCATATGGTTTATTATAGCGGAAAAGGAAATTCAGCATCATAGAAATGAAAGTTGGGATTTAGGTTGGATTAACAATCTGGCTGAACGCCTGAAAGTACCAATTGTGAACATATCCCATAGTGAGAGCTATGTTACTGCTCTCTACTTCACTTGCTCATCATTAACGAGTGTTGGTTTCGGCAACGTGTCCGCAAACACCTTACCTGAGAAAATATTTAGCATCCTTACAATGCTTGTCGGAGCTCTAATGCATGCGGTTGTGTTCGGTAATGTGACTGCAATTATTCAAAGAATGTACTCGCGACGATCTATGTATCAAAGCAAATGGCGTGACCTCAAAGATTTTCTCACCATAAACCAAGTTCCTAAAGAACTTAAACAGCGCATGCAAGACTACTTCCAAACGATGTGGTCACTCAACCATGGCATTGATATTCACGAGACCCTCAAAGAATTCCCTGAGGAATTGCGAGGAGATGTGTCGTTACATTTGCATCGGGAGATATTATCACTTCCAATATTTGAGTCCGCGTCTCAGGGTTGTCTGAAACTTCTGTCACTACATATTCGAAACAATTTTTGCGCTCCCGGAGAATACCTTGTTCACAAAGGAGATGCTTTAACTTATATTCACTATATTTGTAACGGATCGATGGAAGTTATGCAAAATGATATGGTTGTCGCTATTCTCGGAAAGGGTGATTTGGTGGGATGTGACATGAATACTCATTTACAAGTCCACAATGGCTCGGGAACATCGCAATCTAATAACCCCGACGTGGTTGTAAAGTCAAGCAGTGATGTCAAGGCCCTCACATATTGCGATTTAAAATGTATCAACATGGTTGGTCTGGGTGAAGTTTTACGACTTTACCCGGAATATCAACAAGAATTTGTTCATGATATATTACATGATTTGACATACAATTTACGAGAAGGCTATGAGGCTGAGCAAGAAGAAGGGAACGGGCATCCATCTCTCACTCTACCATCAATTTCAGAGGATGATGAAAATGCCGCTGAAGAAAATGCTCTATCTCCAAAAAAACCTCTATTATCTAGTAGTAGTCCCCGTCATACAAAATTCAGAACTGACGGACAACCACGATTATCACATAGGGAATTGCGAGAAAGAATCGAAAGACAGCGGTCGGTGGCTACACCCAAAATTACTCGAGCTGATTCTTTGGAGGGACTAAATTTAGAAATGCATAATACACGCTCTTCAGTTGATAGACTTGACACACAAGTGTCGAGCTTGCATCATGACGTTGCCGCTCTCAGCATGGAGGTTCGTAATGCAATACAAGCTCTACAAGAGATGACAGGTCCAGTGTGGCACGCAGCACACTCAAATCCAAATTTACAATGGAACACTCCTCCTAATCAACTTGCCAGAAGTTGTAGTCATCCACCTGACGTATTTTGCTGGGATCAGCAAGAACGCCCTCTCAGTCCTGAACGGCCAAAAATAAATCGAAGTACGCAAACCGAACCGTTTCTCCATTGCGTTACTCAGTACATACTGGAACACCCAGCTACTGTCATGCTTCTGTTAGGATTAGACCCAATGGCAAACCTGGCGCCAGTGATACCACCAGCTGTAGAGTATTATGATACGAGAAGCAGAAGGCCGAGTGGTCTTGAGCAAATAATAGAATCGGAAAATGGTAGTCAAACACCGTCTAGTTCGGCCAGTGACAAAGGCGAAGCGGCGAATAGCCCCATTGGAAGTGAAAAAGATCTCGACTTGCAGACGGATAAGATTCGGTCGTTAGATAAAGACAGAAATTTAAATTTAAAAAGAAATAGATATTCTGCTAGCGATATTTGTGAAGTATCCGAGCGGTTGCTGCCTTCCAGATCATCTCCCAGCACATATAGCCTTAAAAATAATGATAAAAGTTAA

Protein sequence:

>DPOGS205042-PA
MPVRKGLLAPQNTFLDTIATRFDGTHSNFVLGNAQVPCYPIVYCSDGFCELTGWARAHIMQKGCACKFLHGPDTMEEHRHEIDTALDSKHELKLELIFYKKNGTPFWCLLDIVPIKNEKREVVLFLASFKDITNTKMAAMNTNEEFDSGAAVRPSAGVVTLALSPFVPAAALLGARFRAESSCLLPDPNGNLDPEAPSPANMGRRRSRAVLYQLSGHYKPDKMKTKLKLNNVSKNLLHSSDPPLPEYKTSAIKKSRFIISHYGIFKTFWDWLILIATFYVAVVVPYNASFVDEGHPRISVTSDVVVEALFIIDIVLNFRTTFVSKKGEVVSDSKAIALNYIRTWFVVDLLAALPFDLLYASDVYSGTESTHGNVHLVKLTRLLRLARLLQKMDRYSQYSALILTLLMLSFTLVAHWLACIWFIIAEKEIQHHRNESWDLGWINNLAERLKVPIVNISHSESYVTALYFTCSSLTSVGFGNVSANTLPEKIFSILTMLVGALMHAVVFGNVTAIIQRMYSRRSMYQSKWRDLKDFLTINQVPKELKQRMQDYFQTMWSLNHGIDIHETLKEFPEELRGDVSLHLHREILSLPIFESASQGCLKLLSLHIRNNFCAPGEYLVHKGDALTYIHYICNGSMEVMQNDMVVAILGKGDLVGCDMNTHLQVHNGSGTSQSNNPDVVVKSSSDVKALTYCDLKCINMVGLGEVLRLYPEYQQEFVHDILHDLTYNLREGYEAEQEEGNGHPSLTLPSISEDDENAAEENALSPKKPLLSSSSPRHTKFRTDGQPRLSHRELRERIERQRSVATPKITRADSLEGLNLEMHNTRSSVDRLDTQVSSLHHDVAALSMEVRNAIQALQEMTGPVWHAAHSNPNLQWNTPPNQLARSCSHPPDVFCWDQQERPLSPERPKINRSTQTEPFLHCVTQYILEHPATVMLLLGLDPMANLAPVIPPAVEYYDTRSRRPSGLEQIIESENGSQTPSSSASDKGEAANSPIGSEKDLDLQTDKIRSLDKDRNLNLKRNRYSASDICEVSERLLPSRSSPSTYSLKNNDKS-