Monarch geneset OGS2.0

DPOGS201875
TranscriptDPOGS201875-TA6534 bp
ProteinDPOGS201875-PA2177 aa
Genomic positionDPSCF300191 + 199437-215675
RNAseq coverage16x (Rank: top 81%)
Annotation
HeliconiusHMEL0130873e-11053.70% 
BombyxBGIBMGA006051-TA1e-14160.31% 
Drosophilasei-PB8e-2324.24% 
EBI UniRef50UniRef50_UPI0001CB9C696e-7421.67%UPI0001CB9C69 related cluster n=1 Tax=unknown RepID=UPI0001CB9C69
NCBI RefSeqXP_002731383.11e-7421.67%PREDICTED: tetrameric potassium-selective cyclic nucleotide gated channel-like, partial [Saccoglossus kowalevskii]
NCBI nr blastpgi|2912227612e-7321.67%PREDICTED: tetrameric potassium-selective cyclic nucleotide gated channel-like, partial [Saccoglossus kowalevskii]
NCBI nr blastxgi|2420038801e-11722.91%voltage and ligand gated potassium channel, putative [Pediculus humanus corporis]
Group
KEGG pathway 
InterPro domain[1304-1495] IPR0184908.9e-30Cyclic nucleotide-binding-like
[1847-1963] IPR0147102.4e-14RmlC-like jelly roll fold
[873-958] IPR0005954.9e-11Cyclic nucleotide-binding domain
Orthology groupMCL20440 Lepidoptera specific
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS201875-TA
ATGGCAGACACTTCAAAGAAAAGCATATTTAAGGATACCACTTCAGTTCACATGAACGTAGATGTTGAGAATCAACAGCGTGAGCAAGAAGAGGACGAGTATGGCTTTTATTATTCCATTGATTGTTTCAACAAGTGCCTGTTCTCCCTTCATGACAACGTTATGTGGAATGCCATACTGTGCTTCCTGGCCGTGGCGGCCATAGTCGTAGTGTCCATCGAGTTTAAAAGCACTCTTTCAGAGTTGTTTGAAGTTGTGTATAATGTTTTCTACGCCGTACATGTCCTAAGTCTAGCCTACAACTCCCTGGCCAATCTGCATACATCTGACTTAGGTCTATGCACAGCCAGGGCTTTGAGTGATTATAATCTCAAAGGCAGCATAGTAGCGACCACACTCAAGTACACTTATTTTTTTATGATATTGAGAGTCTCTTGGGTTCTTATTTGGCTGCATTTTGATACGCTGGAAAGCGATAATAGTATTCAACTCGGTAAAACAAGGTACCACATACCAACAAAACATGAACCGAAGTTGACAAGCCAGATGCCCAGTCGTTTCCTCAGTACTTACTATATAATAAATAAGATGTTTATACCGATTGGTCCGTCGATACCGCCGCGGAACGATCTGGAACGCATTGCTTTCCTGTCAGTGATGATAGTAGGGTGTCTCATGGTGACGGGGGCTGCGGTCGCGTCCCTGTCCCTCGTCATCAGCATCTACATGAGGCCCGAGGAAAAGTTCCGCAGCAGATACAGGCTCATCATGAAGGAAATGCAAGAGCCCACTATCCCTCCAAACTTACGAGAGAAGGTTGAGACCTTTTACAAAATGTACTGGCATAAGCAGAAGGCTGTCTCGACCGCAGAGCTGATGCCGATTTTTCCGCCCTCGTTGTCTTCCACTATTTACACCGATATATATTTCAAGGCGACGCAAAAGTGCCGCATTCTCCGAGATCTTTCCTATCAGTTCCTTTCGGAGCTGGCGAAGTTGACGGAGACGATACACTATATCCCCGGAGATCAGATCATAAGACGGAATAACAGAAAATCTTCGATTATTTATATTACTTATGGAGACATAGAATTGCTGACGGCGGAGGACGACACCACGGCCCTGCTGCGTATGATCCGCGGCACGGCTGTGTCCTCGTGCGCGGGCGTGCCGGCGTGTTGCGGACGCGCGCACGTGCAGATACGTGCAGCTACGTTCTGCACGGCGCACGTGCTGGACGCCGCGCAGATTTGGAGGGCCGTTCATAAGTACGGACGGAGGAGCGGACAAGGAAACAAGATATTGAATGCGTTTAATGAACATTTTGAAAAAGTTAAGAGACATTACAATATGCGAGATCGAGGAGAAGTAAAACACAAAAGTAGTATTTTACACTTCAAACGGAACCTCATGGATTTGAAGGAGTCGAGGGACGCGGCCGGTAACCTGCTACTGGCCGAAACTGATGTTATGATAGAAATAGCTGGTTGTTACGTGATGAGAAATCGAGCTGACGCGTCTCTGACAGACGAGGCCGACGCCATTTGTCTCCGGCCCACGTTCCCCTGCATCCTCCAGCCTCGCTCGTCCCTCCAAGTGGCCTGGAACGTGTTCGTTACAACCGTCATCATCACTGTCTGCATCACTCATCCGTATTTCTTAGTTTACAAAAAAACTGTTCCGACCGAGTTCAGATTTTATGATTACGTGGTGACCTTCATCTACATCCTGGACCTGGTGGTGCACCTGTCCACCGGCGCCAATGTCGAAGATGGTGTTCCGATAACTCTAGCGCAGACATCTTCTCAACAAGCGCAGAGCAAGTTGTTCGTTCTGGATGTCATCGCGACTCTGCCGCTTTTGGAGTTTATTGGTGATGGACACTTCGCTGGTCTCAACAAGCTACTGAGATTACCGAAGGTGTTTCGTGTGCTGAAAATTGTAGAGGAAGAATGTGTGTATCATAGCAACATTGTGAGATTCTGTTCCTACGCGTTGTTGTTGCTATCTGCCTGTTACCTCCTAGCGGCTCTTCAGCAAGGATTTATGTGCTTCCAATTCGGATATTGTTTAGTGACGAATTTCACTCACAGTCCGTACTGGGAGAAACAACCACTTGATACTGAAACTGTTCCTCACCGGTTGACGTTCGGCCTCTATTGGGCCATATCTGTGATAACTTTCACTGCACATATGGAGACCTGGGGAATCGATGACTGGAGACACGTACTTTATACACTTATAGTGTTAGAAATCTGTGTCATTTTATACATATTTATAGAAGCTGTCTACTCCGCTACAATAATGGTCACCTCTGATTTGAGAGAGGATTACGACGCATCCATAGAAAGTGTCACAAAGTTCCTTCTGAGAAAAGATATCGACCCAGTCTTAAGACAACGATTCGTCGATTACTTGCAGCTTTGTTGGTTCACGGACAAGGCGTATTCAATTACTAACAATGAGAGTTCAATATTCTACGATCTTCCACCGCACGTGTACCAAGACATAGTGTCAAGACAGAGGAGCAAGTATGTACTGAGTTTACCGTTTATGAAGTGGCTTCATAAAGAAGACTTGAAGACGATATCTTCTAAAGCGAGGTTGTTCTGTACAGCCCCTAACGAAATATTACTGAATACAGGGGACATGTGTAACGAAATATATGTCATCACGAGAGGGATATGCGAGATCTTGAATCCAGATACTAAAGGAGTTGTTGGAGAACTCGGTGCGAAATGTCACTTCGGAGTACTTGAATGTCTATTAAGTGCGAACACATTTGAACATAGAATACCAGCATTTTACACAGTTCGTGCTGTGACTAATGTGGAAATGTTTAAAATATCACGGAAACATTTGATCAACGCGATAGATGTGCCGCAAATAAGAGATGCTATCGACTTCTCAAAGGAGCGACCGGAATACCATCGTCTTCAAATACGTCGCGCGCCCTTCACGTCTTATCGACCTCCAGATTCTCCGCCAAATATGGAAAGATTCCGTTTGCCAAGGAAATACGAGAGAGACTACGCGTTCTTACATCCATTCGATAGATTGGGATTGCTTTCATTTCTTAGGTACATTTTTCCTCGTTTCACTCTCCGTCCTGATGGTCGTTACTTGGTTCGTTACGAGTGGATCCGAGCGACCTCGGCACTACTCTCCGCTCTAGTGTTTCCTCCATACACCTACCTTGTGCTACAGTTTCCTTGGCTTTACTTAGTCGCTTTGCTTCTTGATTTGTCTGCATATTTTGATATTTTGCAGAGAATGCTCGTTGGTTATTATAACGACGAGGGCATACTGATATACCACCCGTCCAGCACCGCTGCGCACTATGTTAAGGGAGCGTTTTTCATTGACCTCTTTGGGTGCTTGCCTTTAGAAAGACTTGAATCTTCCTGGAAGCAGTCCTACCAGAACAGATACCGCGAAACTCCCACTAAGCAGTTCCTGATGCTTAACCGTCTGCTACAGCTTTACCGCATGCCGGCTGCGCAGCTCGGCCTCGCCTCCTTCATACGAAGAGATATACTCTTAGTAATTAAATCCCTTCCGTTATTCCTTGCTCTGCTGAACGTGCTCACCAGCTTCTTTGTATACTCCTCCGTGAATATTTACTACACAGTGGAGACGAACGAGTGGTTCATAATTCCTTTGCCCGATCCAGGGGGTTCGTGGTTACACTTATTTAAAACAGCATACCGATTTAATGTAACTGAATCACCATGGAACTTGCACCTGGGTTCGTACTTCTGGGTGGTGTACGAAACCACCACCACGGGCTACGGCAACTTTAAACCTACCAACTTTAATTTGATTAGAGTTCTCATCGCTGGGATGATGATCGGAGCACTTATAACGACGTATTTCTCTGTGAGAATCATAAGCATAAGGGCGAACGTTAATAAAGCACTTGCGGCCTTTCAAGAGGATATGATTGATATATCCGCTTTCATGAGTAGAGAGAAACTGGATTCGAATCTACAAAAACAAGTTCTGGCGCACTATCAATACAATTGGGAGCGCATGGGCGGTATCGACTATCGCAACGTCCTCAAGATGTGTCAACAGATCACATTAAGAACCGACACCATTCTCCAGATCTACGGACAGACGTTTACAATGTGTCCTATTTTAAATAAATGTGACGTGTCCCTGCTACGTCTTATTGGTCGCGCTGTCAGAACTACATACTTTTTAAATAACACAACAATCATTGAAAAGGAGGACGTCATTTCCGATATTTTCTTCGTCGACCTCGGCTCTGTAGACCTTGAAGAACAGAAGGCTGAAACGAGCGTTACACTGGAAAAGGGCAGCATGTTCGGTAACTTGACATCGCGAAATACGTACCGGTGCCCGGACATCGTGAGGTCTCATGAGGACGTCCGTCTGCTGCAAATTAACGCGCAGACCTTCTTCAGCATCATCGCCGATTTTCCGACCGTTCACGACCAGCTGCAAATGTATCGATCGAATAATGAGAGTTATATTGTCGGCGTTGAAACTATCATACCGAGAACGAAGGCTAATTTAAGTCTGGCTTCCTCCGTGCCGACCAACCAAAGAAGATACTTCAGGTTCCTACACATCCGACAATCTATAGCCCGGATGTACCTCATCGTGATCTCATTAGCCTGCATCTACGCTGACATTTACAACGCAGGCTTCCAAGACAACAGACCCTTGCTGATAATGTCGCTGTACTTGTTGGACTTCTGTTTCATGTGGAAGTTCGTCTTACAGTACTTCATACCGCAAATGACCGACGTTGATGATGGGGCGTTGGGGACTTACATGAAAGTACGACTTCTTTATTTCAAACAAGAATTCAAATATGATTTAATATCGTTCCTGCCAATAGAAATCCTGTGTTTGTTTTGCAAAAACAATCGCGGGATGGTCTTTTCTTGGCTGCGTTTGAACAGATTATTTCGGATCGTAACTCTTTATAAATGTCTGAACCATCACCACGAGCGTATTTCCGCTAACCTGACCCTGGCCACGGCCGGCAGCGTCCTGATCTGGTTCACAATCTTCATACACGGCTCGGTCAGTCTTTGGTTCTTCATCGGAACCCTCGAAGAAAACGCCGCTGAGAAATCATCATGGAGTTACGGCGACGACGGTGTGTCCTGGTGTAACAACAACTACATCTGCTCTCTTTATTTTATATTGACAACCTTCACCCAAACCGGGGTTGGAGACATACTGCCGAAGAAACAGTCCGAGGTGCTCTTTGTGTCGGGATTTCAAATCATTTCGACCATGATGTGCATGGTGTACGTCGGGGAGCTGTCTAATATTATCCAGTACAATTCGTACAGATCCTTTAACTTTTACGCCAACTACTTACAGCTGCAGGAGTTTCTTAAAAACAATCGCGTATCGAAGAATCTGGTGACAATAGTCAACAAGTACTGCCTTCACCTGTGGCGCGAGTCACGCGGCCTGCAGATCCCGTGCTTGCTAAGGACAGCTCCCGACTGTCTCAAGCTGCAAGTGATGGGTGCTGCCTATTTAAAACACTTGACGGAGAAGGATATATTTAAAGCTTGCGAACCCGCTTTCCTACGTCAACTCGTCGGTTTTCTGCAATTGTATAGTTACACCGAAGACATGTACGTTGTAAAGGAAGACGAAATTACAAATTCCATGTACTTCGTTCATTTGGGAAAGGTGCTAGAAACATCAAAAAATTCCAATATTGTAAAATCTTATCACCCTGGAGAATGTTTTGGAGAGTTGCAGGGTCTGGAGCAGGACTTACCTTACACTAAATCATATAAAACAGTTATGAAATCACAAATTCTAAGTCTACATCTCAATGATTTAAAATATTTACTGGCACATTTCCCTCTAAGTAAAAATACGATTTACAAGTCAGATGAATCCGACGCTCCTCCGACCGACCGAGGCGATGACCGCAGTGACGGAAGCTTCAAAGTCAAACCCCAAACGAGTTACGACAAATCTCCTAAAACTGATACCCCGCCAATTATACATTCTGATATTGGTCAAGGAAAAGAAATGACAGAAGCAGACTTCGAAGAGCTCGACACCGAGTGGCACACGAATACACGGATCCGCTCCTTAGACGAAGGCAACGTAACCGATCTGGAAGTTGAAAAAGATACAGTTCCATATGAAGAAACAAAAGGAGAGGGAAGCGCAGAAGACGTGACCAGGCAAGAAGAAAAGACATATCGAGATGATTTCAAAAGCGTTGAAGATTACATTGAATCAAAACACGGTTCGTACATTATGATCCCAAAAGAAAATTATAAAACAGCCTCAGCTGGTACCTCCGGCTTGAAGAGGAGGAAGACTCACGTGTGGTATCAAGAGAAGGAAGCTGCTTCACCCTCGACAGAAACACGTGAACTCAAGCCGATCAGAGATCAGAGTATTGATGAGCGCAATTCCAAAACCTTCGACAGCGACTCGCCATTCAACATCAAAGAATCGACATCGTCTCAAGAAAGCATCGACAAATTTAAAAATCAGAAGAGACGTAATGAACAATGA

Protein sequence:

>DPOGS201875-PA
MADTSKKSIFKDTTSVHMNVDVENQQREQEEDEYGFYYSIDCFNKCLFSLHDNVMWNAILCFLAVAAIVVVSIEFKSTLSELFEVVYNVFYAVHVLSLAYNSLANLHTSDLGLCTARALSDYNLKGSIVATTLKYTYFFMILRVSWVLIWLHFDTLESDNSIQLGKTRYHIPTKHEPKLTSQMPSRFLSTYYIINKMFIPIGPSIPPRNDLERIAFLSVMIVGCLMVTGAAVASLSLVISIYMRPEEKFRSRYRLIMKEMQEPTIPPNLREKVETFYKMYWHKQKAVSTAELMPIFPPSLSSTIYTDIYFKATQKCRILRDLSYQFLSELAKLTETIHYIPGDQIIRRNNRKSSIIYITYGDIELLTAEDDTTALLRMIRGTAVSSCAGVPACCGRAHVQIRAATFCTAHVLDAAQIWRAVHKYGRRSGQGNKILNAFNEHFEKVKRHYNMRDRGEVKHKSSILHFKRNLMDLKESRDAAGNLLLAETDVMIEIAGCYVMRNRADASLTDEADAICLRPTFPCILQPRSSLQVAWNVFVTTVIITVCITHPYFLVYKKTVPTEFRFYDYVVTFIYILDLVVHLSTGANVEDGVPITLAQTSSQQAQSKLFVLDVIATLPLLEFIGDGHFAGLNKLLRLPKVFRVLKIVEEECVYHSNIVRFCSYALLLLSACYLLAALQQGFMCFQFGYCLVTNFTHSPYWEKQPLDTETVPHRLTFGLYWAISVITFTAHMETWGIDDWRHVLYTLIVLEICVILYIFIEAVYSATIMVTSDLREDYDASIESVTKFLLRKDIDPVLRQRFVDYLQLCWFTDKAYSITNNESSIFYDLPPHVYQDIVSRQRSKYVLSLPFMKWLHKEDLKTISSKARLFCTAPNEILLNTGDMCNEIYVITRGICEILNPDTKGVVGELGAKCHFGVLECLLSANTFEHRIPAFYTVRAVTNVEMFKISRKHLINAIDVPQIRDAIDFSKERPEYHRLQIRRAPFTSYRPPDSPPNMERFRLPRKYERDYAFLHPFDRLGLLSFLRYIFPRFTLRPDGRYLVRYEWIRATSALLSALVFPPYTYLVLQFPWLYLVALLLDLSAYFDILQRMLVGYYNDEGILIYHPSSTAAHYVKGAFFIDLFGCLPLERLESSWKQSYQNRYRETPTKQFLMLNRLLQLYRMPAAQLGLASFIRRDILLVIKSLPLFLALLNVLTSFFVYSSVNIYYTVETNEWFIIPLPDPGGSWLHLFKTAYRFNVTESPWNLHLGSYFWVVYETTTTGYGNFKPTNFNLIRVLIAGMMIGALITTYFSVRIISIRANVNKALAAFQEDMIDISAFMSREKLDSNLQKQVLAHYQYNWERMGGIDYRNVLKMCQQITLRTDTILQIYGQTFTMCPILNKCDVSLLRLIGRAVRTTYFLNNTTIIEKEDVISDIFFVDLGSVDLEEQKAETSVTLEKGSMFGNLTSRNTYRCPDIVRSHEDVRLLQINAQTFFSIIADFPTVHDQLQMYRSNNESYIVGVETIIPRTKANLSLASSVPTNQRRYFRFLHIRQSIARMYLIVISLACIYADIYNAGFQDNRPLLIMSLYLLDFCFMWKFVLQYFIPQMTDVDDGALGTYMKVRLLYFKQEFKYDLISFLPIEILCLFCKNNRGMVFSWLRLNRLFRIVTLYKCLNHHHERISANLTLATAGSVLIWFTIFIHGSVSLWFFIGTLEENAAEKSSWSYGDDGVSWCNNNYICSLYFILTTFTQTGVGDILPKKQSEVLFVSGFQIISTMMCMVYVGELSNIIQYNSYRSFNFYANYLQLQEFLKNNRVSKNLVTIVNKYCLHLWRESRGLQIPCLLRTAPDCLKLQVMGAAYLKHLTEKDIFKACEPAFLRQLVGFLQLYSYTEDMYVVKEDEITNSMYFVHLGKVLETSKNSNIVKSYHPGECFGELQGLEQDLPYTKSYKTVMKSQILSLHLNDLKYLLAHFPLSKNTIYKSDESDAPPTDRGDDRSDGSFKVKPQTSYDKSPKTDTPPIIHSDIGQGKEMTEADFEELDTEWHTNTRIRSLDEGNVTDLEVEKDTVPYEETKGEGSAEDVTRQEEKTYRDDFKSVEDYIESKHGSYIMIPKENYKTASAGTSGLKRRKTHVWYQEKEAASPSTETRELKPIRDQSIDERNSKTFDSDSPFNIKESTSSQESIDKFKNQKRRNEQ-