Monarch geneset OGS2.0

DPOGS208111
TranscriptDPOGS208111-TA6225 bp
ProteinDPOGS208111-PA2074 aa
Genomic positionDPSCF300154 - 337764-346911
RNAseq coverage165x (Rank: top 51%)
Annotation
HeliconiusHMEL0062190.049.65% 
BombyxBGIBMGA006763-TA4e-10956.12% 
DrosophilaCG30085-PA6e-1028.17% 
EBI UniRef50UniRef50_UPI0002247D322e-2438.01%UPI0002247D32 related cluster n=1 Tax=unknown RepID=UPI0002247D32
NCBI RefSeqXP_001605319.13e-2439.24%PREDICTED: similar to GA14626-PA [Nasonia vitripennis]
NCBI nr blastpgi|3800275571e-3126.54%PREDICTED: uncharacterized protein LOC100863587 [Apis florea]
NCBI nr blastxgi|3800275571e-5722.23%PREDICTED: uncharacterized protein LOC100863587 [Apis florea]
Group
KEGG pathway 
Orthology groupMCL25274 Lepidoptera specific
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS208111-TA
ATGCCCGAAGAACAGTCTCTCACAAGTGCAAGCCTTGAACGGCTGTTAGACGTAATGGAGGATTATACCTTAGAAGAAAATAATTATCAGAGCATTCAAAAAGCTTTGGAGTTAACAGATAGTGTGTCTATACAAGCAATTAAAAAGTTATTATTGATATGTGTTTGTGATCTTAAAGAAGACGTAAACTCTACTTTAAATGGCCTTAATATTTTACGGACGCTTTTAATGAAAATTAAGGTAAAACCATGTTTACCTCTGCCAGATCTTTTGCCTTCAGCCATAGTTGTTCTAAGAATGTTAAAAACCACAGCATTGTTCAACAAAGTGGAAACTCTCAAGATGTTGTGTTTCGAGATTATGTCTCTGTATCCCGATGAAACACTTATAGCGTTAGTTGTAGATCAGTCTAATGAACTGATGGAACTTTTTAATTTGTATTGCCATCAAAGGATACCACCAGAAATTAGAATACAGCCTCTATGTTTGGTAACAACTTTACTGAAGATATTGCCACCAGACAAGAAGGCAACTTTTGTCAAAGAAGGTCTAAATATTTGGTTCTCAAAGATTATACCTACAGTAATGCTATGTCCTACAAATAAAAATGTTCTTGAGACATTGGAATTATTAACAGAAGAAATTGTTAAATTTGAGTACACCGACAATCAACACTGGAAAAATGTCTTGACATGTATCTACACACCACAAAAGTATCCATCTGTTATGAAATCTTTACTGGAACAAGGAAATGAAGCTTGGCATAGGGTATGGATAGTTTTTATAAAACTATTGAAAAGCCAAATAACAAAAAACACAAGTACTGTTGGGAGTCCTATCAATTCAATGCTTCCAGTTGTCGAGACAGCTTTTAAAATGGATGTACAGAACAGATGCAGAGCTTTCAAATGTTGGAATGTCTTAATTGACAATTTCTCATCGGAGACGAATGAAGTTTATATAAATAAAAGGATAAAACTACTTATTATCCCGCTTCTATCGAATAATGCTAAAGTGGAGGAAACAGCTTTAGCTAAACTGAAAACTTGGTGGCATTTGATAAAGTGCTTCCATTCAAATATGAATAATTTTTCTCAAACTATACTGGTACCGTTTTTACATTTCTGCTTTGGGAAACCAGTTTCGGATAAACCAGTCATTATACCTGGTATGATATCAAATGTTACGAAGACTGAATGTGTTAAAGTGTTTATTAATGTAGTAGGTCACGGCAGTTGTAATGGTTGTGTGGAATATCCAAAATTAAGTGATAAAATTATCGACCCTAAAGTGATTGTTAGCCATCGAATAATTTGGATTCATTCACTCACTGCTGCTTTGAGGATTTGCATTGAAAATGATTTTAAACAGGAACATATTGAATGTGTTTGGAAGGCATCTCTTATGACAGTTGGTGAAATCTCAGAGGGCAATGTTAGGAGAGACATCTTCAATGAAGTACTGGCAATCTTAGAAAAGTTACCTAGGGATGGCAATAGAAGAGATGCTGAAGTTATTAATAATATTTTAATTCCGATATTGTTTGAAAATAATGATAAAATCAGACCTTTGTTGGAAACTGGTAATGATGAAGACTCTCCTGTTACAAAAATCATTGCTACATTGAGGCTTTCAATATCAGATACAGGTCCTGGACTGAACGTAGCTAAATTGAGATATGTGACAGATTATCTTGTAGATGATGCATTCAAAACATCAAGTCACACAATTGAATGCCTGTTAAAGGACTTGTCATCAAATAATGTATCAATATGGATTGCTTTGTCACAATCAATTTGTGAACAAAAATACAGTTTGTGTTCAAGGACGCTATGTAAAATGCTTCTCTGGCCATTCAATTATTTAGACGCGTTTGTAAAGAATAATGAAGCAACTTCTTCTTGGATTGAGTTATACAAATTTTTGTATCCAACGCTCCATATGACTACTTTGTCTACTGATATACTGAATGCACTGTTGGCTTTGAATGGTACCAAATATTCAAGAATATTTGTATTAGATGTTATTTTACTCTTATTGCAACAAAAATTAGACGCTCCAGAAGCCACTAACATTGACAAAGAAGCACAATTATTGTACAAATCAGTTTGTAATTTAAACGAAACAGATTTCCCTTCTATTCTACCAACATTGTCAAATATCATTGTGAATATATGTAGCAGTGTTAAGAAAAATATTAATGAAAAAATTGCCAAAACAACTGTTTTAACGGCTGCTGATGTATTGAAGAAAAGTCTTTCTATATCAGAATCAAGCAGTGACATGGCGTTTGTTATTAATAATTTGAAGAAAATGTTGGAATCTTTGGACATGATGTTCGAAATGGAAAAATATAGCGATCTCAAATTATTGCTTGTAGATGATTTAAAAAATATAGCACATATTCTCAAAAAAGAAGAGAAACTGAATCAAATTACTGAAGTAATTCATAAAACATCTAACAAAAATGATAAGTTTAGTGAACTTGTAAAAACTTTTGAAAATGACGATCCTAAAAATATAGAAAGTAATAAGTTACGGTCAAAGGAGAAGCCTTCTACGCCGAGTAATAAAGTATCAAATAAAAATAAAAAGAAAGAAACGAGTATTGTGAATACGGTTGTTGAAAATGGGGAAGAATTTGTAGTAGTCAAATCAAATTGGAAATTCAATCCGCGTAAGTTAACGGACAATCAGAAAGAAAAATTACAAAGAAAGAGAGAAGACATTCCGGCTCTGTACCAAGATTTGTCGCAATCTCAAGACGATTTCAAACTAACTGCCTGGAAAAGCGATTCAATGGATACCTCTACCGGAAGTAAGTCTGCTAGTGTACAAGGCAATGAAGACGCAAAAACCATACTGAAAAACATACCAAACAATGAATTTGTACCAAAAATGTTAGAAAATATAATAGATAAGGAAAGAGATTCGAAAACTAAAGCCGACAGTGAAAATGAGTCTGTTAAATTAAAAAATAATGATAAAATAACTAAAATCACAAGCAAAGTCGCAAAATCGCCGCGCATGGCCTTAAAGGATCGTGTTTTTCGCAACGTTCGAAATTTAATCGAGAAATCGAACGTATCAGAGAACGAAAATACTTCAAATATAATGGGAAATGTTTCAAAAACACCATCAATGACGAAAACAAAGCTTACGACCAATCTCACTAACTCTGCGCCATCGCATATCAATGCTGATAGACCAACACGCGTTAAAAGAAAACCTAGGAAGTTTGATGATCTACAAATATTTTCTTTAAAGAAAAGACGTTACTCTGCTGGTCTCAGTGATTCCCCATCTGATGGAGAAATTACAGATAGTCCAGTAGAAGACGTTAATGCTGCGACAGTTTCTAAAGATAATAACGTCAAAGAGCCTATTGATCCAAAAGATAATGAAGGGGAAAATATTGATGAAGACTCGTCAGCCAAACAAAGTTCTAAGGACATCAAAACCGTTGAACAAAAGGATGATGCCTGTGATGGTGGTAAAAAAATTGGAAAAGAAGAAACTATTGAGATTACAGAAACATGTCAAGAAAATCGAAATACTGAAGAGGGTCACACAAGTGACGTCGCAAAAACGGATCCCAAAGCTTCTGAAAAAAATAAGACAACCGATGCCCCTAAATCATCAAATAAAAAATCAACTAAAAAGTCTAGAATTGAAAAGGAGTTAGCCATAGACATGGTTGAAGGTCATCCATTCTTACAAGTGCAGTCGGAGAAGAGATTGACTAGGAAAGCCATTTTAAACACCCCCTGCACCAGAAAGAACTTGTCATCAAAATTGAATAAAAATAAATCAGAACCCAAAAGTGCCAAAAGAGCCGAAAAGAAAGCGAAAGATCTAAACGTTTCCTTAAAACAAACTCAAAATGAAGTTGACATTGTTGAAACGCAGGATGTTATAGAAAGTTCCCAAGAATCTACTGTCTCTACCGTGTCTGTAAAGACACCGAAGGGTATTACAAATAAATTGCCTATCGTGTTACTAGATAACAACTCATTTGTGGGCGAACAGTCACAGAATATATTGTCGGACAGCAATTGTGACGTCCCCACTGACATCACAGAAGATATCGAGTTACCTCGTAATAAAACAAAAGAAAACCTTGTTATAGATTTAACAGAAAATATGGACACAGAAACATTTGATAAATCCTCGGAGGACGTCATTACCATTAATGACGAAGATGAATCGATTATGGGAGAAAATAAAAATGAAACTGTGATTCTGGAAACACAGATTGCGGCGGAAGCTGACACAGAATCGCTGGACCCAAATGTATTAATGGGTTTTAATGAACAAGAATCACTTACAAATACAGGCGAAAATATCTCAGAAAACAATAAAAGTGCAAGTAATGAAGATTTAGATATTGATGTCACCAATGCCTCGACTGTTGCAACTCCTGAGGATGTAACCAAAACTATGACTGATTCAATGTTAGTGGAAGTTCAAACTGACGAGGCTTGCTCTTCATTCAAAGATGAAGAACAAAGGAAAAAAGATTTCCTCAACAACACGCTTGAAATATCTCCTATAAAAACTTTAAGCCCGTGTAGAGATAAAAAATCTCCATCACCGGAAACAAGTAGTGATTACGTTGTTGTTAAACTGTCTTCGCCAGTGAACATCAATGGCGAGCCAATCAGTAAATGTGAATCGCCTGAGATCTTCACAGAGGATAAAGAATCTCTGGACGCGAGAGATCTTTCACCACCGAGAGAAGAAATCAATGTTACTAATTCTAGTCCAAGATCATCTTTGTCGTTAAAGAAAAATAAACCGCAAGTGCGCCAAGGCGGTCGGGGGGCGCAAATGCTCGGTTTATGTGTCCCAGATAGAATACAAACTATCATTACTTCTGAAAAACCTCCAGATACTGAAGATACAAAAAAGAGTCCGTCGATGAATACATCAGCGAGGCGCAATTTGAGGATACTATATAACAGTTCCAGTGGTGATAACAATGATGGGTCCGAAACGGATAAGGATGGTGAAGAGAGTACCACGTTTTTGAAATTTGAAAGATCTTTGCCATCTGTAGACTGCAGTCCGTCCGTTCCCATTCTAAAGAGAAAATTGGCTGAAATAACTGACGAAGCCACCGCCTCGCCGGCTAGCAAAAGAAAAAGAGTAAGTTTTCACGATCCTCCTGTATCTACAACTATATGCGTCAAAAAATATATAGAACCGTGTGGCGTACGGTCACCTCAGAATTCAGCTATTAAAAGGCAGGAGAGACAATTGCGTTCCCAGTTGCCAACAAGATCACCAAAGAGGCTCGATAATGTTTTTAAGTTAGACTCAGTGCTGACTAAAACTATAGAAAGCTTCAATACTGAGTTAACTGAAGATACTGCAGTGAGTTCCCCAGACGAGACAGCAGTGTTGGAAGTAATTAAAACCAGTGATATAAATGATACGGATCCAATTTGTTTGGAATTAGTTGATTGTGAAGACCCCGTTACTAATATTGCCGAGGAATTGTCATCGGTTACAACGACAACTTTACTGATGAAAGAGTTTGAAGGAAAAGTCGCTAAAATCGGGGACCTCGCAAGAATGACTGAATTGGAAATAAACAGATTTTCCATAAAAGAACCCAAAATTGAATCCGTAAAAGGAGTATTAAGCAAATATGTTGCCAATAATGAAAAATTAAATGATGATAAAACTGCAAAAACCACTCCCATGAATGAATCTATAGTGTCTGAGGTTCCATTTAATTCCATTGAAATACAAACAAATGAAGTGACGTCTGAAAATAACGAAATGCAAACAGACAAACAAGAATTCAGTCTGAATTGTACACAAACCGATAATATAGAGACAAATCATTGTAGTTCACAAACAAATGAAACAGGTTTTAGGACAACAGCAGATATTGTAACGAATTGTTTGGCAGAAAGAAACGATTTCGTAGATAATATCTGTGTTAATTTGGACGAAACTGCTAAACAGAAGATAGCTGAAAATTTGTCATTCAACGCTCTTAGTGACGTGATCATGAAGAAAGTTAATTCATCCAACCGCAATGACTTCCTCCACAGGATAATTAAAGACCAGAGCGTTCACAGTTCTACTAATGGTAGCGGCGCTGACAAGAAACTGTCTGTAGTGCAGGATTATCTGTGCAGTTTCTTTGAGTCTAAAGAATTGATACTATTTTGTAGTGATTTATTAAGGAAGGTACACGAAAAACCTTCATAG

Protein sequence:

>DPOGS208111-PA
MPEEQSLTSASLERLLDVMEDYTLEENNYQSIQKALELTDSVSIQAIKKLLLICVCDLKEDVNSTLNGLNILRTLLMKIKVKPCLPLPDLLPSAIVVLRMLKTTALFNKVETLKMLCFEIMSLYPDETLIALVVDQSNELMELFNLYCHQRIPPEIRIQPLCLVTTLLKILPPDKKATFVKEGLNIWFSKIIPTVMLCPTNKNVLETLELLTEEIVKFEYTDNQHWKNVLTCIYTPQKYPSVMKSLLEQGNEAWHRVWIVFIKLLKSQITKNTSTVGSPINSMLPVVETAFKMDVQNRCRAFKCWNVLIDNFSSETNEVYINKRIKLLIIPLLSNNAKVEETALAKLKTWWHLIKCFHSNMNNFSQTILVPFLHFCFGKPVSDKPVIIPGMISNVTKTECVKVFINVVGHGSCNGCVEYPKLSDKIIDPKVIVSHRIIWIHSLTAALRICIENDFKQEHIECVWKASLMTVGEISEGNVRRDIFNEVLAILEKLPRDGNRRDAEVINNILIPILFENNDKIRPLLETGNDEDSPVTKIIATLRLSISDTGPGLNVAKLRYVTDYLVDDAFKTSSHTIECLLKDLSSNNVSIWIALSQSICEQKYSLCSRTLCKMLLWPFNYLDAFVKNNEATSSWIELYKFLYPTLHMTTLSTDILNALLALNGTKYSRIFVLDVILLLLQQKLDAPEATNIDKEAQLLYKSVCNLNETDFPSILPTLSNIIVNICSSVKKNINEKIAKTTVLTAADVLKKSLSISESSSDMAFVINNLKKMLESLDMMFEMEKYSDLKLLLVDDLKNIAHILKKEEKLNQITEVIHKTSNKNDKFSELVKTFENDDPKNIESNKLRSKEKPSTPSNKVSNKNKKKETSIVNTVVENGEEFVVVKSNWKFNPRKLTDNQKEKLQRKREDIPALYQDLSQSQDDFKLTAWKSDSMDTSTGSKSASVQGNEDAKTILKNIPNNEFVPKMLENIIDKERDSKTKADSENESVKLKNNDKITKITSKVAKSPRMALKDRVFRNVRNLIEKSNVSENENTSNIMGNVSKTPSMTKTKLTTNLTNSAPSHINADRPTRVKRKPRKFDDLQIFSLKKRRYSAGLSDSPSDGEITDSPVEDVNAATVSKDNNVKEPIDPKDNEGENIDEDSSAKQSSKDIKTVEQKDDACDGGKKIGKEETIEITETCQENRNTEEGHTSDVAKTDPKASEKNKTTDAPKSSNKKSTKKSRIEKELAIDMVEGHPFLQVQSEKRLTRKAILNTPCTRKNLSSKLNKNKSEPKSAKRAEKKAKDLNVSLKQTQNEVDIVETQDVIESSQESTVSTVSVKTPKGITNKLPIVLLDNNSFVGEQSQNILSDSNCDVPTDITEDIELPRNKTKENLVIDLTENMDTETFDKSSEDVITINDEDESIMGENKNETVILETQIAAEADTESLDPNVLMGFNEQESLTNTGENISENNKSASNEDLDIDVTNASTVATPEDVTKTMTDSMLVEVQTDEACSSFKDEEQRKKDFLNNTLEISPIKTLSPCRDKKSPSPETSSDYVVVKLSSPVNINGEPISKCESPEIFTEDKESLDARDLSPPREEINVTNSSPRSSLSLKKNKPQVRQGGRGAQMLGLCVPDRIQTIITSEKPPDTEDTKKSPSMNTSARRNLRILYNSSSGDNNDGSETDKDGEESTTFLKFERSLPSVDCSPSVPILKRKLAEITDEATASPASKRKRVSFHDPPVSTTICVKKYIEPCGVRSPQNSAIKRQERQLRSQLPTRSPKRLDNVFKLDSVLTKTIESFNTELTEDTAVSSPDETAVLEVIKTSDINDTDPICLELVDCEDPVTNIAEELSSVTTTTLLMKEFEGKVAKIGDLARMTELEINRFSIKEPKIESVKGVLSKYVANNEKLNDDKTAKTTPMNESIVSEVPFNSIEIQTNEVTSENNEMQTDKQEFSLNCTQTDNIETNHCSSQTNETGFRTTADIVTNCLAERNDFVDNICVNLDETAKQKIAENLSFNALSDVIMKKVNSSNRNDFLHRIIKDQSVHSSTNGSGADKKLSVVQDYLCSFFESKELILFCSDLLRKVHEKPS-