Monarch geneset OGS2.0

DPOGS201758
TranscriptDPOGS201758-TA4806 bp
ProteinDPOGS201758-PA1601 aa
Genomic positionDPSCF300279 + 42318-52300
RNAseq coverage568x (Rank: top 22%)
Annotation
HeliconiusHMEL0067120.077.62% 
BombyxBGIBMGA002652-TA0.070.79% 
DrosophilaCG18304-PA8e-10736.17% 
EBI UniRef50UniRef50_D6W6X40.041.88%Putative uncharacterized protein n=2 Tax=Tribolium castaneum RepID=D6W6X4_TRICA
NCBI RefSeqXP_968604.20.041.81%PREDICTED: similar to CG18304 CG18304-PA [Tribolium castaneum]
NCBI nr blastpgi|1892337110.041.81%PREDICTED: similar to CG18304 CG18304-PA [Tribolium castaneum]
NCBI nr blastxgi|1892337110.042.48%PREDICTED: similar to CG18304 CG18304-PA [Tribolium castaneum]
Group
KEGG pathway 
Orthology groupMCL15606 Insect specific
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS201758-TA
ATGAGTGACGATAATCATGCTCCCTTAAATCAAGATTCAAATATCGAGGAAAGGGTACAAAAATCCGATAGCCCCCCACTTTCCTCAGATAAAGGAGCTTCGTCATCTAATCAGATTCAATTCCCATTCGCTTTATTCAATCCTCTGGCAGCAAGGTTACCTATTGCAAATAACTTGCGTAAAACAGCATCAAGAGTCGAGGACGACAATGAGTCCTTACTTCTACAGCTGAAGAAAATGGCTACCAAAGCCAGAAGTAGAAAGTTATCGCCAACACCTCCCAATAATAGGCTTGCCATCGAAGCTCCCAATGAAAAAGACGAAGGCATATCCGATGAAGAGGATCCAGCAGAATTAAGGATTTTATTAGAACTCAATGAACAAGAAGCAGCAGTTTTACGGAAAAAAGTTGAAGAGTTAGAGCAAGACAGAGAATCTTTGAGGAAACAAGTTAAGGAACTGAGTGACAAAATTTCTAGCACTGTTAAATCAAACACTAATACGGTAGTTACGTTGCGAAAAACTACAACTAAGGCTAATAACTTAGCAGAAGAAAAAGTTAAAGTTTTAGAAGACGAAATAGCTGAATTAAGAAAGAAACTCATCGAAAAAGAAAGGGATTGTGAAAGGTTGCATGCTGAATTAAGCCTTACTCAGAAAAAACCAAAGGCTTCACTTATTAAAAGCAAGTCACTAGACGGAGGAAGTGAACAACAAAATGTTGATCTAAAGAGACAACTTCAAGTAATAGAACAAGAAGCTAACGTTCTGAGAGCAAAAACACAAAGCTTAGAGGCGGATAATGAAAAATTACAAGCTGAAAATAAAAAATTACAGTTACTCAAAAGTGCAAGAAACTTAAAGAGTGACAAATCAGTGGAACAAAATGCAAGCAAAGTAGCTCAATTAGACAAAGAATTAAAAGATGCTTTAGCAAAAATTAAGGAGTTAGAAGTTAACAAAGATAAAGAAGAAAAGGCTGAGAAAAAGGTGAGGTTCGGAGACGTTTTAAAAAAAGAAGCTGAATCTCTGAAACCCAAAGTGGAAGAATTAGATAAACTTAAAATTAGTTTCAATAAGCTTGAAAAGGAAAAATTAAAATTGCAAACTACATTAAAAGAGTTGAAAGAGGACGCCATGAAAACATTTAAACCTAGAACGCCAAAAAAGATTACTGATATAACAACCAAATTACAAATGAAGCGTATGGTTGAAGATCTTGAAAGTGAAATAGGTGAACTATATGTAATCATGAAGAATGCAGGCCTTTCCCAGCAGGATATTAATACAAAAACAGGACAGGAAAAAGACATAGAAAACATTAAGGCAAAATTATCTAAAACTGAGACGGAATTAACAAATGAAAAGAATCGGTTACAGAATGAAATTTCCAAGCTTAAAGATTTAAATTCAAAATTAGAGTCTGAAAAGAAATCATTTTCGAATAAATATAAGGCTTTAGAAGAGGAAAAAAGTAATGCCGCTGCGGAGTCTAAATCATTAAAAGAAGAAAAAAATAATTTGGAGGCACAATTAGCTAAATTAAACTTAGATTTAAAAAAAAATAGTACGCAACAAGCTGCTATGTCAGACTGTATGAAGAAAATTGAAGAATTGAAAACAGAAATCGACAATAAAGATAAGGAAATTGATAAGCTTAAGAAACAGGTAGATTCAATTAACAAATTGGAACAAGATAAAAGTAAATTACTCAAGGAAGTTGGAGACAAGACTAAGAAGTTAACCGAACTTGAGAAAAAACTTAAAGAATTAGAAGAAAAATGCAAGCGAACAGAAAAGTTGCTAGCTAACCGCAAAGATCGTGTTGCGAAATTAGAAAGAGAGTTATCGCAAGAGAAGGAAGAAAAAGAGGTCCTCACAAATTCAAACAGACGCATGTCTGTTGATTTTACAACTGAAAATGATGGAATGAAAACTAAGCTTTTTAATGCCGAAAGTAAAGTTATTTGTTTAGAAACAGATTTAAAGGAAATGAAATGTGACTATGAAAATAAAATCACCAGCTTGGAATCCACTATAGCGGCAAAAGATAATCATATAAAGCAACTGGAGGATGCTTTACGTGAGACGTCCAATCAAAAATATGACGAGGCTTTGTCAGCAGTGGAGATAGCACAAGTTAAAGAAAAATATGAGAAGGCCTCCAGAGAACTGAAAGATAAAGAAAAGGAGTTAGCTTCTGCCAAAAAAGATCTTAGCAGTACGGAAAAAGATTACTCTAAACTACAGTCGGAATTAACACAGCTTAAGTCTGATATTTCGAAATATGAAAATGAAAAGAAAGACCTTGAAAATAAATTACAAACGGAAAAGAAAGAATCCAACTATTGGGAAAAGAAAGCCTCTGAACTAGATTCAGATATTCAAGCAGAAAGGAAAAAAATTGACAGAATGCGTGCCAATCACGATAAGGATATCAAAAACAAAGAAGCAGAGTTAGCAACCCTAAGAGGGAAACTAAAAGTCTTAGAGCAAACATCAGGTGCGGGCACGAAAAGATTATCAGAAATAAAACAAGAACATGAAGAAAAAGTAAAAAAATTGGAACATTCATTGGCAGTGGAAAAGGCGGAATACGAAGAATTAACTGGCAAGTATGAGTTACTAGAAGAGGAACACGTTGTAACCAAAGCTCGTCTAACCGTTGAGAAGGAAAAAGCGCAAAGTGACCTTCTGTTAGTGCAAAAGGAACTTAATACAAAACTGGCAGAATATAAATCTATCCAAGAGAATTACGAGAGTGAATCGGAAGCTTGGAATAAAGAAAAAGCTGAATTACAGAAAGAAATATCATCTCTTCAAGACCGTCTTTGCGGTGGAGGATGGGAAGTCGAACGCGCGCGGCTTTCGGCACGCCTCGAACAACTGGAACGTGAACTACGTGGGGTTAAAGACTCCAATGATGTCCTTTCTCATCATCACGATCTTGCTAAGAAAGAGTTAGAAGAAGCTCGTCGAAAGTTAGAAGACTATGAGAAAATTAGCAAAGTTCAAAGGACAATAACTGCTGATAATGCAGAATTAGAACGTGAACTTGCCGCACTTAATAATCGTTTAGAGCAAGCTGATAAGGCTCGAAAGAATGAAGTTGCTGAAACTAAAGCCCGTTATGACTCACAAATGAACTCTTTGCGAGATGAAATGAAATCTTTACATAATCAGGTGTCGAGGTTTAGAAGAGAACGCGATAATTATAAACAGATGCTAGAAGCAGCTCAGAAAACAATAGCTGAAGACAAAAGCGGTGAAAAAAGAGCCAAACGCAATTCTATATCTAGTACTGATGAGGAAGAATATCGTAACAAAGTAGCAATCTTAGAGCAGCAACTAGCATGTGCGGAAGACGAACTTTGTGAGGCAAGGCTCCTCGCTTCAAAACTTAACACAGAACTCGTCAGTGAGAGATCAACAGCTGAAGTTCGCCTCGCAGAAATGCAGTCTCGGCTAAATGAGTACGAAGAAGATAGGCTGTTGTCATCGGGTCGGGGGAGACTGGCGGGACTGGCAACTAGGATGGAACTTGCGTGGCACAAGGAACGTGACGAACAAAACAGACTGCTGCATGAGACCTCTACCCTCGCACGAGATCTAAGACAAACGCTGTTTGAGGTGGAGCGGGAAAGAGAAAAGGAAAGATTGGATATGAAGAGAAGGATAGATCAACTAAAGAGAACAACAGAAGAGGAAACTGAGGAAGCCAAGAAGAAGGTAATTTTTTTAGCATTGANNGCCAATGAAAAGTTGCGGCGTGACAAAGAGAGACACGATCGTGACCGCGATCAAAACAAATTATTGGTGGCCTCTCTCAAACGAGCGCAACAGGAGGATGACAAAGTGATTACACAACTAGTCGAGACAATAGACGATTTAATGAAGCAGAATCCTAGTATGTTCCGAACAGACGCTATAAAGCCTGAAAAGAGTCTTATGACCCCAACTCCTCCGAGACGCAATAGGTCATCTAAGTCTCGATCCCGTTCCGCTACTCCGGAAACTAGTGAAGCGCAGGCGGCGAGCGACGCACAGGCCACCGCCGTAAGACTGAAGAGACTCACTGACGAGCTTCGCGCCTCACGTATAGCTGAGAGACAACGAAGACAGCAAACTAGTGCCAGACGCGCTATGTCGACTGAACCTCGTGACACCCTGTCAGTGACTTCATCTCGTACTCCATCGCGTGCACCTTCCCTCAAGAAACGATCTATTTCTTTGGAGCAAACCACCAAAGAACAGAGTTCTATTTGGAAGACAGTAGAAGACAGCAGTGTTTCTTCAATGCAATCGCTGGATGGCGATGCGGACGTACGATTATTCACAATGCAACGGGACAATAGTCTAGATAGGCAAGTTCTCCGATTATCGGGTGGATCTACTCAAAGTGATGTCCTTCCCACGGAGAAGAAGAAAAAGAAAGGTTTATTTGACAAACTGAAAAAGATGACTAAGTCTCGGTCAATAGACGACCACGTCAACTCTGAAGTAGCCGACTTTAGGCCTATAGGGACTGTTTCACAGGGCTCCGACTCCGATATGAGCACAACCGGCAGTAAGCGGGATCTTCGCGGCCGTTTGTCCGGCATGTTCAGTAGGAAAGGACACAAAGACCAGAGCCCGGAGCGACCTGGCAGTGCGACTGGCAGCACGACCGGTAGCGCGACCGTCACTAAACCTATTTTGCGCAACGCCAGCTCGTCCACCCTGTCTAGAGCTTCGCCGGCAAAACCGGCATCCCTCAGTACAAGAGCATCTAGCGCTACTCCGGGTACAAAAAGGAAAGGAAAATGA

Protein sequence:

>DPOGS201758-PA
MSDDNHAPLNQDSNIEERVQKSDSPPLSSDKGASSSNQIQFPFALFNPLAARLPIANNLRKTASRVEDDNESLLLQLKKMATKARSRKLSPTPPNNRLAIEAPNEKDEGISDEEDPAELRILLELNEQEAAVLRKKVEELEQDRESLRKQVKELSDKISSTVKSNTNTVVTLRKTTTKANNLAEEKVKVLEDEIAELRKKLIEKERDCERLHAELSLTQKKPKASLIKSKSLDGGSEQQNVDLKRQLQVIEQEANVLRAKTQSLEADNEKLQAENKKLQLLKSARNLKSDKSVEQNASKVAQLDKELKDALAKIKELEVNKDKEEKAEKKVRFGDVLKKEAESLKPKVEELDKLKISFNKLEKEKLKLQTTLKELKEDAMKTFKPRTPKKITDITTKLQMKRMVEDLESEIGELYVIMKNAGLSQQDINTKTGQEKDIENIKAKLSKTETELTNEKNRLQNEISKLKDLNSKLESEKKSFSNKYKALEEEKSNAAAESKSLKEEKNNLEAQLAKLNLDLKKNSTQQAAMSDCMKKIEELKTEIDNKDKEIDKLKKQVDSINKLEQDKSKLLKEVGDKTKKLTELEKKLKELEEKCKRTEKLLANRKDRVAKLERELSQEKEEKEVLTNSNRRMSVDFTTENDGMKTKLFNAESKVICLETDLKEMKCDYENKITSLESTIAAKDNHIKQLEDALRETSNQKYDEALSAVEIAQVKEKYEKASRELKDKEKELASAKKDLSSTEKDYSKLQSELTQLKSDISKYENEKKDLENKLQTEKKESNYWEKKASELDSDIQAERKKIDRMRANHDKDIKNKEAELATLRGKLKVLEQTSGAGTKRLSEIKQEHEEKVKKLEHSLAVEKAEYEELTGKYELLEEEHVVTKARLTVEKEKAQSDLLLVQKELNTKLAEYKSIQENYESESEAWNKEKAELQKEISSLQDRLCGGGWEVERARLSARLEQLERELRGVKDSNDVLSHHHDLAKKELEEARRKLEDYEKISKVQRTITADNAELERELAALNNRLEQADKARKNEVAETKARYDSQMNSLRDEMKSLHNQVSRFRRERDNYKQMLEAAQKTIAEDKSGEKRAKRNSISSTDEEEYRNKVAILEQQLACAEDELCEARLLASKLNTELVSERSTAEVRLAEMQSRLNEYEEDRLLSSGRGRLAGLATRMELAWHKERDEQNRLLHETSTLARDLRQTLFEVEREREKERLDMKRRIDQLKRTTEEETEEAKKKVIFLALXANEKLRRDKERHDRDRDQNKLLVASLKRAQQEDDKVITQLVETIDDLMKQNPSMFRTDAIKPEKSLMTPTPPRRNRSSKSRSRSATPETSEAQAASDAQATAVRLKRLTDELRASRIAERQRRQQTSARRAMSTEPRDTLSVTSSRTPSRAPSLKKRSISLEQTTKEQSSIWKTVEDSSVSSMQSLDGDADVRLFTMQRDNSLDRQVLRLSGGSTQSDVLPTEKKKKKGLFDKLKKMTKSRSIDDHVNSEVADFRPIGTVSQGSDSDMSTTGSKRDLRGRLSGMFSRKGHKDQSPERPGSATGSTTGSATVTKPILRNASSSTLSRASPAKPASLSTRASSATPGTKRKGK-