Monarch geneset OGS2.0

DPOGS207562
TranscriptDPOGS207562-TA6363 bp
ProteinDPOGS207562-PA2120 aa
Genomic positionDPSCF300072 - 734158-750332
RNAseq coverage491x (Rank: top 25%)
Annotation
HeliconiusHMEL0171450.061.37% 
BombyxBGIBMGA004712-TA1e-7948.09% 
Drosophilapar-1-PP2e-6947.49% 
EBI UniRef50UniRef50_B4NJP88e-16468.35%GK12830 n=16 Tax=Eukaryota RepID=B4NJP8_DROWI
NCBI RefSeqXP_001662746.12e-16860.47%serine/threonine protein kinase [Aedes aegypti]
NCBI nr blastpgi|1571330274e-16760.47%serine/threonine protein kinase [Aedes aegypti]
NCBI nr blastxgi|3867654650.030.81%CG43143, isoform E [Drosophila melanogaster]
Group
Gene OntologyGO:00055243e-102ATP binding
GO:00046743e-102protein serine/threonine kinase activity
GO:00064683e-102protein phosphorylation
GO:00167721.5e-93transferase activity, transferring phosphorus-containing groups
GO:00046725.3e-76protein kinase activity
GO:00047133.8e-17protein tyrosine kinase activity
KEGG pathway 
InterPro domain[35-286] IPR0022903e-102Serine/threonine-protein kinase domain
[17-346] IPR0110091.5e-93Protein kinase-like domain
[36-286] IPR0174425.3e-76Serine/threonine-protein kinase-like domain
[35-284] IPR0206353.8e-17Tyrosine-protein kinase, catalytic domain
Orthology groupMCL11215 Insect specific
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS207562-TA
ATGGTGGTGGGTGAGAGCAAACGCACCGCCAACATCATGGACGGCATCGAGAACACTGGCGACGTTCGTCTCCACGACCATCGACTGCGTCTCAAACAGAGATTTGATATAGTAAGGAAATTGGGGCAGGGGACATATGGGAAGGTCCAGCTAGGTATCAACAAGAAGACAGGACAGGAAGTGGCTATTAAGACTATAAAGAAATGCAAGATTGAGACTGAGGCTGACCTTATCCGCATACGGAGGGAGGTTCAGATCATGTCTTCTGTCAGACATCCGAATATCGTACACATATACGAAGTATTCGAGAACAGTGAAAAGATGATTTTGGTCATGGAATATTGTTCCGGCGGTGAACTCTACGACTACCTAAGTCAGAAAAAAGTATTAGAAGAAGACGAAGCCAGAAGGTTATTCCGGCAGATAGCAACAGCTGTATATTACTGTCATATACATAAGATATGTCATAGAGATTTAAAATTAGAAAATGTGTTGTTAGATGACACAGGTAGTGCCAAGATTGCCGATTTCGGTCTTTCAAACGTCTTTAAGGAGACTTCACTGCTGTCAACATTTTGCGGATCCCCACTGTATGCTTCACCCGAAATAGTCAAAGGAACTCCATACATCGGACCTGAGGTCGATTGTTGGTCACTGGGAGTCTTATTATACACTCTAGTGTATGGAGCTATGCCTTTCGACGGTTCAAATTTCAAACGTCTGGTCAGACAGATAAGCAACGGCGATTACTATGAGCCTAAGAATCCATCAACGGCGTCCCCACTGATAAGGGACATGCTGACGGTGGATCCACTGAAACGTGCTGATATCGCATACATATGTGATCACCCGTGGGTGAACACCGGCTGCCAGACGTCATGTCTGGAGATGGCGGAGGCCCTGGCGGCGGAGACTCCAGTGAGACTTGACCTGCTCCTGTCTCTGGCGCCCGCAGCTCCCTCCAGCTCTAACAGTGTCGTTGTACCCCCTGAGGCTGATTTGGGCACAGAAGAGAGTTGTACCGACCTTACCAGTTCAACATCCATGGCGGTCGAACCGAGCAACTCGGCTGAGAAGAGGATATTGGAATTAGTTGCGGAGGGTGGCGAGGATGCCATTAAGCCGTCACCCACACGCACCCTGGTGTCGGCTGACCACAAGAGGAAAATGGACTCGCTCAAGGACAGAGTCGCCAGTTGTGCCAGTATGGGACCCACGCCCCCAGTACTACCCGAGGAGGACACTAAGTTAGAGTCACCGTCGGCAGATAACATCGAAGATGAGTTACAGGCTGTCCAGTCCACTCTCAAAACATCGGCCACGATTACAATAGCGCCGGCTCCGGTGCAAACTCAAGAGATACACGAACCTGTCAAGAATATCGAACCATCTCTAGAAGAACAGAAGGAGAAACAAAAACAGAAAGTCATCAAGAAGGTGTCCCCGCAGAAGGTCGAGGAGAAACACAATAAAGTTGAAGAGACTAAGGAAGAAAAGCCAGCTCTAGTGCCCCAAGTGGATAAAATCACAGCGGTGTCAACACCACAAGTCGCGGCTATGCCGTCTCCGACGAACGTGCCGGCTAAACCTAAGAAATTGTCTATAGTTGTCTCCAAGATCGCTAAGCCTAAGGCTCAGAGCGAAGACCGCGAGCTGAGCGCCAAGTCGCCCGACACCGGCTCCGTGAGGCTGCAGCAGATTGGTATTGAACCATCACAGTCGTCTTCAAACACGACCGAGCCTCGCGAGACGCGCGGCGTTTTGAAGACGGAGAGCGAGCCAGCGCACTGCAACACTAGGGTCGACCCCGCGGCTCTGCTGCAGGACGCTAGAAGGAGTCTTCAGAACTCAATGGCAAAGTTGACGGAGGAGAGACTGGGTGAAGACAGTCGCAGACGCGCGGCGCGGGACATTATATCATCAGCTATACGCACAGGCAAGCCGCCCGTCCCGTACGGTCGTTCGTCGTCAGCGGGCGTGGCGAGTCTGGTGTCGCCTCCTAGTACTCCGCCCGCGCCGACCGCTACTAACGCCGCCTCGCCGCGGGTCTTCAGGACGGAGGCCATGCATCGCGTGGAAGATCACAGACCCAGGGGCATGTCTGTGGAGCGTATCATACCTATAACGATGTCTGGCGAGGAGCAACCGCCACGTGGCTCGGTGACGCCGGTGTCGCCGCCAGCGTCACTCACGTCGCCCACCAGCGGCAGGGTCACACAGACGCCGATCAGACGCTTGACGTCGTCGGATTCTACGACGGCCAGCGAGGCGGGTGGGGAGCCGATCAAGAAGTCGGCCCGCGAGTTCATCATACCCATCGCGGTGGAGGGTAAGGGGTATGTGACACCCAGGCAACGAAGCCTCGAACCTGACACGGCCACGCACCGACGAACCAGACCGCGCCGCATGGGAAGCCTCGTGAGCGGCGGCGAGTCTGAGGAAGAGGACGACGCTCACATGCACAGGCTGAGGTCGACCCGCGCCGCCCGCGCCGAGTCCGTCAGCTCCGGTGAAGAGGACGAGGAGGACGAAGGCTTCCATCTCCTCACAGCCGAGAATCTTTTCTCCACTTTACTACATAGAGTCCGCGCTCTCACCCAGCGTCTGAACGGCGAGGAAGGTCCGGGCTTCCAACACCCACACTCGCTGTTCAACAATCTGCAGTCGCCGTTCTTCAACAGGCGCGAGGGCTGGGGCAGTCGTGATCTTCACGCCCCGTTCGAGTCTCTGTTCTCTTCGCGACCCTCTCGAGGCAGTAATAAGAAAACCGGCAAGCACCGACCGCAACCCACGCATAACACGGAGGCGTCAACCGAGGCGCTAGACCTCTCAGACCTGGACTTGACCTCGATAGAATTCTCGGAGCGCGAGATGGCGGCGCTGTCGGGACTCACACCGGCGTTATCGCGCCGTCTGCAGAGGCAGCTCTTGGCGCACTTGCCGCCGCGGGCCGCCGCACGTCTAAGACGCACGCTGTCTCTACATTCGCCCGCCACCGACTCTACAATCTCTGGTCCTACCTCTAGCAGCCCCACTACCACCTGCTCCGCAGCTACCAGCCCTACGTCCGGTATTATTGGCTCTTCGACTGACCGTCCGCCGTATACGCGATGCCGCTCCGCCGGTCAAGCCGAAGACACGAGCATCGATCACAACGAAACAATAGCACTCGAACGTCCCTCCGGAATCGAAAACGAGACAGTTCTTGACGACTTAAAATCTGAATCACACTCTGACCTGCCCGTATCTCAATTTTGCACACTACCTCGCTTGCGACGACGGTCTTCCGTAATGGCCGAAGCTAAATCTCCTAGCGATGTCATAAACGATAGCACGCAAATTCTGGAACGACCCTCTCAAGAATCTACTAGCTCTAAAGTTGGTAGTGTGCGTTGCACCCCAGAACGTCCTCTACTCAGTAAATATCTAGCGCCGGAGCGAAATCACTCGTTAGACGAAACCTGTTCATTGGAAAGTGGAAGCATACTTTCTGACCCCAGTTACATTGCTGCTTATGGCCCATCTAATGTAGGAAATGCTTCCGGTCTTGGCTTTAGAAGACACTCGCTCAGATTGAGCGGTGAACAAGGTAAAAAACGCATCTCGAGGTTTCTTCGTTCTGATTTCTTTGACACCCCAGCGGACGAAAACTTATACGCTAAGCATAAAAAAGAAAAGGAGCTAGAAACGCAAAAAATATTAAAAGAAATACGGGAAAAGAAAAATAAATCTTTGGAATGCGCCAAAAGTCCCACGGAAACCAATGAATTTAGGTTTGGTGTGAAGGACGAAAGTTCCGTTAAAAAATGTCTTTCCCCTGTAGGAAACTTGTTATTAAAAGATCGTAGCAGATCTAATACCCCATTCTTTCCTATTTTAGATAATATTAAAGAAAGCACTCTAGATTCTACTTCCATTCAACCTCTTAAAGTAATACCGCAGGAGACCGATGAACTGGTATGTAAAGATAAAATTAAAGAAAGTACTTTAACTAACGAATCAAAAATGATGAGGCCAAAGAGTTATCCAATAAAAAATTTGGATTCCTATGACGATGCTAATAAAAATGCCGTATCATTGGAAATCTCTGATAAATCTCAAAATATAATCGAGGAGAAGAAAGTCAGTAAGGAATCTAAACTAATGCGACCAAAAAGTTATCCTACGGGCAGTCCTTCACCAGAAAAGATTTATATTAATCGTAATACTAAAAAAGATGAAACGAATGATTTTAAGGATATCGATAATGGCAAAGAAAATAAGCCCGACATAGAAGTGAGTTTTAATCTAACGCTCCCGAAAAAAACCAAACCAATTGTTAAAAATTCAGATACAATTAAGAAAGTTGAAGATCCAAACAATGAAAATAAAAAAGATATAGAACCAACGTTGAATCTAAAGAGATATCAAATCGTTAATGAACTTAAACCGGAGAATAAAGACGCTAAGGTTAATCAAAGCAACCCAATTGATACCACTACAAAAGTTAAGAAAAGTTTGATGCTAAAAGATGACACTAAAACTACCGCCACAGATAATCAAACTGATGACAAGAAGTGTGTAAAAAAGAAAGTTGTAAAACGAGTATCCTCAAAGTCTAAGACCGATTTGAGTGTTTCTGATTCCAATGAACCGAAACAAACTGTCGAAAAAAAGAAAGTTACAAAAAAGATAAAAGATAAATCTTGTGATGACTCCAAAACTACTGTTACAAAAAAGAGATCAGTTTTGCAATCTATTGGACATAAATTAGAAAAATTCGCTTCCTCTAAATCAAACTCTCCTGAAAAAATATGCAATAATAGTAATATAACAGGCGGACTATCTAAAACATCTAGCGCTTCTAACAGAACTCAGCGAGAGCAATCAGTTCCTGCCATTGTTGACCCTCCGACGGAATCGAACCTTCTAAAGAGGGCTGTAACCATCACTGACGTAGCTGCGCTTGATAATAATCAAAATAATAGTATACAAAATAAGACGACCGTTTCCAAAGTCTTAGGGTTGTTTAAGAAGTTTGAAACTAAAGAAAAAATTACCGAACCGATATCAGAGTACAAAGTACCCGAAAACTCAGGCAACGGTGCAAATTTAATTAAAAATAGTAATACCTCAAAATCCAATGTTGATTCTGAGGAGAAAGCTAAACGACCCACTTCTCTTTTATTAAATGGTTTAGGGCGTAAGAATAGGTATAGCAGGTCGTCTAGTGATGACAACAGTAAAGAAATAGTTGAAAACGAAGACCAGCAAGTACTTAAAAAGAAGGAAGCTGATACCAAAAATATCAGAAATACTCTAAGATTAGATTTCTCACGATTGCCAAGAGTAAAGAAAATAGTTCCTACGAATCCTGTGATAGAACCTCAAATTTTTAATAACTCTGATATTGAAAAGGATACCGATATTATAGAAAAAAATGGAATTGTAAATGACCATAAGTCGAATGTAGATTTAAGTGATACTCAAACACGCAGTCGATCTAGAAGTAGATCGACCTATTCCAATTCTGATATGAAATCAGACTTAGGTGTTAAAGAAAAGAAAGTTGTCTCTGATGTTCCTCTTCCCCACTGTAATGTACGGAGTCACGAATCGCTAACACCTGAAAAGGAAGATATCGTAGACAGGATACGTAGAAAAAGTTTTTATTCTCGATTCAATGAAAAGAAACAGAGGAGGAAAAGCAATTTGGTAGGACCTGGAGCAGTTGAATACGATCCATTGGCAAGAATACACTCTCAAGTATCGGAATCTAAGTATGACACATCTCCGACATCGCCGGGAGCTTATGATTTATCTCCTGGACTATCAGTTGGCTCCGATGTATCGCCATCCACAGAACGCTATAGATCTCTCTTAACAGATTTGTCATTAAACACAAGAAACAATTCCAGATACGACGGTGGGAACGATAAAATTGATATGTACCGATCCCTCGACAGAAACGACTTCAGAAAATATCCAAGCAGCAAGAGCTATTTAGATTACGAACAACCGCTATCGTACAATCCCAACCGATATTCCAGGACGAAATCTTTGTTCGACAGTTCCGATGCCTCCGAGGATTATAATACATTCGTCCTTCCAAGAGAAACACAGAAATATAATCGGACCAATTCCCTATTCTCACCGGGCAGCTACGCCACATATAGACCCAAAAGAACCAGAAACTCCGCTATAATACTTAAGGAGAGCGAAAAAGAGCCCAGCCCCGAGAACATATTAGATAAAATACGACAGCGAAAAATATCAATCAGCGTTACGAGAAAACCAGACGTTGAGAAGGAATCGACGCCGAGATCCAATATCTCACCAAAAGGCGAAAGCGACGGTTCAGAACGCTCTACGAAAATTGACTGA

Protein sequence:

>DPOGS207562-PA
MVVGESKRTANIMDGIENTGDVRLHDHRLRLKQRFDIVRKLGQGTYGKVQLGINKKTGQEVAIKTIKKCKIETEADLIRIRREVQIMSSVRHPNIVHIYEVFENSEKMILVMEYCSGGELYDYLSQKKVLEEDEARRLFRQIATAVYYCHIHKICHRDLKLENVLLDDTGSAKIADFGLSNVFKETSLLSTFCGSPLYASPEIVKGTPYIGPEVDCWSLGVLLYTLVYGAMPFDGSNFKRLVRQISNGDYYEPKNPSTASPLIRDMLTVDPLKRADIAYICDHPWVNTGCQTSCLEMAEALAAETPVRLDLLLSLAPAAPSSSNSVVVPPEADLGTEESCTDLTSSTSMAVEPSNSAEKRILELVAEGGEDAIKPSPTRTLVSADHKRKMDSLKDRVASCASMGPTPPVLPEEDTKLESPSADNIEDELQAVQSTLKTSATITIAPAPVQTQEIHEPVKNIEPSLEEQKEKQKQKVIKKVSPQKVEEKHNKVEETKEEKPALVPQVDKITAVSTPQVAAMPSPTNVPAKPKKLSIVVSKIAKPKAQSEDRELSAKSPDTGSVRLQQIGIEPSQSSSNTTEPRETRGVLKTESEPAHCNTRVDPAALLQDARRSLQNSMAKLTEERLGEDSRRRAARDIISSAIRTGKPPVPYGRSSSAGVASLVSPPSTPPAPTATNAASPRVFRTEAMHRVEDHRPRGMSVERIIPITMSGEEQPPRGSVTPVSPPASLTSPTSGRVTQTPIRRLTSSDSTTASEAGGEPIKKSAREFIIPIAVEGKGYVTPRQRSLEPDTATHRRTRPRRMGSLVSGGESEEEDDAHMHRLRSTRAARAESVSSGEEDEEDEGFHLLTAENLFSTLLHRVRALTQRLNGEEGPGFQHPHSLFNNLQSPFFNRREGWGSRDLHAPFESLFSSRPSRGSNKKTGKHRPQPTHNTEASTEALDLSDLDLTSIEFSEREMAALSGLTPALSRRLQRQLLAHLPPRAAARLRRTLSLHSPATDSTISGPTSSSPTTTCSAATSPTSGIIGSSTDRPPYTRCRSAGQAEDTSIDHNETIALERPSGIENETVLDDLKSESHSDLPVSQFCTLPRLRRRSSVMAEAKSPSDVINDSTQILERPSQESTSSKVGSVRCTPERPLLSKYLAPERNHSLDETCSLESGSILSDPSYIAAYGPSNVGNASGLGFRRHSLRLSGEQGKKRISRFLRSDFFDTPADENLYAKHKKEKELETQKILKEIREKKNKSLECAKSPTETNEFRFGVKDESSVKKCLSPVGNLLLKDRSRSNTPFFPILDNIKESTLDSTSIQPLKVIPQETDELVCKDKIKESTLTNESKMMRPKSYPIKNLDSYDDANKNAVSLEISDKSQNIIEEKKVSKESKLMRPKSYPTGSPSPEKIYINRNTKKDETNDFKDIDNGKENKPDIEVSFNLTLPKKTKPIVKNSDTIKKVEDPNNENKKDIEPTLNLKRYQIVNELKPENKDAKVNQSNPIDTTTKVKKSLMLKDDTKTTATDNQTDDKKCVKKKVVKRVSSKSKTDLSVSDSNEPKQTVEKKKVTKKIKDKSCDDSKTTVTKKRSVLQSIGHKLEKFASSKSNSPEKICNNSNITGGLSKTSSASNRTQREQSVPAIVDPPTESNLLKRAVTITDVAALDNNQNNSIQNKTTVSKVLGLFKKFETKEKITEPISEYKVPENSGNGANLIKNSNTSKSNVDSEEKAKRPTSLLLNGLGRKNRYSRSSSDDNSKEIVENEDQQVLKKKEADTKNIRNTLRLDFSRLPRVKKIVPTNPVIEPQIFNNSDIEKDTDIIEKNGIVNDHKSNVDLSDTQTRSRSRSRSTYSNSDMKSDLGVKEKKVVSDVPLPHCNVRSHESLTPEKEDIVDRIRRKSFYSRFNEKKQRRKSNLVGPGAVEYDPLARIHSQVSESKYDTSPTSPGAYDLSPGLSVGSDVSPSTERYRSLLTDLSLNTRNNSRYDGGNDKIDMYRSLDRNDFRKYPSSKSYLDYEQPLSYNPNRYSRTKSLFDSSDASEDYNTFVLPRETQKYNRTNSLFSPGSYATYRPKRTRNSAIILKESEKEPSPENILDKIRQRKISISVTRKPDVEKESTPRSNISPKGESDGSERSTKID-