Monarch geneset OGS2.0

DPOGS203740
TranscriptDPOGS203740-TA3333 bp
ProteinDPOGS203740-PA1110 aa
Genomic positionDPSCF300010 - 305927-317284
RNAseq coverage291x (Rank: top 38%)
Annotation
HeliconiusHMEL0029600.060.41% 
BombyxBGIBMGA013407-TA1e-17651.13% 
DrosophilaRet-PD1e-1729.68% 
EBI UniRef50UniRef50_E2A0263e-14240.47%Receptor-interacting serine/threonine-protein kinase 5 n=3 Tax=Formicidae RepID=E2A026_CAMFO
NCBI RefSeqNP_001071281.12e-13039.20%dual serine/threonine and tyrosine protein kinase [Apis mellifera]
NCBI nr blastpgi|3071884601e-14140.47%Receptor-interacting serine/threonine-protein kinase 5 [Camponotus floridanus]
NCBI nr blastxgi|3454871637e-15034.93%PREDICTED: dual serine/threonine and tyrosine protein kinase-like [Nasonia vitripennis]
Group
Gene OntologyGO:00167727.8e-50transferase activity, transferring phosphorus-containing groups
GO:00055244.7e-36ATP binding
GO:00046724.7e-36protein kinase activity
GO:00064684.7e-36protein phosphorylation
GO:00046748.5e-31protein serine/threonine kinase activity
GO:00047134.9e-13protein tyrosine kinase activity
KEGG pathway 
InterPro domain[793-1065] IPR0110097.8e-50Protein kinase-like domain
[820-1061] IPR0174424.7e-36Serine/threonine-protein kinase-like domain
[818-1069] IPR0022908.5e-31Serine/threonine-protein kinase domain
[818-1069] IPR0206354.9e-13Tyrosine-protein kinase, catalytic domain
Orthology groupMCL17427 Patchy
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS203740-TA
ATGGCGGGCGGCGCTTGGCGTCGCAGTGCGGCCCGCGCTCGCACGCTCCGGAACCTATTGCGCGACACGACACGCGCTTTACAAGAGATACAGGATGTGTTAACCGTCGACCCAGAAGTGGAACGCACGATTCAAGACATCACCTCTCAGTCTTCGCGGCCAACAGCGCTGGTGGTGATGGGTTGTTCTCCCAGTGCTAGGGCCAGGTTATTGAACTGTTTGTTGGGTAGAAGGCTCCTACCTGAAAATCTCCCCCGAGGGTCCAAATGGTTACACATACAATACGGGGCTACCACTCAAGCGCACTTGACCGTTGGTAACTCTGAATTCGAGCTTGTTGAGGTCTTGGAGTGCAATCAGGGACCATGGGATACTTTACCTGTACAGGACATCGCTCGCCAAGATCACACAGACTTAGGGACGATGCTTGAAGTGGAGATAAACAATTCATTCCTAAAAGATGGCCTCAAAATCATCGTCCCACCAGACGTCATGGACCCGGGGATGGCTGATTACGCGACTTTGAAACATTTAAACGCAGATTTATACCAGAGGAGAGAAACAATACTGAAGTCGTACAGTCCCGTGTACTTGTACGCGCTGGACAAATTCGGTACAAACATATTCAATGATAACATCTGCAACAAGATGGACTCTTCGAGGAATGAAGACGACTTCTGGTCGACCTTCAACCTTTATTACATGTTGAACAATGAAAAGGTCGAGAAGAAGGTGGAAATGTCAGAAGATCTTTGGAAGGAAGCTGCCGATTCTGTCTTCAGTGCTGAGAACTGCCTTGATCTCCATCAAATCAAGGACATAGACAGCAGTTCTCAAGTCTTCTTCGTTCTCTTCTCGGACAGCAGAGCAGAAGAGAAGCTAAGAGATCCCCAAAGTGATGCGACGGAATCGACTGAGTCCGTTTATAATAGCGAGGAGTTACCAGAATCTGATCAACTGATGAAAGTCGTTGGCCGGGAGTGTTCCATCCGTCGTCTGCACGAGGAACACGCCGCCTTCATGAACGATCTCCTCGACCAGTGGGAACTCATCACCAGTCCGCCAAAGAAACACCACGTGAAAAGCCAATGGACCATCCTGAACGACAAAGAGTTGTTCAGGACCGTGGACAAAGAAGACAATAAGAGGAAGAAAGACGACAACGATGTAACCGTAAAGAATAGAAGTAGTTTACTTAACTTGATCCTCAAGTTCGCGACGGAGACTTCACAGACCTACTTGTTGGATCAATGCACTCGGCTGAGTGAGCTGCACGTGAAGTTACTCCAGCAGTTCATCCTGGCGTCGTTCGACCTGGCTCGTGAGTTGCAGGTGGTGCCTCGCAAGATACAGTACGTAGCCCAGCAGGAACAACAGCTGTACGAGACTATAAATGATAAATTCTCACAGGGCGATAAAAAACGAGAGCTGGTTCAGATGATGCAGGAAGTGTTGGACGAAATACAGACAGACATCAACGACATGGACTGGAGCGTGGACGACCTTCCCTGTCACCAGGACAAGCGCTTCACTCTATCCAGTTCAATTTTTCATTCAACCAGAAGCAAGTCTCTATCAATAAGGTTAACAGAAGTAGCGAAGCCATCAGACCTCATGGTGCCAGATGTTCCAGAAGTATCTTCGGATGTCGAAGAGGCCGTGTCCTATGATAGTTATAATTTCGATGACTTCGAAATCATACACTCCAATGAAGAGAATCCCAGTAGCGAGTGGAGTCGGATGTCACCGTCAAGTTGTACGTCATCGTGTGCTCGTGTGTCCACTAAACAAGCAGCGTTGGATGTACAACATACTGTTCTTTCAAGACTGAGTCAAAAAATAAGTTTGAAGCTAGTGAAATTTGTTGACTGCTTGAAGGTTAGCTACTTCGGTACTTTACAGAGATGTCTCGAGTCGCTAGAGGGTTCGTGTCGCAGTGAGCTGGGAGGTCGTCCAGCGAGCGAAGCAATGCTGCAGCTTCTGTCGGTAGCTCGTGACGTAGACCTCGGGCCCTGCGCCTCCGTTTCAGCCCTCAGAGACCTGCTAGACTCACTGAGGAGATACAAATCAGCCACTCTAAACATAATATTGCGACTGGCGTGTCATCTATCTGAATGTCTCATGTGCTGGTGTAGTCTTCGTCTGTCGGCCGCTCCCGAGGCGGAGTGCTGCGCTCTGAGCGCTGCCTGGAGACGACGCGCTGCCTCCAGGGCGGCGCGGAGACTAGACACGCACACACTCGCACGGATCATATCGGAACAGATATTAGAGAGACTGAGCGTAGCCCACGAGCGGTACCAGTCAGCGCTGAATTCGCTGGAGACAGCGCTGGCAAGTCGCTTGCATCACACCGAGGACGTCAAACTTGCTATACGAAAGAAGTTCGCCCCATCGTTCGCTCGCTTGTGTCTGGAGAGTACGTCGATGTGCGACCTGCTGATGTATGGGATGCCGGAGCTTGGCAGAGAGATCGGTCGCGGTCAATACGGCGTAGTGTACTCCGTGAGAGGGTCCTGGGCGGGTCACAGTCCGGCCGCCGTGAAGTCGGTTCTCCCGGCCGACACGAGGCACTACCGAGAACTCGCTATGGAGTTCTTCTATACCAGGTCTATACCGGCACATCCGCGTATTGTTCGTCTGCTCGGATCGTTGGTTCAGCGCGGGACTTCCCCGTGTGTGTTGCTCGTCTCTCAAAGGTTCACCAGAGATCTCCACGCCGCGGTCAGACACGGCCTGCCGTTTGATACCAGGATGAGGATAGCCTGTGATATCGTTGAAGGGATCCGTTACCTACACTCGCTAGGTTTAGTTCACCGGGACGTTAAACTGAAGAACGTTCTGTTAGACTCGTGTTGCCGCGCGGCGTTGTCCGATCTAGGTTTCTGTACAGCGGGCGCGTTGCTATCGGGCTCTGTGGTTGGAACCCCAGTACACATGGCGCCTGAACTATTGGCTGGGAACTACCACTCGGGAGTCGATGTTTACGCTTTTGGTGTGTTGTTTTGGTATCTTTGCGCTGGCAACATTAAACTACCCTCCGCATTCGAGGCTTTTCAAAATAAAGAACAATTGTGGAGCAAAGTAAAGAGAGGTCTCCGGCCGGAGCGCCTGCCTCACTTCTCGGACGCGTGCTGGGATTTGATGCAGGCCTGCTGGGCCTCCGAGCCGGAACAACGCGCGCTGTTAGGAGACGTACAGCCGCAGCTCGAGAGGATATTGGAAGAAGCGAGGGAGAGGGGCGAGGGGGAGGAGAGGGATAAAGACGGGGGGAAGAGATACGACGAGGAGGAGGACAGTCTAGATATGACAGGGTTGGAACAATATAGGTATTGA

Protein sequence:

>DPOGS203740-PA
MAGGAWRRSAARARTLRNLLRDTTRALQEIQDVLTVDPEVERTIQDITSQSSRPTALVVMGCSPSARARLLNCLLGRRLLPENLPRGSKWLHIQYGATTQAHLTVGNSEFELVEVLECNQGPWDTLPVQDIARQDHTDLGTMLEVEINNSFLKDGLKIIVPPDVMDPGMADYATLKHLNADLYQRRETILKSYSPVYLYALDKFGTNIFNDNICNKMDSSRNEDDFWSTFNLYYMLNNEKVEKKVEMSEDLWKEAADSVFSAENCLDLHQIKDIDSSSQVFFVLFSDSRAEEKLRDPQSDATESTESVYNSEELPESDQLMKVVGRECSIRRLHEEHAAFMNDLLDQWELITSPPKKHHVKSQWTILNDKELFRTVDKEDNKRKKDDNDVTVKNRSSLLNLILKFATETSQTYLLDQCTRLSELHVKLLQQFILASFDLARELQVVPRKIQYVAQQEQQLYETINDKFSQGDKKRELVQMMQEVLDEIQTDINDMDWSVDDLPCHQDKRFTLSSSIFHSTRSKSLSIRLTEVAKPSDLMVPDVPEVSSDVEEAVSYDSYNFDDFEIIHSNEENPSSEWSRMSPSSCTSSCARVSTKQAALDVQHTVLSRLSQKISLKLVKFVDCLKVSYFGTLQRCLESLEGSCRSELGGRPASEAMLQLLSVARDVDLGPCASVSALRDLLDSLRRYKSATLNIILRLACHLSECLMCWCSLRLSAAPEAECCALSAAWRRRAASRAARRLDTHTLARIISEQILERLSVAHERYQSALNSLETALASRLHHTEDVKLAIRKKFAPSFARLCLESTSMCDLLMYGMPELGREIGRGQYGVVYSVRGSWAGHSPAAVKSVLPADTRHYRELAMEFFYTRSIPAHPRIVRLLGSLVQRGTSPCVLLVSQRFTRDLHAAVRHGLPFDTRMRIACDIVEGIRYLHSLGLVHRDVKLKNVLLDSCCRAALSDLGFCTAGALLSGSVVGTPVHMAPELLAGNYHSGVDVYAFGVLFWYLCAGNIKLPSAFEAFQNKEQLWSKVKRGLRPERLPHFSDACWDLMQACWASEPEQRALLGDVQPQLERILEEARERGEGEERDKDGGKRYDEEEDSLDMTGLEQYRY-