Monarch geneset OGS2.0

DPOGS208453
TranscriptDPOGS208453-TA3186 bp
ProteinDPOGS208453-PA1061 aa
Genomic positionDPSCF300095 + 613151-627821
RNAseq coverage783x (Rank: top 16%)
Annotation
HeliconiusHMEL0178940.060.89% 
BombyxBGIBMGA008856-TA0.072.89% 
Drosophilafor-PA0.081.78% 
EBI UniRef50UniRef50_G6DPS90.0100.00%PKG-Ib n=3 Tax=Obtectomera RepID=G6DPS9_DANPL
NCBI RefSeqNP_001037051.10.097.06%protein kinase, cGMP-dependent, type I [Bombyx mori]
NCBI nr blastpgi|186432480.097.15%PKG-Ib [Bombyx mori]
NCBI nr blastxgi|186432480.097.15%PKG-Ib [Bombyx mori]
Group
Gene OntologyGO:00167722.7e-88transferase activity, transferring phosphorus-containing groups
GO:00055242.3e-87ATP binding
GO:00046742.3e-87protein serine/threonine kinase activity
GO:00064682.3e-87protein phosphorylation
GO:00046724e-68protein kinase activity
GO:00046928.2e-26cGMP-dependent protein kinase activity
GO:00047132.9e-10protein tyrosine kinase activity
KEGG pathwaydpe:Dper_GL194660.0 
 K07376 (PRKG)maps-> Salivary secretion
    Olfactory transduction
    Long-term depression
    Gap junction
InterPro domain[732-1060] IPR0110092.7e-88Protein kinase-like domain
[750-1009] IPR0022902.3e-87Serine/threonine-protein kinase domain
[751-1009] IPR0174424e-68Serine/threonine-protein kinase-like domain
[598-737] IPR0184904.2e-34Cyclic nucleotide-binding-like
[601-727] IPR0147103e-33RmlC-like jelly roll fold
[612-736] IPR0005953.5e-27Cyclic nucleotide-binding domain
[618-632] IPR0023748.2e-26cGMP-dependent kinase
[750-1009] IPR0206352.9e-10Tyrosine-protein kinase, catalytic domain
[1010-1061] IPR0009611.3e-08AGC-kinase, C-terminal
Orthology groupMCL10099 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS208453-TA
ATGAAAATTAAACATTACCCGGGAAAAGCGGTCATGGAGGACCCGTGGCTTTCAATCAACGATAGAACTATGGACCTTGTTTATGCAGCCAATTGGGTTGGAGCCAATAATTTAAACAATCATAAGGAAGAATATAATCAGGATAGTCAATCGAGATTTAATTCGATATCTAGAAGCAAATCGTGTAGAGATATTGGTAGAAATTCAAATAAAGGTGACGGCGAATTACATGCATACCATGAGCAAGAATACAATCACAATCAATGTACTAACAATGAAAATATATCTCAATTAGCAAAATATCAACAAGTTATAGAAGAAAAAGCACGGACAAATGATAATTTCCTCATACAAAATAAAATTAAACATAGCTATAGTTTTAAAGATATGCCAAATGGATATAAACCTTCAACATTGAGACGGGTTAAAAGACGAAACTTTACAGAATGGGATATTGAAGCGTTTGGTCCAAATGACCGTCAAGCTCCTGTTCCACCTCAACGTAAAGAATCACATAAATATTCACATCGTCAAAGGAAACCTGACCCAAAAAAAAATGGTTACCCCCTCCCAGACCCTGGACCATTACCCCCTGATCCATCATCAGAATCATATTATGAATATTACTCCAGAGTTAGTCAACAAAATAATGACACCGACAGTGATAAAATTAAACTAATGCAAAAAGAGCCAAAGAAAGATAGTGGAAATTCAAAATCATTTGGGTCAGCGCGTGGGTATGGAAATGATACGATGTATCAAATAATTAATTCAATGGCAACCTTAGATTTAACACCTATAAAATCTAGAGCGGGAAGTAAAAACCTCGACACGGATAGCGAAGCGGAAGATTTGGGTTTATATATGCATCCTATTAATGAATCGTTATCTACATGCGAGCAACTTCCTGAGCGTAATACACAACCTGAGAACGTTAGGAACGGACGTATGGACGATGTGCGACCTAATTTTCGTTCGAAATCTATGAGAGTGAAAAGTGAGGGACGAACGCCGCTCCGGGCTTTTCTTGATACGGTTGAAGATGAGACCAAAGCATATAATGGTGTTACCGTCACTCAACCGAAAAGGAATTTATCACCAAGCGAACAGCTGACGTTGATGCAGCAAAACATGTATCAAGAAAGCCAACTAGCACCGGTCCCTGCCACCGGTAACGGATTTCACTCGGTAGGTTTAGGAAAAGAAAGCGAATATCGGACTAATAACAGTGTGTCTACACAAATTAAACCCGATAAATATGGGAAGTTATACAATACGGTGAGAGTGAAAAGTGACGATAGATATAATAGATACAATGACATTCTGTCATTTTCATCTCGCGATCGTATTAGTGAAGATCGTGTGACTAACGGTGCGTATTCAAGAAGTGCTAAAAGTTCCTCTAGCGGTTCAGATTCAGATTTTTCGATTCCTCGACCGAAACTCATAGTTCCCGTTCACACCTATGGCACTCGAAAACGAAGAACCGGAAATCTCTGTCAAAGAGAGAGCAATGCGACGGAATCATCTTTAGATGCTGGCATATTGCTCGATGTTACACGCTTAGAAGACAAGCCTTTGGAAAGTCATAGTAATGCAGATTCAGAGGGAAGAGTGGAAGTATCACGGGAGAACAAATACCTTAGCACCATGGCACCAGGCAAGGTATTCGGAGAACTGGCGATACTGTACAATTGCAAGAGAACTGCCACCATCAAAGCCGCTACCGACTGCAGGCTCTGGGCCATCGAGCGCCAATGCTTCCAGACAATTATGATGAGAACTGGTCTTATCAGACAGGCTGAATACACTGACTTCCTTAAGAGTGTACCGATCTTCAAAAACCTTCCCGAAGACACCCTTATCAAAATATCAGACGTATTGGAAGAAACACACTATCAAAATGGCGACTATATTATTAGACAAGGAGCCAGGGGTGATACCTTCTTCATTATATCAAAGGGACAAGTCAAGGTAACACAGAAGCAGCCAAATAGCAACGATGAAAAATTCATAAGAACTCTAACGAAAGGTGATTTCTTCGGGGAAAAGGCCTTGCAAGGAGATGACCTCCGAACGGCAAACATAGTATGTGACTCCCCAGATGGCACTACATGCTTAGTAATAGACCGGGAGACCTTCAACCAGCTTATCTCGACGCTCGATGAAATCCGCACCAAGTACAAGGATGTTGGCGATGACAGGCAGAGACTTAATGAAGAATTCGCAAACTTGCGGCTATCAGACCTGCGCATTATAGCAACCTTGGGTATTGGTGGTTTTGGTCGGGTGGAGCTTGTTCAAATCCAAGGAGATTCCAGCCGATCGTTCGCCCTAAAACAGATGAAGAAAGCCCAAATCGTTGAAACCAGACAGCAACAGCATATAATGTCGGAGAAAGAAATTATGTCCGAGATGAACTGCGAATTTATTGTGAAACTTTATAAGACGTTTAAGGATAGAAAGTATTTATATATGCTAATGGAGACATGTCTTGGTGGAGAATTGTGGACAATCTTGAGAGATAGAGGACAATTCGATGACTCCACTACTCGGTTCTACACAGCTTGTGTCGTTGAAGCGTTCCACTATTTACATTCTAGAAATATAATCTATAGGGATCTTAAACCAGAGAACTTACTGCTTGACTCCAAAGGCTACGTGAAGCTAGTGGACTTTGGTTTTTCGAAAAAACTACAAGCGAGCCGAAAAACTTGGACTTTCTGTGGAACGCCGGAATACGTGGCTCCGGAAGTTATTATGAACAGAGGCCACGACATTAGCGCAGATTATTGGTCCTTGGGGGTGCTCATGTTCGAATTACTGACTGGATCTCCACCATTCACTGGTGCAGATCCAATGAAGACATACAATAAGATCCTGAAAGGTATTGATGCGGTTGAATTCCCGAGGTCAATCACACGTAACGCAGCCAACCTTATCAAGAAACTTTGCAGAGACAACCCTGCGGAGAGACTCGGATACCAACGGGGAGGCATTACTGAAATACAAAAGCACAAATGGTTCGATGGTTTCAACTGGGAAGGTCTAGCACAACGCACTTTAGACCCTCCGATTACTCCCGTTGTCAAGTCCGCGGTAGACACACACAACTTTGACCAGTATCCTCCAGACGCTGACGAACCACCGCCAGACGATCTGTCAGGTTGGGACAGCACCTTCTAA

Protein sequence:

>DPOGS208453-PA
MKIKHYPGKAVMEDPWLSINDRTMDLVYAANWVGANNLNNHKEEYNQDSQSRFNSISRSKSCRDIGRNSNKGDGELHAYHEQEYNHNQCTNNENISQLAKYQQVIEEKARTNDNFLIQNKIKHSYSFKDMPNGYKPSTLRRVKRRNFTEWDIEAFGPNDRQAPVPPQRKESHKYSHRQRKPDPKKNGYPLPDPGPLPPDPSSESYYEYYSRVSQQNNDTDSDKIKLMQKEPKKDSGNSKSFGSARGYGNDTMYQIINSMATLDLTPIKSRAGSKNLDTDSEAEDLGLYMHPINESLSTCEQLPERNTQPENVRNGRMDDVRPNFRSKSMRVKSEGRTPLRAFLDTVEDETKAYNGVTVTQPKRNLSPSEQLTLMQQNMYQESQLAPVPATGNGFHSVGLGKESEYRTNNSVSTQIKPDKYGKLYNTVRVKSDDRYNRYNDILSFSSRDRISEDRVTNGAYSRSAKSSSSGSDSDFSIPRPKLIVPVHTYGTRKRRTGNLCQRESNATESSLDAGILLDVTRLEDKPLESHSNADSEGRVEVSRENKYLSTMAPGKVFGELAILYNCKRTATIKAATDCRLWAIERQCFQTIMMRTGLIRQAEYTDFLKSVPIFKNLPEDTLIKISDVLEETHYQNGDYIIRQGARGDTFFIISKGQVKVTQKQPNSNDEKFIRTLTKGDFFGEKALQGDDLRTANIVCDSPDGTTCLVIDRETFNQLISTLDEIRTKYKDVGDDRQRLNEEFANLRLSDLRIIATLGIGGFGRVELVQIQGDSSRSFALKQMKKAQIVETRQQQHIMSEKEIMSEMNCEFIVKLYKTFKDRKYLYMLMETCLGGELWTILRDRGQFDDSTTRFYTACVVEAFHYLHSRNIIYRDLKPENLLLDSKGYVKLVDFGFSKKLQASRKTWTFCGTPEYVAPEVIMNRGHDISADYWSLGVLMFELLTGSPPFTGADPMKTYNKILKGIDAVEFPRSITRNAANLIKKLCRDNPAERLGYQRGGITEIQKHKWFDGFNWEGLAQRTLDPPITPVVKSAVDTHNFDQYPPDADEPPPDDLSGWDSTF-