New model in OGS2.0 | DPOGS208453  |
---|---|
Genomic Position | scaffold810:+ 28430-43100 |
See gene structure | |
CDS Length | 3186 |
Paired RNAseq reads   | 3513 |
Single RNAseq reads   | 8936 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA008856 (0.0) |
Best Drosophila hit   | foraging, isoform K (0.0) |
Best Human hit | cGMP-dependent protein kinase 1 isoform 2 (0.0) |
Best NR hit (blastp)   | PKG-Ib [Bombyx mori] (0.0) |
Best NR hit (blastx)   | PKG-Ib [Bombyx mori] (0.0) |
GeneOntology terms    | GO:0004690 cyclic nucleotide-dependent protein kinase activity GO:0030536 larval feeding behavior GO:0004692 cGMP-dependent protein kinase activity GO:0006468 protein amino acid phosphorylation GO:0008345 larval locomotory behavior GO:0046959 habituation GO:0004674 protein serine/threonine kinase activity GO:0007631 feeding behavior GO:0008016 regulation of heart contraction GO:0005524 ATP binding GO:0005886 plasma membrane GO:0007616 long-term memory GO:0007614 short-term memory |
InterPro families    | IPR011009 Protein kinase-like domain IPR018490 Cyclic nucleotide-binding-like IPR002374 cGMP-dependent kinase IPR000595 Cyclic nucleotide-binding domain IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR000961 AGC-kinase, C-terminal IPR014710 RmlC-like jelly roll fold IPR000719 Protein kinase, catalytic domain IPR017442 Serine/threonine-protein kinase-like domain IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site IPR018488 Cyclic nucleotide-binding, conserved site |
Orthology group | MCL10126 |
Nucleotide sequence:
ATGAAAATTAAACATTACCCGGGAAAAGCGGTCATGGAGGACCCGTGGCTTTCAATCAAC
GATAGAACTATGGACCTTGTTTATGCAGCCAATTGGGTTGGAGCCAATAATTTAAACAAT
CATAAGGAAGAATATAATCAGGATAGTCAATCGAGATTTAATTCGATATCTAGAAGCAAA
TCGTGTAGAGATATTGGTAGAAATTCAAATAAAGGTGACGGCGAATTACATGCATACCAT
GAGCAAGAATACAATCACAATCAATGTACTAACAATGAAAATATATCTCAATTAGCAAAA
TATCAACAAGTTATAGAAGAAAAAGCACGGACAAATGATAATTTCCTCATACAAAATAAA
ATTAAACATAGCTATAGTTTTAAAGATATGCCAAATGGATATAAACCTTCAACATTGAGA
CGGGTTAAAAGACGAAACTTTACAGAATGGGATATTGAAGCGTTTGGTCCAAATGACCGT
CAAGCTCCTGTTCCACCTCAACGTAAAGAATCACATAAATATTCACATCGTCAAAGGAAA
CCTGACCCAAAAAAAAATGGTTACCCCCTCCCAGACCCTGGACCATTACCCCCTGATCCA
TCATCAGAATCATATTATGAATATTACTCCAGAGTTAGTCAACAAAATAATGACACCGAC
AGTGATAAAATTAAACTAATGCAAAAAGAGCCAAAGAAAGATAGTGGAAATTCAAAATCA
TTTGGGTCAGCGCGTGGGTATGGAAATGATACGATGTATCAAATAATTAATTCAATGGCA
ACCTTAGATTTAACACCTATAAAATCTAGAGCGGGAAGTAAAAACCTCGACACGGATAGC
GAAGCGGAAGATTTGGGTTTATATATGCATCCTATTAATGAATCGTTATCTACATGCGAG
CAACTTCCTGAGCGTAATACACAACCTGAGAACGTTAGGAACGGACGTATGGACGATGTG
CGACCTAATTTTCGTTCGAAATCTATGAGAGTGAAAAGTGAGGGACGAACGCCGCTCCGG
GCTTTTCTTGATACGGTTGAAGATGAGACCAAAGCATATAATGGTGTTACCGTCACTCAA
CCGAAAAGGAATTTATCACCAAGCGAACAGCTGACGTTGATGCAGCAAAACATGTATCAA
GAAAGCCAACTAGCACCGGTCCCTGCCACCGGTAACGGATTTCACTCGGTAGGTTTAGGA
AAAGAAAGCGAATATCGGACTAATAACAGTGTGTCTACACAAATTAAACCCGATAAATAT
GGGAAGTTATACAATACGGTGAGAGTGAAAAGTGACGATAGATATAATAGATACAATGAC
ATTCTGTCATTTTCATCTCGCGATCGTATTAGTGAAGATCGTGTGACTAACGGTGCGTAT
TCAAGAAGTGCTAAAAGTTCCTCTAGCGGTTCAGATTCAGATTTTTCGATTCCTCGACCG
AAACTCATAGTTCCCGTTCACACCTATGGCACTCGAAAACGAAGAACCGGAAATCTCTGT
CAAAGAGAGAGCAATGCGACGGAATCATCTTTAGATGCTGGCATATTGCTCGATGTTACA
CGCTTAGAAGACAAGCCTTTGGAAAGTCATAGTAATGCAGATTCAGAGGGAAGAGTGGAA
GTATCACGGGAGAACAAATACCTTAGCACCATGGCACCAGGCAAGGTATTCGGAGAACTG
GCGATACTGTACAATTGCAAGAGAACTGCCACCATCAAAGCCGCTACCGACTGCAGGCTC
TGGGCCATCGAGCGCCAATGCTTCCAGACAATTATGATGAGAACTGGTCTTATCAGACAG
GCTGAATACACTGACTTCCTTAAGAGTGTACCGATCTTCAAAAACCTTCCCGAAGACACC
CTTATCAAAATATCAGACGTATTGGAAGAAACACACTATCAAAATGGCGACTATATTATT
AGACAAGGAGCCAGGGGTGATACCTTCTTCATTATATCAAAGGGACAAGTCAAGGTAACA
CAGAAGCAGCCAAATAGCAACGATGAAAAATTCATAAGAACTCTAACGAAAGGTGATTTC
TTCGGGGAAAAGGCCTTGCAAGGAGATGACCTCCGAACGGCAAACATAGTATGTGACTCC
CCAGATGGCACTACATGCTTAGTAATAGACCGGGAGACCTTCAACCAGCTTATCTCGACG
CTCGATGAAATCCGCACCAAGTACAAGGATGTTGGCGATGACAGGCAGAGACTTAATGAA
GAATTCGCAAACTTGCGGCTATCAGACCTGCGCATTATAGCAACCTTGGGTATTGGTGGT
TTTGGTCGGGTGGAGCTTGTTCAAATCCAAGGAGATTCCAGCCGATCGTTCGCCCTAAAA
CAGATGAAGAAAGCCCAAATCGTTGAAACCAGACAGCAACAGCATATAATGTCGGAGAAA
GAAATTATGTCCGAGATGAACTGCGAATTTATTGTGAAACTTTATAAGACGTTTAAGGAT
AGAAAGTATTTATATATGCTAATGGAGACATGTCTTGGTGGAGAATTGTGGACAATCTTG
AGAGATAGAGGACAATTCGATGACTCCACTACTCGGTTCTACACAGCTTGTGTCGTTGAA
GCGTTCCACTATTTACATTCTAGAAATATAATCTATAGGGATCTTAAACCAGAGAACTTA
CTGCTTGACTCCAAAGGCTACGTGAAGCTAGTGGACTTTGGTTTTTCGAAAAAACTACAA
GCGAGCCGAAAAACTTGGACTTTCTGTGGAACGCCGGAATACGTGGCTCCGGAAGTTATT
ATGAACAGAGGCCACGACATTAGCGCAGATTATTGGTCCTTGGGGGTGCTCATGTTCGAA
TTACTGACTGGATCTCCACCATTCACTGGTGCAGATCCAATGAAGACATACAATAAGATC
CTGAAAGGTATTGATGCGGTTGAATTCCCGAGGTCAATCACACGTAACGCAGCCAACCTT
ATCAAGAAACTTTGCAGAGACAACCCTGCGGAGAGACTCGGATACCAACGGGGAGGCATT
ACTGAAATACAAAAGCACAAATGGTTCGATGGTTTCAACTGGGAAGGTCTAGCACAACGC
ACTTTAGACCCTCCGATTACTCCCGTTGTCAAGTCCGCGGTAGACACACACAACTTTGAC
CAGTATCCTCCAGACGCTGACGAACCACCGCCAGACGATCTGTCAGGTTGGGACAGCACC
TTCTAA
Protein sequence:
MKIKHYPGKAVMEDPWLSINDRTMDLVYAANWVGANNLNNHKEEYNQDSQSRFNSISRSK
SCRDIGRNSNKGDGELHAYHEQEYNHNQCTNNENISQLAKYQQVIEEKARTNDNFLIQNK
IKHSYSFKDMPNGYKPSTLRRVKRRNFTEWDIEAFGPNDRQAPVPPQRKESHKYSHRQRK
PDPKKNGYPLPDPGPLPPDPSSESYYEYYSRVSQQNNDTDSDKIKLMQKEPKKDSGNSKS
FGSARGYGNDTMYQIINSMATLDLTPIKSRAGSKNLDTDSEAEDLGLYMHPINESLSTCE
QLPERNTQPENVRNGRMDDVRPNFRSKSMRVKSEGRTPLRAFLDTVEDETKAYNGVTVTQ
PKRNLSPSEQLTLMQQNMYQESQLAPVPATGNGFHSVGLGKESEYRTNNSVSTQIKPDKY
GKLYNTVRVKSDDRYNRYNDILSFSSRDRISEDRVTNGAYSRSAKSSSSGSDSDFSIPRP
KLIVPVHTYGTRKRRTGNLCQRESNATESSLDAGILLDVTRLEDKPLESHSNADSEGRVE
VSRENKYLSTMAPGKVFGELAILYNCKRTATIKAATDCRLWAIERQCFQTIMMRTGLIRQ
AEYTDFLKSVPIFKNLPEDTLIKISDVLEETHYQNGDYIIRQGARGDTFFIISKGQVKVT
QKQPNSNDEKFIRTLTKGDFFGEKALQGDDLRTANIVCDSPDGTTCLVIDRETFNQLIST
LDEIRTKYKDVGDDRQRLNEEFANLRLSDLRIIATLGIGGFGRVELVQIQGDSSRSFALK
QMKKAQIVETRQQQHIMSEKEIMSEMNCEFIVKLYKTFKDRKYLYMLMETCLGGELWTIL
RDRGQFDDSTTRFYTACVVEAFHYLHSRNIIYRDLKPENLLLDSKGYVKLVDFGFSKKLQ
ASRKTWTFCGTPEYVAPEVIMNRGHDISADYWSLGVLMFELLTGSPPFTGADPMKTYNKI
LKGIDAVEFPRSITRNAANLIKKLCRDNPAERLGYQRGGITEIQKHKWFDGFNWEGLAQR
TLDPPITPVVKSAVDTHNFDQYPPDADEPPPDDLSGWDSTF