New model in OGS2.0 | DPOGS207562  |
---|---|
Genomic Position | scaffold1727:- 5928-21666 |
See gene structure | |
CDS Length | 6402 |
Paired RNAseq reads   | 4307 |
Single RNAseq reads   | 10857 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA004712 (2e-77) |
Best Drosophila hit   | CG11870, isoform A (3e-132) |
Best Human hit | NUAK family SNF1-like kinase 1 (1e-83) |
Best NR hit (blastp)   | serine/threonine protein kinase [Aedes aegypti] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to serine/threonine protein kinase [Tribolium castaneum] (9e-157) |
GeneOntology terms    | GO:0006468 protein amino acid phosphorylation GO:0004674 protein serine/threonine kinase activity GO:0005524 ATP binding |
InterPro families    | IPR000719 Protein kinase, catalytic domain IPR011009 Protein kinase-like domain IPR017442 Serine/threonine-protein kinase-like domain IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site |
Orthology group | MCL11522 |
Nucleotide sequence:
ATGGTGGTGGGTGAGAGCAAACGCACCGCCAACATCATGGACGGCATCGAGAACACTGGC
GACGTTCGTCTCCACGACCATCGACTGCGTCTCAAACAGAGATTTGATATAGTAAGGAAA
TTGGGGCAGGGGACATATGGGAAGGTCCAGCTAGGTATCAACAAGAAGACAGGACAGGAA
GTGGCTATTAAGACTATAAAGAAATGCAAGATTGAGACTGAGGCTGACCTTATCCGCATA
CGGAGGGAGGTTCAGATCATGTCTTCTGTCAGACATCCGAATATCGTACACATATACGAA
GTATTCGAGAACAGTGAAAAGATGATTTTGGTCATGGAATATTGTTCCGGCGGTGAACTC
TACGACTACCTAAGTCAGAAAAAAGTATTAGAAGAAGACGAAGCCAGAAGGTTATTCCGG
CAGATAGCAACAGCTGTATATTACTGTCATATACATAAGATATGTCATAGAGATTTAAAA
TTAGAAAATGTGTTGTTAGATGACACAGGTAGTGCCAAGATTGCCGATTTCGGTCTTTCA
AACGTCTTTAAGGAGACTTCACTGCTGTCAACATTTTGCGGATCCCCACTGTATGCTTCA
CCCGAAATAGTCAAAGGAACTCCATACATCGGACCTGAGGTCGATTGTTGGTCACTGGGA
GTCTTATTATACACTCTAGTGTATGGAGCTATGCCTTTCGACGGTTCAAATTTCAAACGT
CTGGTCAGACAGATAAGCAACGGCGATTACTATGAGCCTAAGAATCCATCAACGGCGTCC
CCACTGATAAGGGACATGCTGACGGTGGATCCACTGAAACGTGCTGATATCGCATACATA
TGTGATCACCCGTGGGTGAACACCGGCTGCCAGACGTCATGTCTGGAGATGGCGGAGGCC
CTGGCGGCGGAGACTCCAGTGAGACTTGACCTGCTCCTGTCTCTGGCGCCCGCAGCTCCC
TCCAGCTCTAACAGTGTCGTTGTACCCCCTGAGGCTGATTTGGGCACAGAAGAGAGTTGT
ACCGACCTTACCAGTTCAACATCCATGGCGGTCGAACCGAGCAACTCGGCTGAGAAGAGG
ATATTGGAATTAGTTGCGGAGGGTGGCGAGGATGCCATTAAGCCGTCACCCACACGCACC
CTGGTGTCGGCTGACCACAAGAGGAAAATGGACTCGCTCAAGGACAGAGTCGCCAGTTGT
GCCAGTATGGGACCCACGCCCCCAGTACTACCCGAGGAGGACACTAAGTTAGAGTCACCG
TCGGCAGATAACATCGAAGATGAGTTACAGGCTGTCCAGTCCACTCTCAAAACATCGGCC
ACGATTACAATAGCGCCGGCTCCGGTGCAAACTCAAGAGATACACGAACCTGTCAAGAAT
ATCGAACCATCTCTAGAAGAACAGAAGGAGAAACAAAAACAGAAAGTCATCAAGAAGGTG
TCCCCGCAGAAGGTCGAGGAGAAACACAATAAAGTTGAAGAGACTAAGGAAGAAAAGCCA
GCTCTAGTGCCCCAAGTGGATAAAATCACAGCGGTGTCAACACCACAAGTCGCGGCTATG
CCGTCTCCGACGAACGTGCCGGCTAAACCTAAGAAATTGTCTATAGGTGGTCACGTGGGC
AACTTTAAAGAACAGTTTGAGAGGCGCGCTTCACTGACCACGGCGCCGGATATTAAGAGG
AATGTAACGAAACCTGTTGTCTCCAAGATCGCTAAGCCTAAGGCTCAGAGCGAAGACCGC
GAGCTGAGCGCCAAGTCGCCCGACACCGGCTCCGTGAGGCTGCAGCAGATTGGTATTGAA
CCATCACAGTCGTCTTCAAACACGACCGAGCCTCGCGAGACGCGCGGCGTTTTGAAGACG
GAGAGCGAGCCAGCGCACTGCAACACTAGGGTCGACCCCGCGGCTCTGCTGCAGGACGCT
AGAAGGAGTCTTCAGAACTCAATGGCAAAGTTGACGGAGGAGAGACTGGGTGAAGACAGT
CGCAGACGCGCGGCGCGGGACATTATATCATCAGCTATACGCACAGGCAAGCCGCCCGTC
CCGTACGGTCGTTCGTCGTCAGCGGGCGTGGCGAGTCTGGTGTCGCCTCCTAGTACTCCG
CCCGCGCCGACCGCTACTAACGCCGCCTCGCCGCGGGTCTTCAGGACGGAGGCCATGCAT
CGCGTGGAAGATCACAGACCCAGGGGCATGTCTGTGGAGCGTATCATACCTATAACGATG
TCTGGCGAGGAGCAACCGCCACGTGGCTCGGTGACGCCGGTGTCGCCGCCAGCGTCACTC
ACGTCGCCCACCAGCGGCAGGGTCACACAGACGCCGATCAGACGCTTGACGTCGTCGGAT
TCTACGACGGCCAGCGAGGCGGGTGGGGAGCCGATCAAGAAGTCGGCCCGCGAGTTCATC
ATACCCATCGCGGTGGAGGGTAAGGGGTATGTGACACCCAGGCAACGAAGCCTCGAACCT
GACACGGCCACGCACCGACGAACCAGACCGCGCCGCATGGGAAGCCTCGTGAGCGGCGGC
GAGTCTGAGGAAGAGGACGACGCTCACATGCACAGGCTGAGGTCGACCCGCGCCGCCCGC
GCCGAGTCCGTCAGCTCCGGTGAAGAGGACGAGGAGGACGAAGGCTTCCATCTCCTCACA
GCCGAGAATCTTTTCTCCACTTTACTACATAGAGTCCGCGCTCTCACCCAGCGTCTGAAC
GGCGAGGAAGGTCCGGGCTTCCAACACCCACACTCGCTGTTCAACAATCTGCAGTCGCCG
TTCTTCAACAGGCGCGAGGGCTGGGGCAGTCGTGATCTTCACGCCCCGTTCGAGTCTCTG
TTCTCTTCGCGACCCTCTCGAGGCAGTAATAAGAAAACCGGCAAGCACCGACCGCAACCC
ACGCATAACACGGAGGCGTCAACCGAGGCGCTAGACCTCTCAGACCTGGACTTGACCTCG
ATAGAATTCTCGGAGCGCGAGATGGCGGCGCTGTCGGGACTCACACCGGCGTTATCGCGC
CGTCTGCAGAGGCAGCTCTTGGCGCACTTGCCGCCGCGGGCCGCCGCACGTCTAAGACGC
ACGCTGTCTCTACATTCGCCCGCCACCGACTCTACAATCTCTGGTCCTACCTCTAGCAGC
CCCACTACCACCTGCTCCGCAGCTACCAGCCCTACGTCCGGTATTATTGGCTCTTCGACT
GACCGTCCGCCGTATACGCGATGCCGCTCCGCCGGTCAAGCCGAAGACACGAGCATCGAT
CACAACGAAACAATAGCACTCGAACGTCCCTCCGGAATCGAAAACGAGACAGTTCTTGAC
GACTTAAAATCTGAATCACACTCTGACCTGCCCGTATCTCAATTTTGCACACTACCTCGC
TTGCGACGACGGTCTTCCGTAATGGCCGAAGCTAAATCTCCTAGCGATGTCATAAACGAT
AGCACGCAAATTCTGGAACGACCCTCTCAAGAATCTACTAGCTCTAAAGTTGGTAGTGTG
CGTTGCACCCCAGAACGTCCTCTACTCAGTAAATATCTAGCGCCGGAGCGAAATCACTCG
TTAGACGAAACCTGTTCATTGGAAAGTGGAAGCATACTTTCTGACCCCAGTTACATTGCT
GCTTATGGCCCATCTAATGTAGGAAATGCTTCCGGTCTTGGCTTTAGAAGACACTCGCTC
AGATTGAGCGGTGAACAAGGTAAAAAACGCATCTCGAGGTTTCTTCGTTCTGATTTCTTT
GACACCCCAGCGGACGAAAACTTATACGCTAAGCATAAAAAAGAAAAGGAGCTAGAAACG
CAAAAAATATTAAAAGAAATACGGGAAAAGAAAAATAAATCTTTGGAATGCGCCAAAAGT
CCCACGGAAACCAATGAATTTAGGTTTGGTGTGAAGGACGAAAGTTCCGTTAAAAAATGT
CTTTCCCCTGTAGGAAACTTGTTATTAAAAGATCGTAGCAGATCTAATACCCCATTCTTT
CCTATTTTAGATAATATTAAAGAAAGCACTCTAGATTCTACTTCCATTCAACCTCTTAAA
GTAATACCGCAGGAGACCGATGAACTGGTATGTAAAGATAAAATTAAAGAAAGTACTTTA
ACTAACGAATCAAAAATGATGAGGCCAAAGAGTTATCCAATAAAAAATTTGGATTCCTAT
GACGATGCTAATAAAAATGCCGTATCATTGGAAATCTCTGATAAATCTCAAAATATAATC
GAGGAGAAGAAAGTCAGTAAGGAATCTAAACTAATGCGACCAAAAAGTTATCCTACGGGC
AGTCCTTCACCAGAAAAGATTTATATTAATCGTAATACTAAAAAAGATGAAACGAATGAT
TTTAAGGATATCGATAATGGCAAAGAAAATAAGCCCGACATAGAAGTGAGTTTTAATCTA
ACGCTCCCGAAAAAAACCAAACCAATTGTTAAAAATTCAGATACAATTAAGAAAGTTGAA
GATCCAAACAATGAAAATAAAAAAGATATAGAACCAACGTTGAATCTAAAGAGATATCAA
ATCGTTAATGAACTTAAACCGGAGAATAAAGACGCTAAGGTTAATCAAAGCAACCCAATT
GATACCACTACAAAAGTTAAGAAAAGTTTGATGCTAAAAGATGACACTAAAACTACCGCC
ACAGATAATCAAACTGATGACAAGAAGTGTGTAAAAAAGAAAGTTGTAAAACGAGTATCC
TCAAAGTCTAAGACCGATTTGAGTGTTTCTGATTCCAATGAACCGAAACAAACTGTCGAA
AAAAAGAAAGTTACAAAAAAGATAAAAGATAAATCTTGTGATGACTCCAAAACTACTGTT
ACAAAAAAGAGATCAGTTTTGCAATCTATTGGACATAAATTAGAAAAATTCGCTTCCTCT
AAATCAAACTCTCCTGAAAAAATATGCAATAATAGTAATATAACAGGCGGACTATCTAAA
ACATCTAGCGCTTCTAACAGAACTCAGCGAGAGCAATCAGTTCCTGCCATTGTTGACCCT
CCGACGGAATCGAACCTTCTAAAGAGGGCTGTAACCATCACTGACGTAGCTGCGCTTGAT
AATAATCAAAATAATAGTATACAAAATAAGACGACCGTTTCCAAAGTCTTAGGGTTGTTT
AAGAAGTTTGAAACTAAAGAAAAAATTACCGAACCGATATCAGAGTACAAAGTACCCGAA
AACTCAGGCAACGGTGCAAATTTAATTAAAAATAGTAATACCTCAAAATCCAATGTTGAT
TCTGAGGAGAAAGCTAAACGACCCACTTCTCTTTTATTAAATGGTTTAGGGCGTAAGAAT
AGGTATAGCAGGTCGTCTAGTGATGACAACAGTAAAGAAATAGTTGAAAACGAAGACCAG
CAAGTACTTAAAAAGAAGGAAGCTGATACCAAAAATATCAGAAATACTCTAAGATTAGAT
TTCTCACGATTGCCAAGAGTAAAGAAAATAGTTCCTACGAATCCTGTGATAGAACCTCAA
ATTTTTAATAACTCTGATATTGAAAAGGATACCGATATTATAGAAAAAAATGGAATTGTA
AATGACCATAAGTCGAATGTAGATTTAAGTGATACTCAAACACGCAGTCGATCTAGAAGT
AGATCGACCTATTCCAATTCTGATATGAAATCAGACTTAGGTGTTAAAGAAAAGAAAGTT
GTCTCTGATGTTCCTCTTCCCCACTGTAATGTACGGAGTCACGAATCGCTAACACCTGAA
AAGGAAGATATCGTAGACAGGATACGTAGAAAAAGTTTTTATTCTCGATTCAATGAAAAG
AAACAGAGGAGGAAAAGCAATTTGGTAGGACCTGGAGCAGTTGAATACGATCCATTGGCA
AGAATACACTCTCAAGTATCGGAATCTAAGTATGACACATCTCCGACATCGCCGGGAGCT
TATGATTTATCTCCTGGACTATCAGTTGGCTCCGATGTATCGCCATCCACAGAACGCTAT
AGATCTCTCTTAACAGATTTGTCATTAAACACAAGAAACAATTCCAGATACGACGGTGGG
AACGATAAAATTGATATGTACCGATCCCTCGACAGAAACGACTTCAGAAAATATCCAAGC
AGCAAGAGCTATTTAGATTACGAACAACCGCTATCGTACAATCCCAACCGATATTCCAGG
ACGAAATCTTTGTTCGACAGTTCCGATGCCTCCGAGGATTATAATACATTCGTCCTTCCA
AGAGAAACACAGAAATATAATCGGACCAATTCCCTATTCTCACCGGGCAGCTACGCCACA
TATAGACCCAAAAGAACCAGAAACTCCGCTATAATACTTAAGGAGAGCGAAAAAGAGCCC
AGCCCCGAGAACATATTAGATAAAATACGACAGCGAAAAATATCAATCAGCGTTACGAGA
AAACCAGACGTTGAGAAGGAATCGACGCCGAGGTGTGTATAG
Protein sequence:
MVVGESKRTANIMDGIENTGDVRLHDHRLRLKQRFDIVRKLGQGTYGKVQLGINKKTGQE
VAIKTIKKCKIETEADLIRIRREVQIMSSVRHPNIVHIYEVFENSEKMILVMEYCSGGEL
YDYLSQKKVLEEDEARRLFRQIATAVYYCHIHKICHRDLKLENVLLDDTGSAKIADFGLS
NVFKETSLLSTFCGSPLYASPEIVKGTPYIGPEVDCWSLGVLLYTLVYGAMPFDGSNFKR
LVRQISNGDYYEPKNPSTASPLIRDMLTVDPLKRADIAYICDHPWVNTGCQTSCLEMAEA
LAAETPVRLDLLLSLAPAAPSSSNSVVVPPEADLGTEESCTDLTSSTSMAVEPSNSAEKR
ILELVAEGGEDAIKPSPTRTLVSADHKRKMDSLKDRVASCASMGPTPPVLPEEDTKLESP
SADNIEDELQAVQSTLKTSATITIAPAPVQTQEIHEPVKNIEPSLEEQKEKQKQKVIKKV
SPQKVEEKHNKVEETKEEKPALVPQVDKITAVSTPQVAAMPSPTNVPAKPKKLSIGGHVG
NFKEQFERRASLTTAPDIKRNVTKPVVSKIAKPKAQSEDRELSAKSPDTGSVRLQQIGIE
PSQSSSNTTEPRETRGVLKTESEPAHCNTRVDPAALLQDARRSLQNSMAKLTEERLGEDS
RRRAARDIISSAIRTGKPPVPYGRSSSAGVASLVSPPSTPPAPTATNAASPRVFRTEAMH
RVEDHRPRGMSVERIIPITMSGEEQPPRGSVTPVSPPASLTSPTSGRVTQTPIRRLTSSD
STTASEAGGEPIKKSAREFIIPIAVEGKGYVTPRQRSLEPDTATHRRTRPRRMGSLVSGG
ESEEEDDAHMHRLRSTRAARAESVSSGEEDEEDEGFHLLTAENLFSTLLHRVRALTQRLN
GEEGPGFQHPHSLFNNLQSPFFNRREGWGSRDLHAPFESLFSSRPSRGSNKKTGKHRPQP
THNTEASTEALDLSDLDLTSIEFSEREMAALSGLTPALSRRLQRQLLAHLPPRAAARLRR
TLSLHSPATDSTISGPTSSSPTTTCSAATSPTSGIIGSSTDRPPYTRCRSAGQAEDTSID
HNETIALERPSGIENETVLDDLKSESHSDLPVSQFCTLPRLRRRSSVMAEAKSPSDVIND
STQILERPSQESTSSKVGSVRCTPERPLLSKYLAPERNHSLDETCSLESGSILSDPSYIA
AYGPSNVGNASGLGFRRHSLRLSGEQGKKRISRFLRSDFFDTPADENLYAKHKKEKELET
QKILKEIREKKNKSLECAKSPTETNEFRFGVKDESSVKKCLSPVGNLLLKDRSRSNTPFF
PILDNIKESTLDSTSIQPLKVIPQETDELVCKDKIKESTLTNESKMMRPKSYPIKNLDSY
DDANKNAVSLEISDKSQNIIEEKKVSKESKLMRPKSYPTGSPSPEKIYINRNTKKDETND
FKDIDNGKENKPDIEVSFNLTLPKKTKPIVKNSDTIKKVEDPNNENKKDIEPTLNLKRYQ
IVNELKPENKDAKVNQSNPIDTTTKVKKSLMLKDDTKTTATDNQTDDKKCVKKKVVKRVS
SKSKTDLSVSDSNEPKQTVEKKKVTKKIKDKSCDDSKTTVTKKRSVLQSIGHKLEKFASS
KSNSPEKICNNSNITGGLSKTSSASNRTQREQSVPAIVDPPTESNLLKRAVTITDVAALD
NNQNNSIQNKTTVSKVLGLFKKFETKEKITEPISEYKVPENSGNGANLIKNSNTSKSNVD
SEEKAKRPTSLLLNGLGRKNRYSRSSSDDNSKEIVENEDQQVLKKKEADTKNIRNTLRLD
FSRLPRVKKIVPTNPVIEPQIFNNSDIEKDTDIIEKNGIVNDHKSNVDLSDTQTRSRSRS
RSTYSNSDMKSDLGVKEKKVVSDVPLPHCNVRSHESLTPEKEDIVDRIRRKSFYSRFNEK
KQRRKSNLVGPGAVEYDPLARIHSQVSESKYDTSPTSPGAYDLSPGLSVGSDVSPSTERY
RSLLTDLSLNTRNNSRYDGGNDKIDMYRSLDRNDFRKYPSSKSYLDYEQPLSYNPNRYSR
TKSLFDSSDASEDYNTFVLPRETQKYNRTNSLFSPGSYATYRPKRTRNSAIILKESEKEP
SPENILDKIRQRKISISVTRKPDVEKESTPRCV