| New model in OGS2.0 | DPOGS203097 |
|---|---|
| Genomic Position | scaffold2599:- 4485-14509 |
| See gene structure | |
| CDS Length | 3732 |
| Paired RNAseq reads | 999 |
| Single RNAseq reads | 3242 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011154 (6e-31) |
| Best Drosophila hit | genghis khan (8e-26) |
| Best Human hit | codanin-1 (3e-20) |
| Best NR hit (blastp) | PREDICTED: similar to congenital dyserythropoietic anemia type I (human) [Nasonia vitripennis] (3e-68) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC015308 [Tribolium castaneum] (8e-57) |
| GeneOntology terms | GO:0004674 protein serine/threonine kinase activity GO:0004672 protein kinase activity GO:0008154 actin polymerization or depolymerization GO:0008064 regulation of actin polymerization or depolymerization GO:0019992 diacylglycerol binding GO:0006468 protein amino acid phosphorylation GO:0005575 cellular_component GO:0023034 intracellular signaling pathway GO:0005524 ATP binding GO:0005083 small GTPase regulator activity |
| InterPro families | ND |
| Orthology group | MCL12623 |
Nucleotide sequence:
ATGCCTGAATCAATAATAGAGAGTGTCTTATCTGGTAAATTACAACGTGATTTATTGTTC
AAATGGTTGAACGACGAGCTAGTTGAGACAGCGCCAGATGATTGTATATTGCTATGTTCT
AATAGGAACGAATTCGTTTCCTATTTTCTCTCTTACCTCAGAGACCACACTGAGAGTATT
CTACAGACAAACACAAACTCGTTGCTACCTCCATTCCAAGGGACTCCGGAGAAAAATAGG
AAACATCATCGTTCTATCAGCGATCCGACCTGTGACAATGAAAAATCAAATGACAGCGCA
CATAAATCAGAAAGAAAGACAGAAGAGTCACCGAACAGAGATAAAAAGAGAAACAGAAGA
GTTAAAACGAAACTCTTCTCTGACGACAGAAGCAAAGACAATCTGAATTCATCGGACGAA
TTACGAATAAGCACTGGAATTGATAGACTGATGTTATCTAGTACCCCGATGAAAAATGGC
TTAAGGGACAGCCCAAACTCACCAGCCAGTCCTGTGACGCCGCAGTCGAGGTCGTTTAGG
GAATATGAAAGGTGTGACACCCCTAGGTCTGGAAGGCACTCAAGATCTCAAGACAAAAAC
GTCAGCCTAGCCGATTACCTAGTTAATATCCAACCGAAAAGCACGAAGAAGAAACGATCA
AAGAACACGTCCAATGACGACAGCGATCCTAAATTGGATCTGGATTTAAGCAACTCGGAA
ATGTTCCCTGAGATAGGTGCGAGGAAATCAAGCTCGCTGAAATCTGAAAGGCGTAGGATT
AAACCGACGAACATAGATAAGAACAAGAAGAGTTTCTCGCTCAACAGCTTCAACGCTGAG
AACTTCCAGCAGCCCTCGCCATTGGCGCTGGAAGAGAACCTGGCTTTCAAACCCAAGTTA
CAGCCAAAGGAATCATCAAACTCCTTCGATGCTGAGAGGAATATACTTAAGCAGGAGAGG
CAGAAGTTAATGGAGAAATTCAATGTTCTGAACACAACCACAACTCCCATAACACCTTCC
CAGGTTAAGATACTGCGGAAAGAAGAATCCAGTACAGCATACATCGAGGCTGACAGCACT
AAGCTAACCTTCAAAGAAAAAATAGACACATTAGTGGACATATACGATGTTTTATTCAAA
AATAATCTAATACTATGCATAAATACGGAAATATATTTCTTAATAACAATTCTTCTGTCA
AAACAATGCGAAGACGACATCAAAACAACAGAACATCTGCTAGAAACAGACTTGGCTAAC
AACATTTTGAAGCCCATACATAACAGCACATATTTCGCTGTGAAATCCCTGTGGAATCAG
CGTATAATCCTGGAAGTGATCCTAGACAAGAACTCCCTGAAGATTCTGGGGGAGAATAAG
AAAGTGCGCAGCTTCTCGCCAGATTTAGCCAAATTCCTGCTGAATTCGTACGGCCTGAAA
TGCGAGGCTGAGTCCCAAGATAGGTCGAAAACTGTGACCCAGAACAGATGCTCCAACGGG
ATCATATGTTTCAATCACGAGACGGATAACGCTGAGAACTTCCCGTCCATATTGAGCTTC
CAGAATTTCAAAAAACAGAGGGACATGTTTTACGAAATATTAAGGTGGTATCAGGACACT
CAAAGCACTGGTGTATCTAGATCGACGATGCGCGCTCGGACACGCGCTCTGATATCAGCT
GGTCCAAGCGCCGCTAACCACGCTCACCTCTCAACACTCATCACACACATGCTGGTGGAC
ACGGTGCCTGACAACGAACAGGAATCGAAGTTAAGTAAGCTTCAGCGGCGTCTGACATGC
TCTTCATCATCAGACTCTAATTCACTGCCAAGATTCACAGACAGGGAGATGTTTTACAAG
TTAGTGCCTAAGCCCGGCGGGGTCAAGAAGGGTTGGATGCGCCAGTTCGTAGTGGTCTGT
GACTTCAAACTATTCCTCTACGACATATCTCAGGACAGGAACGCGGTGCCCTCAGTGTGT
GTGAGCCAGGTCCTCGACATGCGCGACCCTGAGTTCAGCGTGACCTCCGTCAAAGATTCG
GATGTCATACACGCCAGTAAACGAGACATACCCTGCATATTTAGGAGCCAGCCGTCTATG
GATATCAAAGGTTTGCTGCTGAACGCCAATCAAAATGGCCGTCTGACTATCACGATACCC
TGGATAGTGCACTACTTATCGATGTTGGACTACACTACCCTAAGACTGAAGTACTATCAA
AATATATTAAAACTACTTTTCGATATACATAGGAAGTTAAATATAACAGCATTCAAGAAG
AACACTGTGATATTCCTTAAGCTCAACTTAGGCTGGTTGTTCGATCTGCCCCATGTACCA
CAAGAGGTGTTTTACGCTAAGAATGACACTAGTGTTGGTGTTGCCAGTGTAATTGATTGT
GAATTTGATATCGAGGAACATGTGTTGCAAGAACTCTGCCCCTACTTGAAGGATCTCAGT
GTATTTTTAAGTACATCCCGAGTTAGCCAGGATTCGAACCAGTTTGGCAGCTTCAGACAT
ATAACACCTGTGAGTCTCGGTTTAAACAATGAGGATAAGATCCGGAACAAGGAGAAGGAA
CTGCAGATGCGTTTGGAAGAGGAGCTTATCAAAAGCCAGCCATCTTCAACTCGGAGAGTG
TTAGAGCTGGTGACAGAGAGGGTTACATCAGCAGCGATCAAGGAGCTCACTACAAATACC
CTCGTGGAAGCCAGGAAGAAATCCAGGGCGGGCGCTGCGGCTATAGTGGCTGGGTGCAGA
GACAGGTCGGGTCTACTCTCGTCTCTACAGAGCCACTATTCCGCCCAGTTATGCTCTCTC
AATGCCAGCGCGCTCTCTTCCTCCCGGACCTTGATCAAGGCTCGAGTGACGTCAGCACTG
GCTGCCCTGCTGCCGACCGCCCCGCCCCCCCTCAGGGCGGTGGTGGGGGGAGCCTGCTGC
CAGCGGGTGGACAAGTGGCTGGCCCAGCATTGGACCAGCACTGATATCCTGTGTAAGGAC
ATCAAGAGCGAGATGGAGAACCTGTGCAGTGTGGGCCCCGGGGTCTCCGTGGCTGGGGAG
GGCGTTGACCTGGTGACCTGCAACCTGGACGAAATGATGAGTCCAGCGCAGGCTATACTC
GACCTTAAGGAACAGATCTGCGTGACCCTGGAAGGCGGCGCCCCCTGCCTGCAGGTGCTC
CGCTCGTGTACCTTGGCCTGCGACCCCAACAACGTGTTCTGTCGCGCCCCAACCCTCACC
GCGATACTACACCTGTCCGTGGATTTCTGTGTTGTTTACGTGAGCAGACACGCGTCCAAG
GTTTTGAATATTCTGCCAGAGTTCAAGGCCCTTTGGGAACAGTGCTGCCCTCACAGGAGA
CGGGAAGAGCGAGAGGAAGACGATAGCAGGGAGAGGGCACCAGATCTCACAAAGCATGAG
GACTGTTACTTCGACAGGATTCTGTGTCCCAGGAACATTATGTTGTTGAGCGAGACAAGA
TCCGGTGACGTGTGGCCGGCCATGGCTGACGTGTTAGTTTATTTGTTGAAGCATAACTAC
TTAACCGAGGACAGCCTGACCGAACAGTGCCTGGCTGTTTACAAACAGGATTGGCCCCAG
AACATTCTTGAGAATCTATCGACATGTATGAGAAAGGTGTCCTCCAAGTGGCCGTCAACG
GGCAAGTTTACTTTGTTCCTTGATTTCTTAGCAGACTTCTGTAACGATATGGACTATGAC
TTAATAGAGTAA
Protein sequence:
MPESIIESVLSGKLQRDLLFKWLNDELVETAPDDCILLCSNRNEFVSYFLSYLRDHTESI
LQTNTNSLLPPFQGTPEKNRKHHRSISDPTCDNEKSNDSAHKSERKTEESPNRDKKRNRR
VKTKLFSDDRSKDNLNSSDELRISTGIDRLMLSSTPMKNGLRDSPNSPASPVTPQSRSFR
EYERCDTPRSGRHSRSQDKNVSLADYLVNIQPKSTKKKRSKNTSNDDSDPKLDLDLSNSE
MFPEIGARKSSSLKSERRRIKPTNIDKNKKSFSLNSFNAENFQQPSPLALEENLAFKPKL
QPKESSNSFDAERNILKQERQKLMEKFNVLNTTTTPITPSQVKILRKEESSTAYIEADST
KLTFKEKIDTLVDIYDVLFKNNLILCINTEIYFLITILLSKQCEDDIKTTEHLLETDLAN
NILKPIHNSTYFAVKSLWNQRIILEVILDKNSLKILGENKKVRSFSPDLAKFLLNSYGLK
CEAESQDRSKTVTQNRCSNGIICFNHETDNAENFPSILSFQNFKKQRDMFYEILRWYQDT
QSTGVSRSTMRARTRALISAGPSAANHAHLSTLITHMLVDTVPDNEQESKLSKLQRRLTC
SSSSDSNSLPRFTDREMFYKLVPKPGGVKKGWMRQFVVVCDFKLFLYDISQDRNAVPSVC
VSQVLDMRDPEFSVTSVKDSDVIHASKRDIPCIFRSQPSMDIKGLLLNANQNGRLTITIP
WIVHYLSMLDYTTLRLKYYQNILKLLFDIHRKLNITAFKKNTVIFLKLNLGWLFDLPHVP
QEVFYAKNDTSVGVASVIDCEFDIEEHVLQELCPYLKDLSVFLSTSRVSQDSNQFGSFRH
ITPVSLGLNNEDKIRNKEKELQMRLEEELIKSQPSSTRRVLELVTERVTSAAIKELTTNT
LVEARKKSRAGAAAIVAGCRDRSGLLSSLQSHYSAQLCSLNASALSSSRTLIKARVTSAL
AALLPTAPPPLRAVVGGACCQRVDKWLAQHWTSTDILCKDIKSEMENLCSVGPGVSVAGE
GVDLVTCNLDEMMSPAQAILDLKEQICVTLEGGAPCLQVLRSCTLACDPNNVFCRAPTLT
AILHLSVDFCVVYVSRHASKVLNILPEFKALWEQCCPHRRREEREEDDSRERAPDLTKHE
DCYFDRILCPRNIMLLSETRSGDVWPAMADVLVYLLKHNYLTEDSLTEQCLAVYKQDWPQ
NILENLSTCMRKVSSKWPSTGKFTLFLDFLADFCNDMDYDLIE