New model in OGS2.0 | DPOGS201653  |
---|---|
Genomic Position | scaffold867:+ 470-20357 |
See gene structure | |
CDS Length | 4644 |
Paired RNAseq reads   | 3094 |
Single RNAseq reads   | 7471 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA008124 (0.0) |
Best Drosophila hit   | genghis khan (0.0) |
Best Human hit | serine/threonine-protein kinase MRCK alpha isoform A (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to genghis khan CG4012-PA [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to genghis khan CG4012-PA [Apis mellifera] (0.0) |
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    | IPR008271 Serine/threonine-protein kinase, active site IPR002219 Protein kinase C-like, phorbol ester/diacylglycerol binding IPR001849 Pleckstrin homology domain IPR000719 Protein kinase, catalytic domain IPR000095 PAK-box/P21-Rho-binding IPR001180 Citron-like IPR000961 AGC-kinase, C-terminal IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR020454 Diacylglycerol/phorbol-ester binding IPR011993 Pleckstrin homology-type IPR014930 Myotonic dystrophy protein kinase, coiled coil IPR011009 Protein kinase-like domain IPR017442 Serine/threonine-protein kinase-like domain IPR017892 Protein kinase, C-terminal |
Orthology group | MCL10744 |
Nucleotide sequence:
CGAGCTGATACAGCGTGCTTCCAAGAAGAGAGAGACGTCCTCGTGTTCGGTGACAGGAGG
TGGATCACCAACCTACACTACGCCTTCCAAGACGAACATAACCTGTACCTGGTGATGGAT
TACTACTGCGGCGGTGACCTCTTGACGCTGCTGTCCAAGTTCGAAGATCGACTTCCTGAA
GATATGGCGCGGTTCTACTTAGCCGAGATGGTGCTAGCCGTGCACAGCGTGCACGAGCTG
AAATACGTGCATCGTGACATCAAACCTGACAATGTTCTATTGGACGCGAGCGGCCACATA
CGACTCGCGGACTTTGGATCCTGTCTGAGGCTAGGGGACGATGGGAAGGTTCAAAGTAAC
GTAGCTGTCGGCACACCGGATTACATATCACCCGAGATACTGAGGGCCATGGAAGACGGT
CAAGGTCGATACGGCCCCGAGTGCGACTGGTGGTCCTTGGGTGTGTGTATGTACGAGATG
CTGTTCGGCGAGACTCCGTTCTACGCGGAGTCGCTGGTGGAGACGTACGGCAAGATCATG
AACCACGCCCGCTGCTTCCACTGCCCGCCGCCCGACGAACTGGCGCCCCAGGTCTCGGAG
GAAGCGAAGGATCTCATTCGCAGATTGATATGTTCGTCAGAGACTCGTTTGGGAAGAAAT
GGCTTACAAGATTTCAAGAGTCACCCATGGTTCGCGGGGTTGGAGTGGGAGAACGTGAGA
GAGATGGCAGCACCATTCGTACCGGACGTGTCCAGTCCCACTGATACATCCAACTTTGAT
GTGGACGATACTGACATACGGTTATCCGAGGCTGTGCCCCCGCCCCGTGCATCGGGCGCC
TTCTCCGGTCTCCACCTGCCGTTCGTAGGCTTCACGTTCACTGGAGGTTCGAGACTGTGC
GACCTCGGCCCGCCGACACCTCTCAGTCCAGCCAAGAACGCCACCAAACAGGCACCGTCA
AACGCCAGCGATCGTGCAGCGCTTGCAGCGCTTGAACGTGAGAACGCTTTGTTAGCACAC
ACGCTGGCCGACCTTCGTGCAGCAGCTGGACAAGAACTGGCAGCGAGGGTCAAGGATCTG
GAGGTCCTTGTGAACGCTCTGAACATAGAGAAGGAAGAACTGATCAAAGATAAGAACGAC
ACCGTAGAAAAACTCATGTTACAGGATAAGGAATTGAAAGACGCTGTCAGTCAACGCAAG
CTGGCTATGGCGGAGTACAACGAGGTGACAGACAAGCTGTCCGAGCTGAGGCAACAGAAA
CAAAAACTATCTAGACAGGTCCGTGACAAAGAGGAAGAGTTGGAGGTGGCGATGTCCAAA
ATTGACGCTCTGCGGCAGGACATACGGAGAGCTGAGAAATCCAGGAGAGACTTAGAGGCG
AGGCTAGATACAGCGTTGAATGAAGCCGCCAAGGAAAGAAAAGTCCGTGAAGAGAGTGTT
CGTCTGGCGAGGGTCGAGGAGACAGGAGTGTCACCAGCACAAGACGTGGCCAGGCTACAG
GCGGATATAGAGGCGCTGGAGGCTCAATATTCGGAGTCCCTCTCCCAACAGCAGGCCAGG
TATGCGGCTGAGCTGGCGGCGCTCAGGGAACAGTTGCATGAGGGAGACGCTCTCAGGAAC
AGGCTTAACAGGGAGCTGCAGACGTCCAAAGACAAGTTGGAGAGTCGCAGGATGGAACAA
CTAAATGACAGTGAGGACAAACAGATGTTGATCAACGAGAACAGGAAAATGGCCAAGGAC
CTGGACGCTATGGCGGAGAACGGACGGCGGTGGCAGGCGGAGAGACGAGCTATGGAACAC
GAGCTGGAGGAGCTCAGGTCCAAGAGAGATTCCATGCAGCACTGGGAGACTCAGATTGCT
GATATAATAAGATGGGTGTCTGATGAGAAGGAGGCTCGAGGCTACCTGCAGGCCCTCGCT
ACCAAGATGACAGACGAGTTAGACTACCTCAAACACGCGAGTGCCCCCCGTCCGACCGCA
TCCCCTCCCGCCGCGCCCCCGCCCCCCGGAGCCGGCTGGAGGAACAGACGCTCGCAGAAA
CTGGACAAGATGGAGATACTGACTCTACAGTCATCACTACACTCAGAGATACAGGCCAAG
CAGGCTGTGGGAGAGGAGCTCAGTAGGACCAGGGCCGAACTGCTAGCTAGTCAGAGAGAG
CTGTTGGAGACCAGGCAGCGTTTGGACTCGCTGGCTCATGACATGAAGCGGAAGGAACAA
CACATCAGGGACATGCAGGCTAAGTTGGACACGCCGCACCAGGGGAACTCCTTTTTGGAT
CGTCCGCCGTCACAGATGAGCTATTTGGAGCAGTTCCTCAAGGACGCGCCCCAGGAACGA
CATTACGACAATGTGGCCTCTATGAACAACGAGCAGAAGCTGCTGTACGGCTCCCAGCAA
TCTACGGTATTGTCGGGGTCGGTGGAGTCCCCTGACGAGTTGGGGCCTCGCCCCGCCTCG
CCGGCCTCCTGCAAGAGCTCACCCAGCGACATGTCCACCTACACCGTGCAGGAGCCGGCG
GGCGGCAAGCAGAAGGTGCACCAGTTCCTCATGAGGAGCTTCAGCAGCCCCACCAAGTGT
AACCACTGCACCTCCCTCATGATCGGGCTGACTCGTCAGGGCGTGGTGTGCGAGACGTGC
GGGCTGGCCGTCCACACGAGGTGCTGCGGCCGGGTGGCGGCGCGCTGTCCCCTGCCGCCC
GAGCGCTCCAGGAGACCGCTGGGCATCGACCCCGCAAGGGGACAGGGGACGGCCTACGAG
GGATACGTCAAGGTGCCTAAGCCCGGCGGGGTCAAGAAGGGTTGGATGCGCCAGTTCGTA
GTGGTCTGTGACTTCAAACTATTCCTCTACGACATATCTCAGGACAGGAACGCGGTGCCC
TCAGTGTGTGTGAGCCAGGTCCTCGACATGCGCGACCCTGAGTTCAGCGTGACCTCCGTC
AAAGATTCGGATGTCATACACGCCAGTAAACGAGACATACCCTGCATATTTAGGATATCA
ACATCCCAGCTGGAGGGGGATCGTCGATACCACACGCTGATGCTGGCTGAATCTGACTCG
GAGAAGACCAAGTGGGTGGTCGCCCTCAGCGAACTGCACCGGATACTCAAGAAGAACAAT
CTGCCTGACAAATGTGTGTATGCTGCAGCGTCCCTGGCTGCTGGTGGCGGCTCATGTTCG
TTGGGCGCGGTCCGCGGCGCTTCGTGTGCGGCGCCGCTAGAGGGCGCTCGTCTAGTGCTG
GGAGGAGACTTCGGTCTGGCCCTGCTGGACTTGGAGCGAGCTGAACTGGTGCCCAGGAGA
CAGCACGCGCCCGTACACACGCTGAGATACGTCATGGAAGAACAACTACTAGTGGTGATA
TCTGGCCGCGGTCGCAATGTCCGGTTGGTGCCTCTGAGGGCGCTGGAGTGTCCCGAGGCG
GAGAGCGTCAAGCTGTCCGAGGCCAAGGGAGCGGTGGACCTCGCCGTGGGGGAACTGCAC
ACAGGGGTCTACGGGTTCGCTGTGGTCTGCAAGCGACAGAACTCGTGGGTGGTGATCGTG
TACGAGATCACCCGCACCGCGGCCCGGCGCTGTCGCGTGTCCGAGCTGAGAGCCCCCGCG
CCTGTACTGAGCGTGCAGCTGGTCAGGGGTCGACTTGTGCTGGGCTATCGAGGGGCGATC
GTCGCCCACACGCTGCATCCACACCCACACCCCGCCGTCTCGCTGGTGCACCCTGAGAAC
CAGGTGGGCGTGTTCCTGTCCAACTCGGGCGCGCGGCCGCTGTGCGCGCGGCCGGCGGGC
GGCGACTGGCTGCTCGTGTTCACGGCCCTGGCGCTGTACGTGGACCGAGCGGGCCTCCGC
GCCCGAGACACCGAGCTCATGTACACGGCGCACCCGCAGCACTACGCCATCAACGACACG
CACCTGTTAATCTTCACGACGTCTCACATAGACGTGTACGAGATCGAGTCCGGCGACTGG
GTGCAGACTATCAATTTACCCAACGCCCGGCCCTTGGACGAGTGCGGGTGGATCGTGTTG
GTCTGCGGCGGCGGGCCCTCGGGCGCCTTCCCCTTCAACACGGACGCCGCGCCCTACCTG
GTGTACCTCAGGCCCCTGCTCGGAGGCGGACCTCTGAACCTGGACCACTCGTGGTACGGA
ACCAACAAGAGGCGGTTCTCAGTCAGGGAACAATCACACCAGGCTATCGAGGCCCACAAC
AGACTGTCCGAGCGCCGTTCGCGTCTCATATCAGCTCCCAGCAACTTCGCCCACGTGTCC
CATATGGGTCCCGGGGACGGCATCCGCTCACAGAGACTACTCGACCTGCCCACCACCCTG
GAGACGGCCGACACGCACCAGATGTTCGGCAGCCGCGAGAGCAGCAAGCGGACCTCCCCG
CTCACCATATCCCACCCCGCGGGGTCGTACAACGGTTCGTGGCGCACCCGGGCTCCGACG
GAAGCCCCGCCCTCGCCGCCTCACAGGATGGACAGGTCGGTGGGCGGAGGGTCGTGCGGT
AGTGGCTCGGCCCTGGAGCGCTGCCTCACCCCGCTCAGCCTGGGCAGCATGAGCTCGCTC
CACGACGTGCTCAAGGTCGGGACGGAGCCGGAGCCCCACTCGGAGGACAGCGGCGGCGCT
TCGCCCCCCAGACGCGAGCCCTGA
Protein sequence:
RADTACFQEERDVLVFGDRRWITNLHYAFQDEHNLYLVMDYYCGGDLLTLLSKFEDRLPE
DMARFYLAEMVLAVHSVHELKYVHRDIKPDNVLLDASGHIRLADFGSCLRLGDDGKVQSN
VAVGTPDYISPEILRAMEDGQGRYGPECDWWSLGVCMYEMLFGETPFYAESLVETYGKIM
NHARCFHCPPPDELAPQVSEEAKDLIRRLICSSETRLGRNGLQDFKSHPWFAGLEWENVR
EMAAPFVPDVSSPTDTSNFDVDDTDIRLSEAVPPPRASGAFSGLHLPFVGFTFTGGSRLC
DLGPPTPLSPAKNATKQAPSNASDRAALAALERENALLAHTLADLRAAAGQELAARVKDL
EVLVNALNIEKEELIKDKNDTVEKLMLQDKELKDAVSQRKLAMAEYNEVTDKLSELRQQK
QKLSRQVRDKEEELEVAMSKIDALRQDIRRAEKSRRDLEARLDTALNEAAKERKVREESV
RLARVEETGVSPAQDVARLQADIEALEAQYSESLSQQQARYAAELAALREQLHEGDALRN
RLNRELQTSKDKLESRRMEQLNDSEDKQMLINENRKMAKDLDAMAENGRRWQAERRAMEH
ELEELRSKRDSMQHWETQIADIIRWVSDEKEARGYLQALATKMTDELDYLKHASAPRPTA
SPPAAPPPPGAGWRNRRSQKLDKMEILTLQSSLHSEIQAKQAVGEELSRTRAELLASQRE
LLETRQRLDSLAHDMKRKEQHIRDMQAKLDTPHQGNSFLDRPPSQMSYLEQFLKDAPQER
HYDNVASMNNEQKLLYGSQQSTVLSGSVESPDELGPRPASPASCKSSPSDMSTYTVQEPA
GGKQKVHQFLMRSFSSPTKCNHCTSLMIGLTRQGVVCETCGLAVHTRCCGRVAARCPLPP
ERSRRPLGIDPARGQGTAYEGYVKVPKPGGVKKGWMRQFVVVCDFKLFLYDISQDRNAVP
SVCVSQVLDMRDPEFSVTSVKDSDVIHASKRDIPCIFRISTSQLEGDRRYHTLMLAESDS
EKTKWVVALSELHRILKKNNLPDKCVYAAASLAAGGGSCSLGAVRGASCAAPLEGARLVL
GGDFGLALLDLERAELVPRRQHAPVHTLRYVMEEQLLVVISGRGRNVRLVPLRALECPEA
ESVKLSEAKGAVDLAVGELHTGVYGFAVVCKRQNSWVVIVYEITRTAARRCRVSELRAPA
PVLSVQLVRGRLVLGYRGAIVAHTLHPHPHPAVSLVHPENQVGVFLSNSGARPLCARPAG
GDWLLVFTALALYVDRAGLRARDTELMYTAHPQHYAINDTHLLIFTTSHIDVYEIESGDW
VQTINLPNARPLDECGWIVLVCGGGPSGAFPFNTDAAPYLVYLRPLLGGGPLNLDHSWYG
TNKRRFSVREQSHQAIEAHNRLSERRSRLISAPSNFAHVSHMGPGDGIRSQRLLDLPTTL
ETADTHQMFGSRESSKRTSPLTISHPAGSYNGSWRTRAPTEAPPSPPHRMDRSVGGGSCG
SGSALERCLTPLSLGSMSSLHDVLKVGTEPEPHSEDSGGASPPRREP