New model in OGS2.0 | DPOGS201965  |
---|---|
Genomic Position | scaffold79:- 210613-225755 |
See gene structure | |
CDS Length | 4152 |
Paired RNAseq reads   | 3662 |
Single RNAseq reads   | 9441 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA010545 (0.0) |
Best Drosophila hit   | protein kinase at 92B, isoform C (0.0) |
Best Human hit | mitogen-activated protein kinase kinase kinase 15 (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to mitogen activated protein kinase kinase kinase 5, mapkkk5, mekk5 [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | mitogen-activated protein kinase kinase kinase, putative [Pediculus humanus corporis] (0.0) |
GeneOntology terms    | GO:0006468 protein amino acid phosphorylation GO:0004710 MAP/ERK kinase kinase activity GO:0004702 receptor signaling protein serine/threonine kinase activity GO:0012501 programmed cell death GO:0008360 regulation of cell shape GO:0004674 protein serine/threonine kinase activity GO:0005524 ATP binding |
InterPro families    | IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR011009 Protein kinase-like domain IPR010993 Sterile alpha motif homology IPR017442 Serine/threonine-protein kinase-like domain IPR000719 Protein kinase, catalytic domain IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site |
Orthology group | MCL10684 |
Nucleotide sequence:
ATGATAACATTCGGCGCTGCAAACACATCTACGGCGCAAGAGGAGTCTGGCGACGTGAGA
AGTATTTGTGAGAGCATCTGCAGCGATGGATCGAATGCGACGGTGCAGCCGAGTGCTTCA
AATCAGAGGCCCCGGATGGACATAGCTTGTGTTTTGGACGTTACCCAAACATTAAACCTT
GCGCACAGAAAAAGAGCATTAGAAGAAGTGCGACTGGCTGCAGAACTTGTTAATGCGAAT
TTACACCATATTCATTTTGAAAAACTTGACTTTGGAGAGACGAGTGTGTTGGATACATTC
TACAATGCAGATGTTGCTCTTGTGGATCTTAGTTTGCAAGTACAGCAAAGCTCTTTACTA
TACCACTTGGGTGTGCGGGAGAGTTTTGATATGAAGGAAAATGTTCTGCTTTATAATGAT
GTCGATCCTGATTCTACATTACGACTTAAGATATCGCTTCCAAATTTTCTATTCGTGTCA
TACAAATTGACTGATGTCGGTACATGTGTGACAACAAACCCAGCGGCCGCTAAGTTCAAG
GGTGACGAAGCACCCGATCCAAAACAACATCTCACTTTAAGACTCAAGAACATACTCCAA
GATGTTGAAGTACAAACCAAAGCCCATCTTCAAGAGAAATTTCTATCGGACCTTCGTAAA
GCAAGAGAGACTTATACCGGGGCTGAGTTGGCGAATGTTCTTCATGCTATGCGCCGTCGC
TTGGATGATCCGGCAGTACTCTCCGGTGATACCATACTGAATCTTCTGATATCCTACAGA
GAAATACAGGATTATGACGCCATAGTCCATATAGTAGATGATTTGAAGACAATTATGAAT
AGAAAGAACTATGTCAATATGCCAATTATAAGGTTTATGTATGCGTTTGCTATGAATCGA
AGAAACAAAGAAGGCGATAGGGAAAATGCTTTAAAGGTTTGTGTGAAGGCTTTGGAGAAG
AAGGAGAATAGATTTCCAGATATGTTATGTCTGTGTGGCAGAATATATAAGGATAAGTTT
GTAGAATCTCAACACTCTGACTTGGAAAGTCTCACAAATGCTATTCATTGGTACAGGCAA
GGATTCGAAGTCCAGCCCAACGAATACGCGGGCATCAACTTAGCCACGCTATTAGTCATA
GCTGGTAACGATTTTAAAAACTCAACGGAGCTACAGCACATAGGTATAGTCCTTAACCAT
TTAATTGGTAAAAAAGGCAGCTTGTCATCATTAAAGGAGTATTGGGACGTGGCCACGTTC
TTTGAGATATCAGTACTAGCCCAAGACTATGTGAAGGCTATACAGGCAGCGGAGTGTATG
TTTAAATTGAAGCCACCTAACTGGTACCTGAAATCTACGATAGGAAATATTGAGTTAATT
GATAGGTTTAGAAAAAAAAGCGATGATTCGTCGCCAGAGCAGCAGGTGTTCTCGTTCTGG
ATGGAGTTTTTCGTGGAGGCAACTAAATCTACGTGCGAGAATATTATACGGTTTCCCGTC
GTAATATTGGAAACGACGAAGGTGTATATGCCTTCGTATGTGAACGTCAATATGGGAGCC
GAACAGAAATCTGTAGAGATTTTTAATCTGTGCCTTGATTCGATGCGTGGCGATTGTAGA
CAGGTCCACCGATGGCTCTTCACGTCTGATATGATACGAACATATAGCTTGTACAAACGA
GACGAACGCTGCCTCTTCCTGTATGTCAGCGAGAACTCTGATGATTTCCAAATATTTCTT
CCGTCTCACGCCTTCAGACAGCACCTCTACGATCTGTTGAACGAAATGACGGCTGATCAA
GAGAAAATGACGGATCTAGACACGAGCATGATGCAGGACCAGCTAAAGTTTGAATACGAG
TTAGATGACAGCAACAAGCGTGTGGTGCTGGGCAAGGGCACGTACGGCGTAGTGTACGCA
GCCAGGGACCTCAACACACAAGTCAGGATCGCCGTCAAGGAGATCCCCGAGAGGAATCTG
GGTGATGTCCAGCCTCTACACGAGGAAATATTACTACACTCACAGCTCCGGCATAGGAAT
ATAGTGCAGTATCTGGGTTCGATATCCGAGGACAACTACTTCAAGATCTTCATGGAACAA
GTGCCAGGAGGTTCCCTTTCAGCGCTGTTAAGATCCAAGTGGGGGCCGCTCAAGGAAAAC
GAAGCCACTATAGCATATTACACAAAACAAATTCTAGAAGGTTTAAAGTACCTCCATGAC
CAGAAGATAGTCCACCGTGATATCAAAGGAGACAATGTTCTAGTGAACACATACAGCGGG
GTCGTCAAGATATCTGACTTCGGTACTTCCAAACGATTGGCTGGCTTGTGTCCATCCACT
GAGACCTTCGCGGGCACACTGCAGTACATGGCACCGGAGGTCATCGATAAAGGACAGAGA
GGTTATGGCGCTCCGGCCGATATTTGGTCGCTAGGTTGCACGGTAGTTGAAATGGCGACT
GGCAATCCACCCTTTATGGAGTTGGGATCACCTCAGGCAGCACTGTTTAAGGTCGGTTAT
TACAAGATGCATCCTGAAATACCAAGCGAGCTGTCGCTGAAGGCGAAGAACTTTATACTA
CGCTGCTTCATCACCGATCCCGAGAAACGAGCGACCGCGGCGGAGCTGCTGGAGGACCGC
AAGGACACGCTCATTCATAAGCTCATATTAAGAAGAAGAAATCAACAAATCGCGTCGGTA
ACAGTGTTGATTACAGCCGCAGTATATCAGTGCCGGCCGACAAGATACGGTCGTCCGTTG
CACAGAAGAAGATATCCGAACCGAGCCTGCAAGCGACGCTCCCCAGCTCGCCGGAAATCG
AGTGAGTTACTTACAGAGGTTAAAACGATCCGGTCTAACCCGACAATCACTAGGACGGCG
TCGTCAATGCTGTCGCCGATACTGATTTACCCACCGGATCTATCAAACAGCAGCACAATG
CCGAACACACCATCCACTGATGAAATGGACACCAACGACACCATCCTCAATAGAAGGAGC
TCTTCCGGGGGGCTGTTGTCGCCCGAGGTGGACATGACAAATGTACCTCGATCCTCGATC
GACATAGAGCACGACGGTTTCTATCTGTTGAAGAAGGACTCGCAGCGCCGTCTCACTCTA
TCACGAGTGTTGGAGCAGGACAGCGAGAAGATCTGCTCTAAATGGATGCTGAGCATACAA
CAGGATTTCGGCAACACCGTACTCACTATGAATCACCTGGAGACACTGCGGTGCGCCCTA
AAGGAGTACATCATGGATCAAAACAGAGGCGTGATAGAACGCGCCATAATAACCCTCAAG
GAGGATTTAGATTTCGACTCGAACGCTATAAACGAGCTGCACTCGGCGATATACATGTTC
CAGGAGGCGGTCAACGTCGTGCTGAGGATGCACAGCATTAAGCCGCACTGGATGTTCGCG
TTGGACAACCTGGTGAGGAACGCCGTGCAGGCGGCCATCACCGTCCTGTCGCCGGAGCTG
GGTGCTAATCTGGCTGGGCAGGAGGCCGAGCGTCGCAGTGGGCCAGCAGACGCCTCTCCA
TCAGCTCTGTCCACTGAAACCTCCACCAGAGATCCGCTAACACTACATCATCTCAGACAG
GACAATCACAAATTACAACAAGAACTAATTGAGAGTTATCAGCAGTACCAAGCTCTGCTG
CGAGCAATGCTGGACGAACAGAAGTCGCAGACGTTGATATTAAAAGAAATCATAGAAAAC
AAAAATACATCAGCTGATCAGTCGGATGATGAGGTAGATCCGGTACAGTTGGCTGAACTC
AGGTCGTGGGTGTCGTCTTGTGGAGTCCCTGATGAGGTGGTTCGAGCCTTGGCCGCGCAA
AAGTACAACCTCGACGACCTCCTGCACCACGCTGAGAGAGAGGATCTAGCGAGGCTTAGA
CTTAAAGGTGGTGTGGAACTGCGTCTATGGCGTGCGATCGTCGAGCATCGCTCTCAGGAC
AATCACCTGCGAAGAACGAGCAGCACGGAAACGGATATAGACAACACTATAGTAGTTGTC
GAGTGTCAGAAGTGCAAAACGTCCAGGTCCGCGACCACGTGCTCAAACAATCCGACGATA
GTTATAAGGGATCAGAAGAACGGAGACGATGTAGCCGAATATTACGCCGAGAACGGGGTT
GTCAACCTCTGA
Protein sequence:
MITFGAANTSTAQEESGDVRSICESICSDGSNATVQPSASNQRPRMDIACVLDVTQTLNL
AHRKRALEEVRLAAELVNANLHHIHFEKLDFGETSVLDTFYNADVALVDLSLQVQQSSLL
YHLGVRESFDMKENVLLYNDVDPDSTLRLKISLPNFLFVSYKLTDVGTCVTTNPAAAKFK
GDEAPDPKQHLTLRLKNILQDVEVQTKAHLQEKFLSDLRKARETYTGAELANVLHAMRRR
LDDPAVLSGDTILNLLISYREIQDYDAIVHIVDDLKTIMNRKNYVNMPIIRFMYAFAMNR
RNKEGDRENALKVCVKALEKKENRFPDMLCLCGRIYKDKFVESQHSDLESLTNAIHWYRQ
GFEVQPNEYAGINLATLLVIAGNDFKNSTELQHIGIVLNHLIGKKGSLSSLKEYWDVATF
FEISVLAQDYVKAIQAAECMFKLKPPNWYLKSTIGNIELIDRFRKKSDDSSPEQQVFSFW
MEFFVEATKSTCENIIRFPVVILETTKVYMPSYVNVNMGAEQKSVEIFNLCLDSMRGDCR
QVHRWLFTSDMIRTYSLYKRDERCLFLYVSENSDDFQIFLPSHAFRQHLYDLLNEMTADQ
EKMTDLDTSMMQDQLKFEYELDDSNKRVVLGKGTYGVVYAARDLNTQVRIAVKEIPERNL
GDVQPLHEEILLHSQLRHRNIVQYLGSISEDNYFKIFMEQVPGGSLSALLRSKWGPLKEN
EATIAYYTKQILEGLKYLHDQKIVHRDIKGDNVLVNTYSGVVKISDFGTSKRLAGLCPST
ETFAGTLQYMAPEVIDKGQRGYGAPADIWSLGCTVVEMATGNPPFMELGSPQAALFKVGY
YKMHPEIPSELSLKAKNFILRCFITDPEKRATAAELLEDRKDTLIHKLILRRRNQQIASV
TVLITAAVYQCRPTRYGRPLHRRRYPNRACKRRSPARRKSSELLTEVKTIRSNPTITRTA
SSMLSPILIYPPDLSNSSTMPNTPSTDEMDTNDTILNRRSSSGGLLSPEVDMTNVPRSSI
DIEHDGFYLLKKDSQRRLTLSRVLEQDSEKICSKWMLSIQQDFGNTVLTMNHLETLRCAL
KEYIMDQNRGVIERAIITLKEDLDFDSNAINELHSAIYMFQEAVNVVLRMHSIKPHWMFA
LDNLVRNAVQAAITVLSPELGANLAGQEAERRSGPADASPSALSTETSTRDPLTLHHLRQ
DNHKLQQELIESYQQYQALLRAMLDEQKSQTLILKEIIENKNTSADQSDDEVDPVQLAEL
RSWVSSCGVPDEVVRALAAQKYNLDDLLHHAEREDLARLRLKGGVELRLWRAIVEHRSQD
NHLRRTSSTETDIDNTIVVVECQKCKTSRSATTCSNNPTIVIRDQKNGDDVAEYYAENGV
VNL