| New model in OGS2.0 | DPOGS214439 |
|---|---|
| Genomic Position | scaffold410:+ 98822-113692 |
| See gene structure | |
| CDS Length | 3717 |
| Paired RNAseq reads | 2485 |
| Single RNAseq reads | 6824 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011251 (0.0) |
| Best Drosophila hit | wee (3e-103) |
| Best Human hit | wee1-like protein kinase isoform 1 (9e-92) |
| Best NR hit (blastp) | sid-1-like protein2 [Bombyx mori] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to Wee1-like protein kinase [Apis mellifera] (4e-121) |
| GeneOntology terms | GO:0004713 protein tyrosine kinase activity GO:0007093 mitotic cell cycle checkpoint GO:0045448 mitotic cell cycle, embryonic GO:0000280 nuclear division GO:0006468 protein amino acid phosphorylation GO:0004672 protein kinase activity GO:0007088 regulation of mitosis GO:0005634 nucleus GO:0001700 embryonic development via the syncytial blastoderm GO:0007049 cell cycle GO:0000287 magnesium ion binding GO:0007067 mitosis GO:0005524 ATP binding GO:0004715 non-membrane spanning protein tyrosine kinase activity GO:0045736 negative regulation of cyclin-dependent protein kinase activity GO:0051642 centrosome localization GO:0051225 spindle assembly GO:0051299 centrosome separation GO:0005875 microtubule associated complex |
| InterPro families | IPR017442 Serine/threonine-protein kinase-like domain IPR011009 Protein kinase-like domain IPR000719 Protein kinase, catalytic domain IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain |
| Orthology group | MCL13766 |
Nucleotide sequence:
ATGAGTGAGTGGTACAGGATGAAAAACGGCTTCAATAGCAAACTTAACTCTTCCGAAATA
TCGGTGGAGACTTCGTGTGATATATCAGACTCTTTCAACATATTTTCTGATAATTTGAGC
CCCATACCGGCTGCAATAGTGCCAAGGAAATTGGATTTTAGTTCTGTGGACGATGATGAG
TGTATTCGGAACACATCACCGACTACAGCCTCCCTCAGTCCACCATATAAGAGAGTCAGG
GCATTAAAATTGTTCGACAGTCCGCACACACCCAAAACCCTCCTGGAGAAGTGTTCTACG
CCCTCACATCACACTTCCAGGATCAGACTGTTCCCACCCAAAGTTACTGCACCTAACGGT
ATGTCGGGCTCCAGCCATCACCTCCACCCGCCGTCGGACGAGGACTCCGCCCTCGGGAGT
CTGCCCCCCGACGACGACGACTGTCGCAGGAGGAGACCCCTCGCCAACATTAACCCCTTC
ACGCCTGACGGTCAAGCGCTGAATAAGAAGAAGAGGGCGCTGTCCAAGACACCCACGCTG
GGGGAGAGCACGCCCGAGAAGCCCGCCAAGAGACTAAGGGAGTCCAACATCTCCCGGTAC
AACGTGGAGTTCATGGAGCTGGGAGTGATCGGCTCGGGACAGTTCGGGCGGGTGGCGCGC
GCTCTCAACAGGCTGGACGGCTGTGTGTACGCGCTCAAGAGGAGTCTCCGCCCCGTTGCG
GGCTCGGCGGCCGAGAGGGCCGCGCTCAACGAGGTGTACGCACACGCCGCGCTCGGCAAA
CACGAGCATCTAGTGAGATACTACTCGGCGTGGGCGGAGGACGACCACATGATCATACAG
AACGAGTACTGCGACGGAGGCTCGCTGCAGCAGAAGATGGAGGCCGGGCCGCTGCCGGAG
AGCGAGCTGCTGCTCATCCTGGCGCACGTGGCGGACGGCCTGGCCTACATACACTCGCAG
CAGCTCGTGCACATGGACGTCAAGCCTGGGAACATCTTCATCTGCACCGACAACGCCGCG
GCCGTCGACTCCGACGACGGCTACGACGACGACGACCTGCCGCCCGCCACGCACAAGTAT
AAGATAGGTGACCTGGGCCACGTGACCTGCATCTCCTCGCCCTCGGTGGAGGAAGGCGAC
TGCCGCTACCTGCCCAAGGAGGTGCTGCAGGAGGACTTCACGCATCTCACCAAGGCTGAT
ATATTCGCGTTCGGTCTGACGTTGTTCGAGGCGGGCGGCGGCGGTCCCCTGCCCAAGAAC
GGTCCCCAGTGGCACGCCTACAGAGACGGACACCTGCCGGGGCTGCCGCAACTCTCCAGG
GAGTTCAACCAGCTGCTCAAGAAAATGGTGGACCCCGACCCCAGCCAGCGACCCTCGGCG
GCCAGGCTCAGGAGACACGCGCTGCTCCACCCAGCGGGGAACAAGAGTAAGGCTCAGCTC
AGGAGGGAGCTGGCGGCGGCGCGGCTCAAGAACGAACTGCTCACCAGGAAGCTACAGGAG
GCGGCCAGGTGTATCAAGTCCCTGACGCCCGGACTGTGCGGCGAGACCTCGCGGCCGCGC
ACACGAGCCGCCAGGAGGTCCGACGAGACGAGGCAGGACAGGAGGACGAACATGTATGGC
GATCTGGTGACGTACGACACTCCGGCTAGAGTGACGGTCGCCAGCGACTTCGCCAACCGA
ACGTACCCGCTGTTTGTAACGGCGCGGCAACAAAAAGGTGTGTTCTCGTGGCAGCTGCCG
ATGTTGGTGCAGACTCCCGACTCCTCGGAGCAGTTCACCAACATCTCCCGGACCCTCTGC
CCTCACAACAACATCTTCTCCGAGGACGAGGACGCCTGCGATGTCCCATCACTAAACATC
CCGATCGTCCACCTGACGTCGTCTTCCCCCGATCCCATCAAGGTCACGATATTCGTGGAG
ACCGTGAAGGACTTCTTCATACAACAGAATTCGGTGACCAATCTAACGAGCACCCCGAGT
CAGCCGAAATACTACTTCTATCCGTTCGACCAGGGGCCGAACAGAATGGTCGATATAGAA
ACGCAGAGTATCAGGAAAAAGTACATGTGCAACAAAGAGCTGGATGCGGCAGAGCAGGGC
AAGCTGGAGAGATACCTCGTCAGGAGCGACTCGGACTCGCCCCCGCCGGCGCCGGGCTGG
TTGTCGCGGGCGCAGAGCGTGATCGTGATGATAGAGTCGGACGACGACGTGTGCGCCGTC
GTCTCCATACAGAACTTCTCGTGCCCCGTGTTCGATAACGAGCGGGACATCTTGTACGAC
GGCTTCTACCTTACCATGACCAGGAGGGGAGGCATCACACTCACCCAAGACTCGTTCCCG
TACGGTTTCTACATCGTGTTCATAGTGAAGACGTCGGACGAGGCGTGTTACAACAACACG
GCCACTCCCAAGATGGCGGCGGAGTTCGGGTGGGGGGAGACGGTCACGGCCACCGCCGAC
AACGGACGGGTCAAGACTTTCAGTTTCTCGGTGGTGCCGACGATCTCTTACTCCCAGTAC
CTGCTCGGCGCCGCGGCTCCTCTCGGCTTCTTCCTCTCCTTCTACGTGGCCTTCGCGGCG
GCGGTCGTGTGTCAGAGGAAGAGACCAGCGCCAGGTGAGCTTCAGGGTTCAGGAAAACGT
TCACCCACGCCGTCCCCAGACACGGAGCGCCTCGTGTCTCCGGCCACTCCTCACGACGAG
TCGGTCGTGTCTCCGTCGTGTCGTCGTCGGGTCGTCAACGACGCCAGCTGCAGCTCGGCG
GGAGACGGACCTGGAGGTGGGTCAGCAGCAAGCGGTCGCCTCGACACCAGAAATACACCA
ATCTGCAGCTCGTCCTCCGACACGGAGTCCGACGTGTCCGCCGTGGAGCTGAACACGGAG
AAGCAGTTCAGAGTCGACGGGAGACTGTGCGTGGCGCATCTGGCGAGATGTCGGCCGCGC
GTGCTGTCCTCTCGCTCGCGGATGTACCTGTGGGGCGTGCTGACGGTGGCGGTGTTCTAC
ACGCTGCCGGTCATACAGCTGGTGGTGACGTACCAGCGGCTTCTCAACCAGTCCGGTAAC
CAGGACCTGTGCTACTTCAACTTCTTGTGCGCTCATCCTCTCGGCTCTCTGTCGGACTTC
AACCATGTGTACTCCAACGTCGGCTACATCCTGCTGGGAGCGCTGTTCCTCTTGCAGGTC
CGCAGGAGACACCTGCGAGCTGAGACGAGGGAGCAGACGGACGTCGGCATCCCTCAACAC
TGGGGCTTGCTGTACGCGCTGGGCGTGTCTCTCCTGTCCGAGGGTCTGCTGTCCGCGGCC
TACCACGTGTGTCCCAACAGCATGAACTTTCAATTTGACACGTCGTTCATGTACGTGACG
TCTGTCCTGTGCATGGTGAAGATCTACCAGTCCCGCCACGCCGACATCAACGCACGAGCT
CACGCCACCTTCGGAGTGCTCGCGCTCATTATATTCATAGGTCTCGTGGGTGTTCTGAAC
GCCAACGTCTACTTCTGGGTTCTGTTCACGGTGCTGCACCTGGTGACGTGTCTCGTCCTC
ACCTTCCAGATATATTACTTAGGACGGTTTAAATTCGGTGACGAGCTCCGGCTCCGCCGC
GCGCCCTCGCCCTCGCCCGTTGCCCTCGCCCGTGAGCTAGCTCTGTGCCTCGTGTCCGCA
GACCTGTCGCTGGCGGGCCGCGGCTGCCTGGCGCTGCTGCGCGTAACGCATGCTTAG
Protein sequence:
MSEWYRMKNGFNSKLNSSEISVETSCDISDSFNIFSDNLSPIPAAIVPRKLDFSSVDDDE
CIRNTSPTTASLSPPYKRVRALKLFDSPHTPKTLLEKCSTPSHHTSRIRLFPPKVTAPNG
MSGSSHHLHPPSDEDSALGSLPPDDDDCRRRRPLANINPFTPDGQALNKKKRALSKTPTL
GESTPEKPAKRLRESNISRYNVEFMELGVIGSGQFGRVARALNRLDGCVYALKRSLRPVA
GSAAERAALNEVYAHAALGKHEHLVRYYSAWAEDDHMIIQNEYCDGGSLQQKMEAGPLPE
SELLLILAHVADGLAYIHSQQLVHMDVKPGNIFICTDNAAAVDSDDGYDDDDLPPATHKY
KIGDLGHVTCISSPSVEEGDCRYLPKEVLQEDFTHLTKADIFAFGLTLFEAGGGGPLPKN
GPQWHAYRDGHLPGLPQLSREFNQLLKKMVDPDPSQRPSAARLRRHALLHPAGNKSKAQL
RRELAAARLKNELLTRKLQEAARCIKSLTPGLCGETSRPRTRAARRSDETRQDRRTNMYG
DLVTYDTPARVTVASDFANRTYPLFVTARQQKGVFSWQLPMLVQTPDSSEQFTNISRTLC
PHNNIFSEDEDACDVPSLNIPIVHLTSSSPDPIKVTIFVETVKDFFIQQNSVTNLTSTPS
QPKYYFYPFDQGPNRMVDIETQSIRKKYMCNKELDAAEQGKLERYLVRSDSDSPPPAPGW
LSRAQSVIVMIESDDDVCAVVSIQNFSCPVFDNERDILYDGFYLTMTRRGGITLTQDSFP
YGFYIVFIVKTSDEACYNNTATPKMAAEFGWGETVTATADNGRVKTFSFSVVPTISYSQY
LLGAAAPLGFFLSFYVAFAAAVVCQRKRPAPGELQGSGKRSPTPSPDTERLVSPATPHDE
SVVSPSCRRRVVNDASCSSAGDGPGGGSAASGRLDTRNTPICSSSSDTESDVSAVELNTE
KQFRVDGRLCVAHLARCRPRVLSSRSRMYLWGVLTVAVFYTLPVIQLVVTYQRLLNQSGN
QDLCYFNFLCAHPLGSLSDFNHVYSNVGYILLGALFLLQVRRRHLRAETREQTDVGIPQH
WGLLYALGVSLLSEGLLSAAYHVCPNSMNFQFDTSFMYVTSVLCMVKIYQSRHADINARA
HATFGVLALIIFIGLVGVLNANVYFWVLFTVLHLVTCLVLTFQIYYLGRFKFGDELRLRR
APSPSPVALARELALCLVSADLSLAGRGCLALLRVTHA