| New model in OGS2.0 | DPOGS216084 |
|---|---|
| Genomic Position | scaffold375:- 25367-36663 |
| See gene structure | |
| CDS Length | 4101 |
| Paired RNAseq reads | 5624 |
| Single RNAseq reads | 17119 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA007730 (0.0) |
| Best Drosophila hit | misshapen, isoform A (0.0) |
| Best Human hit | TRAF2 and NCK-interacting protein kinase isoform 1 (3e-153) |
| Best NR hit (blastp) | PREDICTED: similar to AGAP006340-PC [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to AGAP006340-PC [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0008594 photoreceptor cell morphogenesis GO:0048477 oogenesis GO:0006468 protein amino acid phosphorylation GO:0008360 regulation of cell shape GO:0004674 protein serine/threonine kinase activity GO:0007391 dorsal closure GO:0008349 MAP kinase kinase kinase kinase activity GO:0000185 activation of MAPKKK activity GO:0007254 JNK cascade GO:0004702 receptor signaling protein serine/threonine kinase activity GO:0042656 JUN kinase kinase kinase kinase activity GO:0001736 establishment of planar polarity GO:0005524 ATP binding GO:0005083 small GTPase regulator activity GO:0007097 nuclear migration GO:0001748 optic lobe placode development GO:0046529 imaginal disc fusion, thorax closure GO:0016476 regulation of embryonic cell shape GO:0005938 cell cortex GO:0007411 axon guidance |
| InterPro families | IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site IPR011009 Protein kinase-like domain IPR000719 Protein kinase, catalytic domain IPR001180 Citron-like IPR017442 Serine/threonine-protein kinase-like domain IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain |
| Orthology group | MCL10898 |
Nucleotide sequence:
ATGGCGCATCAACTGGCACCGTCTGTAAATTGTTCATTGGACGACATTGACCTCAGTGCT
CTGAAGGACCCAGCTGGGATATTTGAACTCATAGAAGTTGTGGGCAATGGCACCTATGGA
CAAGTATACAAGGGACGCCACACAAAAACAGGACAACTTGCTGCCATCAAAGTTATGGAC
GTAACACAAGATGAAGAAGAAGAGATAAAGCTTGAAATCAATGTTTTAAAAAAGTACTCC
ACCCATCGCAACATTGCGACCTATTATGGTGCTTTTATCAAAAAAAGCCCTCCCGGTAAA
GATGACCAGTTATGGCTGGTTATGGAATATTGTGGTGCTGGATCTGTAACTGATTTGGTG
AAATCAACCAAGGGGCAGTCTTTGAAAGAGGAATGGATTTCCTATATATGCAGAGAAATC
TTGAGAGGTCTCAGTCATTTACACTCAAACAAGGTTATACACCGAGACATCAAAGGGCAG
AATGTGCTGCTTACGGACAACGCTGAAGTTAAATTAGTGGATTTTGGGGTATCCGCACAG
TTGGATCGAACCATTGGTAGAAGGAATACGTTCATTGGTACACCGTATTGGATGGCGCCG
GAAGTCATTGCTTGCGATGAGAACCCCGAAGCGACATACGACAATCGCTCTGACCTTTGG
TCTCTTGGTATAACTGCTCTCGAAATGGCCGAAAGCCAACCGCCGTTATGTGATCTTCAT
CCCATGAGAGCTCTATTCCTTATTCCTAGAAATCCACCACCTCGCTTGAAGTCGAAGAGG
TGGGCGAAAAAATTTCACAGCTTCATTGAGACTGTACTTGTGAAAGATTATCATCAGCGC
CCCTACACTGAACAGCTATTAAAACATTCATTCATCAGGGATCAGCCAACCGAGAGGCAG
GTGAGGATACAGTTGAAGGATCATATAGACAGGTGTAAGAAGAGAAAGCAGGATAACTCG
GTGCGTGAAGACTACAAGTACTCTGGCTCCGAGGGAGAGGAGGAGGATAATGCTGTTGCT
GGAGAGCCGTCATCCATAGTACACAATGCAGCCGCACACCAGGGTGGTGATACGCTGAGG
AGGAACTTCCAGCAGATACAGGAGGGACGAGCTAACGAGGCCCAGCAGCCACAGCCACCA
CCCAAGCGCAACAGTAAACGTGACGAACGTGAAGAAATTCCAGAACCCGGCCCACCTGCG
AGGCCGACAATTCCACAAAGACTGATCGTAGTGCCAGACCCACAGGCTCAACAACCAAAT
AGATATAGACCATTGCCTCCGACCCCTAAGTCGTCGGGCTCCTCTAACAGCTCGGGTTCC
AACAACGGCACGCCCCCGGCCGGACCGCAGCCTCCGCAGCGTGGATCGCAACACTTCAAG
CCCATGATACCGCCGCGACGGCCGGAGGATCTAGATAAACTGGCTGCGCAACTGAATGAA
TTGGGTGTGGTATCAGGCAATGAACCACCGAATAGGCCTCCGAGGGCGCCGACTAACGGA
CAAGGTCCTCCAGTGGAGAGGAATACACAGGAACCTACTTTCGAAGAATCCGAAAGTGAC
TCCGAGGCCGAGGAGAGCGGAGGGAGAGTTCGCAACGACGGAACATTACTGGCCAGCGAC
CCTCCGAAACCGCTGCCGGGTTTGAGCGCTGTATCAGAGGACGGATGCGGAGGCTGTGCG
CCCACTCGTCCTCTACCACCGACGCCGGACGATGACGATCCACACGCAGATCGCACACTC
GTCAAGCGGAGGGAGACTGAGAAAGATAAAATACAAACGGAGGTCGATGAGGTCGTTCTG
CTGAAGGACTGGGACTTTGCCAGATTTTTCCCATCGAAAAGTACTGAGCTAAAAGAAGAA
AAAAAAGATCTAACAAAAGACTCTGAACAAAAACGGATGCAACTACAGCGACAATCTAGA
ATTGAAATGGAGGATGCGTGGGTGAAGTACAAAGGTATAGCGACACCGCCGGCCCGTCAT
AAGCAAATACAACAGAAACCGATAGAAAAAACCACTCAAGATAAACTATCAGACATCATG
AAGTACAAAAAGGAGCAAGATGATACACCAAATAGATTCTTTAGAGGTTTCCGGCGAGAG
AACTCTGACCTCTTCCCCTTGTCAAGCACCCGACACTCTGCGTTTTATTTGCCAAAACAC
GATAATCATAATGAAGCCAACAAACAACTAAGGTCCAGCGGTATTTTCAATCATTCCCGT
AAACAATCAAACAAACCACAGACCTCAGGCGAACCTGTACTAACAGACTTCATAAAGATG
AATGACAGCTTAAAGATGGCCAAAAAGAACGAAATCAAGATAGCAGACAAGAAAACCTCT
GATAGGAAATCACCGCCGACCAATCCGATAGAGGCCTTAAAGAACGTGGCCGTGTTGTTG
AGACAGGACAGTGAGAACAACAGCACAAGTCGGCAGAGCAGCATTAACAGTGACTCGCCG
GCGACCAGCATTTGTTTCAGCAGCGGTGCCTCCTTCGAAAAACAAGGCACGCTGGATCTA
ACTGCCAACACGCTGGACAAAAAAGACATGTCAGACAATAACATAGTTAGACCGCGCAGA
GAAAAGACTGAATCAGATATCATATTCAGAAGAAATTCACAATTTAATAGGCACACAGAG
CTATTATCAAGTGGGCAGGAAGCGGTAATCGCACAGGAACAGGGCCGTTCAAGTGGCAAT
GAAGGCAGTGGTTCTCGCACCAGCTCGGTGCTGCCTGATCTTCTCTCTCAAGCCGGACAG
CCGACTACTCCGCCGCGCCACGATAAATCAACAAGCGAAGAGTATAGGCAGGCGATCGCT
GGAGGCGCTCCCGTCCATCATCACCACCACCCCCCCTCCTCGGTCCAATCGACCCCTTCT
AAGTCCTTCATCGCCGGCTCTTCCCCTCACCCCCTCCAACACTCCCCCTCCAACTCATCG
GTCGGCTCGCAGCAACAGTTCCTTCCATTGCAACAGAAGCAGCGGTCGTTTATAACATTC
GGCTTCGGTGCGGGCTCTACCGGCAGCGGCACCGGCGGTTCCGGCAACGCCTCACGCCGT
GAAAGCCACGTGAATGTCAACGTGACGCCGACAGGACACGACCTCTCCTCTGATACCCCC
GAGATTAGGAAATATAAGAAGAGATTCAATTCTGAGATTTTGTGCGCGGCACTGTGGGGA
GTAAATCTTCTCATCGGCACCGAAAATGGTTTGATGCTGCTGGATCGTTCCGGCCAAGGA
AAGGTGTATCAGTTGATCTCAAGACGCCGCTTCCAACAGATGGAAGTGCTAGAAGGCCAA
AATATACTCGTCACTGTTTCTGGAAAAAAGAACCGCGTTCGTGTCTACTACTTGAGCTGG
TTAAAATCAAAGATTTTGCGTACTGATGGCTTAAGCGACCAAGTTGAACGGAGGAATGGC
TGGATTAACGTAGGAGAATTACAGGGCGCCGTTCATTTCCGTATAGTGAAGTATGAGCGC
ATCAAGTTCCTCGTGATCGCTCTTAAAGACTCCATCGAGATCTATGCGTGGGCTCCCAAA
CCATATCACAAATTTATGGCCTTTAAAAGTTTTGGGGACTTGCAACATAGACCTCTACTA
GTTGACCTAACTATCGAGGAAGGTACAAGACTGAAAGTAATTTACGGTTCAGCGGACGGT
TTCCACGCTGTTGATCTCGATACTGCCAGTGTATATGATATTTATATTCCAAAGCATACG
CAAGGAGCAATTGTTCCGCATTGCATAGTACCATTGCCTAATTCAAATGGTGTCCAACTA
TTGTTATGCTATGATAATGAAGGCGTATACGTAAATACTTATGGTAGGGTTAGCAAAAAT
ATAGTTCTGCAGTGGGGCGAGATGCCTACTTCGGTCGCCTACATAGGAACTGGCCAAATA
ATGGGTTGGGGCAATAAAGCCATTGAAATACGATCCGTAGAGAGTGGGCATCTTGACGGT
GTGTTTATGCACAAAAAAGCCCAACGTCTCAAGTTTTTATGTGAACGTAATGACAAGGTA
TTCTTCTCATCGGCAAAAGGTGGCTCGTCCTGTCAAATATATTTTATGACATTGAATAAA
CCTGGAATGGCGAATTGGTAG
Protein sequence:
MAHQLAPSVNCSLDDIDLSALKDPAGIFELIEVVGNGTYGQVYKGRHTKTGQLAAIKVMD
VTQDEEEEIKLEINVLKKYSTHRNIATYYGAFIKKSPPGKDDQLWLVMEYCGAGSVTDLV
KSTKGQSLKEEWISYICREILRGLSHLHSNKVIHRDIKGQNVLLTDNAEVKLVDFGVSAQ
LDRTIGRRNTFIGTPYWMAPEVIACDENPEATYDNRSDLWSLGITALEMAESQPPLCDLH
PMRALFLIPRNPPPRLKSKRWAKKFHSFIETVLVKDYHQRPYTEQLLKHSFIRDQPTERQ
VRIQLKDHIDRCKKRKQDNSVREDYKYSGSEGEEEDNAVAGEPSSIVHNAAAHQGGDTLR
RNFQQIQEGRANEAQQPQPPPKRNSKRDEREEIPEPGPPARPTIPQRLIVVPDPQAQQPN
RYRPLPPTPKSSGSSNSSGSNNGTPPAGPQPPQRGSQHFKPMIPPRRPEDLDKLAAQLNE
LGVVSGNEPPNRPPRAPTNGQGPPVERNTQEPTFEESESDSEAEESGGRVRNDGTLLASD
PPKPLPGLSAVSEDGCGGCAPTRPLPPTPDDDDPHADRTLVKRRETEKDKIQTEVDEVVL
LKDWDFARFFPSKSTELKEEKKDLTKDSEQKRMQLQRQSRIEMEDAWVKYKGIATPPARH
KQIQQKPIEKTTQDKLSDIMKYKKEQDDTPNRFFRGFRRENSDLFPLSSTRHSAFYLPKH
DNHNEANKQLRSSGIFNHSRKQSNKPQTSGEPVLTDFIKMNDSLKMAKKNEIKIADKKTS
DRKSPPTNPIEALKNVAVLLRQDSENNSTSRQSSINSDSPATSICFSSGASFEKQGTLDL
TANTLDKKDMSDNNIVRPRREKTESDIIFRRNSQFNRHTELLSSGQEAVIAQEQGRSSGN
EGSGSRTSSVLPDLLSQAGQPTTPPRHDKSTSEEYRQAIAGGAPVHHHHHPPSSVQSTPS
KSFIAGSSPHPLQHSPSNSSVGSQQQFLPLQQKQRSFITFGFGAGSTGSGTGGSGNASRR
ESHVNVNVTPTGHDLSSDTPEIRKYKKRFNSEILCAALWGVNLLIGTENGLMLLDRSGQG
KVYQLISRRRFQQMEVLEGQNILVTVSGKKNRVRVYYLSWLKSKILRTDGLSDQVERRNG
WINVGELQGAVHFRIVKYERIKFLVIALKDSIEIYAWAPKPYHKFMAFKSFGDLQHRPLL
VDLTIEEGTRLKVIYGSADGFHAVDLDTASVYDIYIPKHTQGAIVPHCIVPLPNSNGVQL
LLCYDNEGVYVNTYGRVSKNIVLQWGEMPTSVAYIGTGQIMGWGNKAIEIRSVESGHLDG
VFMHKKAQRLKFLCERNDKVFFSSAKGGSSCQIYFMTLNKPGMANW