| New model in OGS2.0 | DPOGS203905 |
|---|---|
| Genomic Position | scaffold2:- 945275-950997 |
| See gene structure | |
| CDS Length | 3117 |
| Paired RNAseq reads | 2360 |
| Single RNAseq reads | 5699 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA002014 (5e-30) |
| Best Drosophila hit | CG7028 (3e-147) |
| Best Human hit | serine/threonine-protein kinase PRP4 homolog (5e-133) |
| Best NR hit (blastp) | GE21040 [Drosophila yakuba] (0.0) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC010477 [Tribolium castaneum] (4e-139) |
| GeneOntology terms | GO:0004674 protein serine/threonine kinase activity GO:0004672 protein kinase activity GO:0006468 protein amino acid phosphorylation GO:0008360 regulation of cell shape GO:0007155 cell adhesion GO:0005524 ATP binding GO:0071011 precatalytic spliceosome GO:0071013 catalytic step 2 spliceosome GO:0000398 nuclear mRNA splicing, via spliceosome |
| InterPro families | IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR000719 Protein kinase, catalytic domain IPR011009 Protein kinase-like domain IPR017442 Serine/threonine-protein kinase-like domain IPR008271 Serine/threonine-protein kinase, active site |
| Orthology group | MCL11776 |
Nucleotide sequence:
ATGGGCAAAGAAAGTAATCTTGATGTGGAAAAATCTACTAACGGTAGCGCAAAAGAAGAC
GAAAGTAAGAAGAAAAAGAAAACTAAGAAACACAAAAAACGTAAAAGACCAGTGGATGAG
GACACTGAAAAAGGCTATAAAAAAAGAAAGAAAGCCAAAAAGGAAAAACAAAAAAGTCCG
AAGCCAGAGAGTGAAACATCACTTTCTGATGTAGAGGAGTTAATTAAAAAATCCAAAAGA
TGTAAGCCTGCAAACAAAGAATCTTCATTGGAAATTGCCTCGGCTGATAGTGCGAAAAAT
ACTAAAACGAAAAATGGCAATACGAATGCTGATCAGTCGCGTAGTAGTAGCAGAAATACA
AAGAAAGTTGACGACACTTTAGAAATTTTATCTTCTACTTCTGAAGCCGAAAACTATCAA
GACGACTGTGCTAGCCCAGAACTTACTATAATTGAAGATGATCTTAATCTTGAAGAATTG
ATGAAACAAAAAGAAATGTTGCAAGCACGTTTAACTGCCTATAATTCAGACAAAAGCGAT
GAAGAAACTCGTCTTAAGAAAAACACAAATGATGATGTGATCTGTGTCGATGAAGTATCG
AAAGAACCCGTTTCCAAAAAGAAAAAAGATTCCTCTTCTGAACACAAAAAAACTAAAAGT
AAAACCACTAAGCAGAGACCATCGGAGCTTGAAAAAATTAAGTTAAAACGTCAAGAGGAA
GATTTAAGAGAAATAATCAATAGAGAAAGTCGAAAAGAGATGGAAAAGAGATTAGAAGAA
AGAGAATATCGTGAAAAGAAGGAACGTGACCGACGTAAAGCCGAATCAGATAGAGAACGA
GAACGTGAGCGGGAAAGAGAGAGAGAAAGAGAAAAGGAGCGAGAAAAAGAAAGGGAACGA
GAAAGAGATCGTGAACGTGATAGAGAAAGGGAACGGGAAAGAGAAAAAGAAAGGGATAGA
GAAAAGGATAGAATAGATCGTGAGCGTGAAAGAGAAAGGGAAAGGAAAAGGGAGAGAGAA
AGAGAGAGAGAACGTCGGTCTTCTGAATTTAGGCGAAGGGAACGAGATTCGATTCGTAGT
CGAAGGTCCAGGGACCGTTCTCCAATTTCAAGATATGAAAGAAGACATTCAGACCGTGAT
AGAAAGTCACGTGACCGTAGTAGGGAAAGATATAGAGGTCGGTCGCGAGACAAAAATTAT
AAAACTGATCATAGGGAGAAACGCAGAAATTCTACAAATGAAGTAACTCAAATAGTACCC
AGCTCTAGTGATGAAGAGCTTAACATATCAATCAACACTGACGATGAAGAAGAAACTGAA
GAACAAATCATTGAAAGGAGAAGGAAGCAAAGAGAACAGTTACTTAAGAGACTAGAAAGC
AAAAACAAGGCAAACTCAACATCAGATCAAAATCTAGATACCAAAACATCTTCAACTGAT
ACAAATCAAAAGTCATCGGTAGCTGTGCCAGAAAAGATTACCAAAGACACACTCCCCGGA
AATGTGAATGTTCTCAATAAAATGGAAGCGGAGGTAAAAAATGAAAAAAGTAACACAAGT
TCTTTGATAAGGAAGATTGAAAATGAGTCCAAGACAAGTATAAAATTGGAGAAATCCACG
AAAGGGAGTGAGTGGGATATGTTTGCAGATCAAGATAATTTTGACAGTGTCGATACACCT
ACAGCAGGAAAACCAAGGAGTAAAAATACTATGGAAAATCCATCACTTACTGATAACTGG
GATGACGCCGAAGGTTACTATAGAGTACGCATTGGAGAAACACTGGATAACAGATATACA
GTTTATGGGTACACAGGGCAGGGGGTCTTTTCTAATGTTGTAAGAGCAAGAGATCAAGCT
CGCGGTAATACTGATGTTGCAGTCAAAATAATCAGGAATAATGAGATCATGCACAAAACT
GGTTTGCGGGAATTGGAAATTCTGAAACGATTAAATGACTCAGATCCAGAGGACAAATTT
CATTGCTTACGTTTATTTCGCCATTTTTTCCATAAACGTCATTTGTGCATGGTAATGGAA
CCTCTTTCAATGAATCTGAGAGAAGTGCTCAAAAAATATGGAAAAAATAGTGGTATTCAT
ATCAAAGCTGTTCGGAGCTATACCCAACAAATGTTGTTGGCATTAAAACTATTGAAAAAA
ACTGGAATATTACATGCTGATATCAAGCCTGACAATATTTTGGTGAATGAGAGTAAGTTA
ATATTAAAGCTGTGTGATTTCGGTGCTGCGTCACATGTATCGGACAACGAAATCACGCCA
TATCTGGTTTCGAGATTCTATCGTTCTCCAGAAATCATTCTTGGAGTCCCCTATGACCAC
GGTATAGATATGTGGTCGACCGCTTGTACCATATATGAGTTGTCTACTGGGAAAATTATG
TTCAGTGGCAAATCAAATAATGAAATGTTAAAATATTTTATGGATTTGAAAGGGAAGATA
CCAAATAAGATTATTAAAAAGGGTCATTTTAAGGAGCAACATTTTGATAGCAATTGTAAT
TTTTTGTATCATGAACTGGACAAGATTACAGAAAGGGAAAAAGTGGTTATAATGTCAAGC
ATAAAACCTACAAGAGATTTACAAACTGAGTTGGCTCCTCCTCACCACCGACTGCCAGTT
CCAGAAGCGAAGAAAATAACTCAACTTAAAGACCTACTTGAAAGGATTATTTTATCTATA
TATCAGTGCAAAGCTATATCGAAGTATATTAAAATGGCAGTGATAGAACATGTATCTCGA
GTTCGAAGACTTTACAAACTTATATTTCGGGTACATAGAGCTTTACCTGATGAATTACGA
GTTCTTGGTGACAATTACGCAAGAGAAGAATTCAAACGCCACAAAAATTGCACTCCCGAT
GAAGCAAAGATATTTTTGAATGAGTGGACTGATTATGCAATTAATATAGCTAAGCAAATG
AAGCCTCTCAGTCAATCAAAGGGAAAAGGTATTGGAAAATATTTGGACCCCCAAATGTTG
GAATATATGACTGATGAACAATTAGTGCAACTTTATGAATTACATAAAGCAGCTTCTCTT
GAAGAAGAAGATACCGAAAATGAAGCTTCTAGCAATAAAAAAGGAGATGGTAGATAG
Protein sequence:
MGKESNLDVEKSTNGSAKEDESKKKKKTKKHKKRKRPVDEDTEKGYKKRKKAKKEKQKSP
KPESETSLSDVEELIKKSKRCKPANKESSLEIASADSAKNTKTKNGNTNADQSRSSSRNT
KKVDDTLEILSSTSEAENYQDDCASPELTIIEDDLNLEELMKQKEMLQARLTAYNSDKSD
EETRLKKNTNDDVICVDEVSKEPVSKKKKDSSSEHKKTKSKTTKQRPSELEKIKLKRQEE
DLREIINRESRKEMEKRLEEREYREKKERDRRKAESDREREREREREREREKEREKERER
ERDRERDREREREREKERDREKDRIDRERERERERKRERERERERRSSEFRRRERDSIRS
RRSRDRSPISRYERRHSDRDRKSRDRSRERYRGRSRDKNYKTDHREKRRNSTNEVTQIVP
SSSDEELNISINTDDEEETEEQIIERRRKQREQLLKRLESKNKANSTSDQNLDTKTSSTD
TNQKSSVAVPEKITKDTLPGNVNVLNKMEAEVKNEKSNTSSLIRKIENESKTSIKLEKST
KGSEWDMFADQDNFDSVDTPTAGKPRSKNTMENPSLTDNWDDAEGYYRVRIGETLDNRYT
VYGYTGQGVFSNVVRARDQARGNTDVAVKIIRNNEIMHKTGLRELEILKRLNDSDPEDKF
HCLRLFRHFFHKRHLCMVMEPLSMNLREVLKKYGKNSGIHIKAVRSYTQQMLLALKLLKK
TGILHADIKPDNILVNESKLILKLCDFGAASHVSDNEITPYLVSRFYRSPEIILGVPYDH
GIDMWSTACTIYELSTGKIMFSGKSNNEMLKYFMDLKGKIPNKIIKKGHFKEQHFDSNCN
FLYHELDKITEREKVVIMSSIKPTRDLQTELAPPHHRLPVPEAKKITQLKDLLERIILSI
YQCKAISKYIKMAVIEHVSRVRRLYKLIFRVHRALPDELRVLGDNYAREEFKRHKNCTPD
EAKIFLNEWTDYAINIAKQMKPLSQSKGKGIGKYLDPQMLEYMTDEQLVQLYELHKAASL
EEEDTENEASSNKKGDGR