| New model in OGS2.0 | DPOGS204018 |
|---|---|
| Genomic Position | scaffold1434:+ 19587-34871 |
| See gene structure | |
| CDS Length | 4596 |
| Paired RNAseq reads | 640 |
| Single RNAseq reads | 1476 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004872 (0.0) |
| Best Drosophila hit | Gcn2 (2e-150) |
| Best Human hit | eukaryotic translation initiation factor 2-alpha kinase 4 (5e-145) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC009201 [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC009201 [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0006468 protein amino acid phosphorylation GO:0006417 regulation of translation GO:0004686 elongation factor-2 kinase activity GO:0005829 cytosol GO:0004672 protein kinase activity GO:0005524 ATP binding GO:0000398 nuclear mRNA splicing, via spliceosome GO:0071011 precatalytic spliceosome GO:0071013 catalytic step 2 spliceosome |
| InterPro families | IPR017442 Serine/threonine-protein kinase-like domain IPR006575 RWD domain IPR000719 Protein kinase, catalytic domain IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site IPR011009 Protein kinase-like domain IPR016135 Ubiquitin-conjugating enzyme/RWD-like IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain |
| Orthology group | MCL12630 |
Nucleotide sequence:
ATGTCCAGTGAAACTAACCAAGAGAGACAAGACAATGAGCTATTTGCTCTAAAGGCTATT
TACGGGGATGCTGCTGTTGATAACCGTAAAAAATCAGTATGGAATGAATGGCGTCCACTC
GACGTACTTCTAACATTGAAGCCTCTTCAAAATACCGAAGGTGATCACTGCTGGGCGACT
CTACAGTTTGTTTGTTGTCATAATTATCCTGATAAGTTGCCGACAATTTCAATACACAAA
ATGCAAGGACTGTCCGACCCAAAGAAGCTATTGACGGAACTGCAGGAGCTAGCTGCTCAA
TTGTGTGGGGAAGTGATGATATTTCAATTAGCTCAGCACACTGAGCAATTTCTTCGTGAT
CATTATAAGCCAACACTCTCATGTTACGATGAGATGGTTAAAGAGAAGATAGAAATGGAG
AAACTTAAAAAACACGACCTGGAGGTGAAAGAGTTTGAAGAGTTAAAACATATTAAAGAT
GAGATCCAGAAACGTCAAGAGGCTTTACGTAGCGGCCGTGACAGGATACCCAGTTGTAAT
CTTGATATCAATGAAAACGGGCAAGGGGATATACCTAAACTGGTGTTTTATGCTGATGAA
AAAATGTCGCCAATTAAGAAGGTGTCCAAAAGGAGTTCAGATTCAATACCTTGTTGTTGT
AACATAAAGGGAATACAAGTGCTTAGATACACACAGAGAAATAGCAAGAAAGTTTATATT
GGAAATTGTATTGGGCACTCCTCAAACGGTTCTACAACTTACCTAGCGATAGATGACGAC
GGTGATGGACTGGTTGCCAAAAAATGGACTCTATCTGTCTCATCGGATTACCAAATAAGA
AATCGTCAACTAAACGCTATACAGCAAGACCTGAAGATCATGTCCAGATTAAAACATCCC
TCCCTAGCGCCGTACACGGCTATGGAAATGATAACAGAATCTAAAAGGAATCCCAGACAG
ATTATTTATATATTCAGGGACTTCGTACTGGGCAGTTCCATGAGGTATCTGAAAGAAAAA
TCCAAATTCGGCGATCAGTTCGAAAGTTTGAAGTTATTAAGACATATAGGGATGGGATTG
TTCAGTGCGCTGAAGGGACTGCATAGTGCCAATGTACTGCATCGCGATGTTAGGAGTGAA
ACCGTCTTTTTGGAGGAGAGTGGTGCCGTTAAGTTAGTTGGTGCCAGCCTGGATATAAGA
TTATCAGAAATTCTGGACGGTGATAGCATTTGTGATAGACAGACAAAATCTCACGATATA
TACGCAGCCGCCCAGCTGCTGTTGTCCGTGCTGACCGAGGAGTCGGGTCAGGAGATGCCG
CCGGATTTACCCAACTCAGTCAAAGATTTTTTCTCGAGGTGCCTGACCGAAGATGAACAC
CTGCAATGGTCAGCGGAACAGCTGGTCAATCATGCTTTCCTCGTAGATGCACCAACGAAG
CTACCTAACAGCAAAGATAATAATGACAATGATAGTGACTCTGAGGGTGACGATGGTGCT
AAAAGGATCTCAAATATGACTTCCTTGGCGAACGGTCATTCCAGGCTTAACGTTGAATTC
GAAATTCTTACCTGGCTTGGTAAGGGAGCATTCGGCGATGTTGTAAAGGTGAGGAACAAA
CTCGACGGGGGATTCTACGCAATAAAACACGTCAAATTGAATCCCAAGAGCGTGGAATTA
AACAAGAAAATAACCAGAGAGGTCAAGTTACTGTCCCGATTGAATCATGAAAATGTAGTG
AGGTATTACAACGCTTGGGTGGAGACCATAACCGAGACTGAAATCGAAGAGAGCCAAGTT
GTAGAGACGCCAGTAAAGAAAGGAGACAGTCTGTCTGATGTGGTCGCGAAACTCGGACAG
GTTCAGATAAACTGGTCTATGTCGGAGGGCCCAGGGCGAGTGAGAGACGAGTGGTCCGAT
AGTGATGACGACTCTGATGATGATGAACCCTGGTTTAACATAACAAGCCCAGAAGAAGAT
TCAAGCAGTCTCGTAGCTTTCGAAGGGAACGACGCGCAGTCGGAGCCCACTCCCACTGAG
GAATCTGCAGACAGCAAATTGCCGCTGAAACAAGTACTGTACATACAAATGGAATTTTGT
GAGAAGAATACATTGCGGCAAGCAATAGATGATGCTTTGTACCATGATCACTTCCGAGCC
TGGAGGCTGTTCAGGGAAATATTGGAAGGTTTAGCCCACGTCCACCAAAAAGGTATGATC
CACAGAGATTTGAAACCTGTGAACATATTCTTGGATTCCAATGACCACGTTAAAATTGGG
GACTTTGGTCTGGCTACCAAAGTATTTACCGGACCTCCCGTTGAAGATAAACAATCTCTA
GACGACACGGAAGGTCTCCTCACGGGTAAGGTCGGGACAACTCTATACGTTGCTCCGGAG
CTGCAACAGTCAGCATCCAAAGTAATATATAACCAGAAGGTAGACATCTACTCCTTGGGA
ATTATATTATTCGAAATGTTCCATCCACCGTTCGACACCGGGACCGAAAGGTACATCGTT
CTGAACAATTTGAGGAAAAAGGAAATTGTCATGCCAAAGGATTTCACGAGGGAAGAGAAT
GCTAAGCAGATACATGTTATAAGATGGCTATTAGATCACGATGCGAGTCTTCGCCCCACG
AGTCTGGAACTCCTGGGATCAGAACACGTGCCTCGAGCTGTTCCAGAAGGAGCCCTGTCT
GGGCTTCTCTCCCACACCCTTAGTTCCAGGGGTTCCAGGGGCTACCAAAGGTTGATAACA
GCATGCCTGGACCAAAAACCATCGGCTGCTGAAGATTTCACATATCACAGCGGTGTGAAA
CCCAAAGATATGGAAATCATAGCTGGTATCAAAGACGCCGTTGTCAAGGTATTTCAAAGC
CATGGAGCGATAGAGTTTGCCCCTCCGTTGCTAACATCCCGTTCTAAACATTGGGACCAG
TATGCCAACGCCGTGAAGGTGATGACGTCATCTGGTTCGGTGTGCCACCTCCCTCACGAC
CTCAGGTTGCCGTTTGCAAGGCACACAGCGTACACGGGAACCAAGTACGCCCGTCGATAC
GTCATCGATCGAGTGTACCGGGATACTGAACGAACAATACAAGGATTTCATCCCAGGGAG
ATCATTGAGTGCGCCTTCGATATCGTCAATCCAAAAACTGATACATTGTGGCCGGACGCT
GAGTTGCTGGTGGTAGCGAGCCGAGCCGCTCAAGAGTGTTCTCTCAAAGTAACGATACAA
CTGAACCACACGGAGTTGTTGAAGACGCTGCTGCTGGCGTGCGGAGTGCCGCTGGACAAG
CAGTCTGGCATATACCCCGTACTTGTTGATGTCAGTTTAGGTCGGATAACCAACCTCCAG
CTTCAAACGCACCTCACGACGCTGTGCGTGACGCATCGTGACGTCACCAACATGCTGCGA
CTCATGGAGGCGGACGTTCCCGTGGGGGAGGTGCGGGAGGTGGCGCGGGTGGGGAGGGGA
GGGAAGGGGGAAATGGCTATACGGGAGCTGGAGGCGGTTGTGACGTACGCCAGGAGTCTC
GGATGCGAAATTCCTATAACCGTGGCGCCTTTCCTCGCGTACAAGGCCACCCAACATTGC
GGCGTGTTCTGGCAGATGTCCCTAGTGAGGCAGGACAGCAAGTGTAAACATCGCGCCCGA
GACCTCATAGCTGTCGGCGGCAGGTATGACAATTTGGTGGAAGAGTTCTGGAAAGTCGCG
AGAGCTGTAAAGGACAATAACACGGAATTTAACTGTACGTCTGTGGGATTCTCTTTATCT
CTGGAAAGGGTCGCCGCCATCTTGAAAGGCTTGGAGGTGGAAATACCACCTGTTGTTAGA
AACAGTGAGTGCAACACAGTGTGCGTGTGCGTATCCACCAAATCGTCCATAGAATCGAAA
TGTGCCCGCCTGGCTCGTTCGTTGTGGTCTGGCGGGTACTCGGCCGTTCTGTGGATCGCA
GCTGCCGCAGATGCTCATCACCGCACACGGGCACCACTCGTCCTTGAGCACGACCAAGGT
CACGTGTTGGTCTCCTGCTGGGAGGCTAGAAGTGTGCGTGTTTTCAAACAGTCTGCAACT
GATGTTTTGGAATTTGTCAAACAGAAGATAAATCCGTATTCTTCTATTCGTAGTTCTGAA
TTCACAAACAACCGTACAATCAGTTGGCCGGAAGGAGAGAAAACCAACACTCCGTACATT
TTCGTATCATTCATAAACACAGGCGGCCGGATATCCAAAACAATGAGAAGGTCACACGAA
GTACAAATAAACAACCAAATAACAACGATACTCACAAACCTGGGGCTGTCTGCGATGTTT
TCCCGTGTTCGGGTTAGTGTGGTCGCACTGAACTGTGATTCACGTTGCGTGCGTCAGTTG
AGTGCAGCATTCACTGTACCACTGGAGGCGCGAGATCTCCCCAAAGCCATCGCCAATGTC
AGCGATCTGTTCCCCAAATACCAGACCGCGTTAGATGAGGTCCTCAGCGAGTTGACCAAC
ATCGTCAAACAGAACAATCAGAGTCGTGGACCCGACGAAACTCAGCTGTACGCGTTCTAC
TCTCTGCCATACACGTTATGCAGACTCGTTACTTGA
Protein sequence:
MSSETNQERQDNELFALKAIYGDAAVDNRKKSVWNEWRPLDVLLTLKPLQNTEGDHCWAT
LQFVCCHNYPDKLPTISIHKMQGLSDPKKLLTELQELAAQLCGEVMIFQLAQHTEQFLRD
HYKPTLSCYDEMVKEKIEMEKLKKHDLEVKEFEELKHIKDEIQKRQEALRSGRDRIPSCN
LDINENGQGDIPKLVFYADEKMSPIKKVSKRSSDSIPCCCNIKGIQVLRYTQRNSKKVYI
GNCIGHSSNGSTTYLAIDDDGDGLVAKKWTLSVSSDYQIRNRQLNAIQQDLKIMSRLKHP
SLAPYTAMEMITESKRNPRQIIYIFRDFVLGSSMRYLKEKSKFGDQFESLKLLRHIGMGL
FSALKGLHSANVLHRDVRSETVFLEESGAVKLVGASLDIRLSEILDGDSICDRQTKSHDI
YAAAQLLLSVLTEESGQEMPPDLPNSVKDFFSRCLTEDEHLQWSAEQLVNHAFLVDAPTK
LPNSKDNNDNDSDSEGDDGAKRISNMTSLANGHSRLNVEFEILTWLGKGAFGDVVKVRNK
LDGGFYAIKHVKLNPKSVELNKKITREVKLLSRLNHENVVRYYNAWVETITETEIEESQV
VETPVKKGDSLSDVVAKLGQVQINWSMSEGPGRVRDEWSDSDDDSDDDEPWFNITSPEED
SSSLVAFEGNDAQSEPTPTEESADSKLPLKQVLYIQMEFCEKNTLRQAIDDALYHDHFRA
WRLFREILEGLAHVHQKGMIHRDLKPVNIFLDSNDHVKIGDFGLATKVFTGPPVEDKQSL
DDTEGLLTGKVGTTLYVAPELQQSASKVIYNQKVDIYSLGIILFEMFHPPFDTGTERYIV
LNNLRKKEIVMPKDFTREENAKQIHVIRWLLDHDASLRPTSLELLGSEHVPRAVPEGALS
GLLSHTLSSRGSRGYQRLITACLDQKPSAAEDFTYHSGVKPKDMEIIAGIKDAVVKVFQS
HGAIEFAPPLLTSRSKHWDQYANAVKVMTSSGSVCHLPHDLRLPFARHTAYTGTKYARRY
VIDRVYRDTERTIQGFHPREIIECAFDIVNPKTDTLWPDAELLVVASRAAQECSLKVTIQ
LNHTELLKTLLLACGVPLDKQSGIYPVLVDVSLGRITNLQLQTHLTTLCVTHRDVTNMLR
LMEADVPVGEVREVARVGRGGKGEMAIRELEAVVTYARSLGCEIPITVAPFLAYKATQHC
GVFWQMSLVRQDSKCKHRARDLIAVGGRYDNLVEEFWKVARAVKDNNTEFNCTSVGFSLS
LERVAAILKGLEVEIPPVVRNSECNTVCVCVSTKSSIESKCARLARSLWSGGYSAVLWIA
AAADAHHRTRAPLVLEHDQGHVLVSCWEARSVRVFKQSATDVLEFVKQKINPYSSIRSSE
FTNNRTISWPEGEKTNTPYIFVSFINTGGRISKTMRRSHEVQINNQITTILTNLGLSAMF
SRVRVSVVALNCDSRCVRQLSAAFTVPLEARDLPKAIANVSDLFPKYQTALDEVLSELTN
IVKQNNQSRGPDETQLYAFYSLPYTLCRLVT