New model in OGS2.0 | DPOGS201500  |
---|---|
Genomic Position | scaffold1102:- 34521-42757 |
See gene structure | |
CDS Length | 3000 |
Paired RNAseq reads   | 994 |
Single RNAseq reads   | 2270 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA002591 (4e-127) |
Best Drosophila hit   | CG3105 (4e-74) |
Best Human hit | PAS domain-containing serine/threonine-protein kinase (5e-53) |
Best NR hit (blastp)   | conserved hypothetical protein [Culex quinquefasciatus] (1e-158) |
Best NR hit (blastx)   | conserved hypothetical protein [Culex quinquefasciatus] (1e-151) |
GeneOntology terms    | GO:0004674 protein serine/threonine kinase activity GO:0006468 protein amino acid phosphorylation GO:0004672 protein kinase activity GO:0004871 signal transducer activity GO:0007165 signal transduction GO:0005524 ATP binding |
InterPro families    | IPR011009 Protein kinase-like domain IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site IPR000014 PAS IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR000719 Protein kinase, catalytic domain IPR017442 Serine/threonine-protein kinase-like domain |
Orthology group | MCL17911 |
Nucleotide sequence:
ATGGAATCTGCTAGAGTACTGAACTTAAATAGAATCGCTGCTACAGATTCATTGGGTTTT
ACACCCATAAAACCGAGACTACGAAGATTTGTGGATGTTTATTCTCCAGAACATCTGAAT
TTGACGCCTAAGCCTAAACAGAAGCTTGATTTGGTATCCAATGTTGGTAAATTGTATTCA
ACGCCCGATAAACCCTTAAGCATTGATAAAGAATGCAGGACAGTCAAAGCTCATCCAAAT
GTTTGCAATGCCTGGGGGAATTGTTCTTTTGAAGGAAATCAAAGCTTTCCAAGATTAAGT
AGAAAACTAAGGCCTTTAAGAATGGATCTTGAGACTCCAACGAAAGCAAAGCCAGCTGTT
GATTTAGTTAGAGTTGATGGGCCAAATGGATTGCGTTTCAATAGCTCCTTGGCAACTGGA
GATGCAGCATCCACACCTACGCAGATGGACAGATTACAGCAATCTATCAACCATAGTAAA
GCAGTCTTCACCATTGAACCAAACACTTCAAAGATTCTCATTGTGAACAACAAGGCTTGC
TCTCTACTGGGTTACTCTTCCGGGGAATTATGTGACCTAAGATTCTCAGATCTTCTGAGG
AAGAGGAATAGCAAGGCTTTTAGCATTCATGAGGCAGAAGATGGTGATATCTCAGAAGAT
GGTACAATGATTTTGTTAAGTGGCAAGGTTGTAGAATTGCTGACGAAGGACGGCAGTTCA
GTTCAAGTGTCTCTCTGGATACGACAATTAGACAGTGATGGTCCCTGTCTGGTGGTTGCT
GAGCCTATAATCTGTAAAAATGTTGTGCTGACTATAGACGGCGATGGTATAATAACATCC
TGTGAGGGAGAAGATGGAGCTTTGTTGTTCCAAGCTGAATCATCGGACAAGCTGATAGGC
CTCCCGGTCTCATCTTTGATACCTTCCATACATCTTCCACACGACGTTCCCATGTCTAAG
AGTGTTTCAAAGCAGAAGGCCACAGGTAGGACCCTTGACGGTGGCTCATTCCCACTGTGT
CTTTGGATATCAAAGGCCCATGTGGAAAACACGTGGTCGTCGTTGAAGACTAAAGACAAA
CCTGCTAATAAAGAGAAGCCTGTATTTATAGTGAATGTCAGGATAACATATAACGTAAGC
GGACTTCTTGTTGTCGACGAAAGCGGAGTGATAACAGCATGCAACCAACACTTTGCCATG
TTGACCTTCGGCAAAGCACAGTCAGAGGTGATAGGTCATCAAATAGAAGATGTCATACAG
AACTTCTGTCGGGAATCCGATCTGGTGAAGATTCAAGATAGAAATAGAAATATGACTCTA
TCACCTGTCAACAATGATAACAATGATTCGGCTTCAGAAACCGGCGAGGACTCGTGTGGA
GCGTTCAACGGAAGTCAGAAATCTGCATGCACATCCCTAAATGTACAACAGTCGATGTTA
TCCACAACTAGAGAGAAATCCTCTAGCGCGCTGTGCCTCGACAAATCATACAGCATGGTG
ACACACACACCGACGCCCACACAGGATATGGTGTCAAGCATAAGCACGACGGAGCAGAGG
AATGATATATCAGCCCTCCCAGACGTCACTTCCGGCATGTCAGGAATTTCCATAGACGAT
GAAAACTACTGCCAAAGCAGCATATCCAAGTCGAGGTCCGAAAACATCCTTCGATCTGAA
CAGGCTATTATAAAGCAGTCGCCCAAAGTCAACGAGAAATCTGACTCGATTTATTACACG
TCCCAACACTCCCAGGAGGTCACGCCGACGGGAAACTCATCCAGAACTAGATTAAATGAC
ACGTCACTAAGACTATCGTTCGACTTCACCAAATGTAAAACGATCAAAGTCAAAGAGGAC
AAAAGCAGTGCGTCCCTAGATTTTTGTGACTCCAACGAGACGAGCGCTGATTTCTTGACC
CCCATCAACGAAATGCCGCCACCGGGCTGTGAAATTGAGGATTTACCGAAACATAACGGA
AATGACGAGAGCATGGACAGTTTAAGCAATGACAATGATCTGGAAACACAGACGGAATCC
GCACCCAGGAGGAAGTTTGACGACGAGCCAGAGACTCCTTGTATGACGAAGCGCCTGGTC
CGCGCCCACGTGACTTCGACACCGGCACAATCACGCCGCGACCTGGACGACTGGCGCCGC
GCCGACGGCACATACAGCGGCATTGTGCGGCACAAGGACGGCACTGAGCTCAACGTAGTG
TACACGGTGTCCAGTATGCAGCTGTCATCTCGTCGTATCGTGAGGTGTGTGTGGCTCGGA
GTGAGGGCGCACGAGCCGCGACATACAACACTCGCCTCCAGTCTCGCCTCCACGCTGGCG
TCAACTGCTGATAACTCACTGGTCGCGGGTAACAAGTCAGCGAGCAGCAGACATCAATCC
GTGTCTCTGATGAGCCAGTGTGGCGAAGAACAAATTGCGGGGGAGTACACCAAGCATTAC
GTCACTCTTAAACAAATAGGTAAAGGAGCTTATGGGTGTGTCAAAATGGCGTACCGAAGA
TCAGATAGATTACTAGCTGTTGCAAAATTCATTTTAAAGGAAAAGGTTGGAGCTGCATTC
TGGAGCGACGCTCCTGACGGGAGGAGGGTGCCGCTAGAACTAAGCCTGTTGATGACCCTC
TCTCATCCTAATATAGTGTCCGTCATTGATGTGTTCGAAAACGACAAATACTTCCAGATG
GTAATGGAAAAGCATGGAGCCGGTATGGACCTGTTTGAGTTTATAGAACGGCGACCGAGG
ATGGATGAACCGCTCGTCAGTTATATATTCAGACAGATAGGCCAGGCGGTGGAGTATCTT
CATTCCCTTAACATCCTCCATCGTGACATCAAGGACGAAAACGTCATAATTGACAACAAG
TTTCACGTGAAACTCATCGACTTCGGCTCAGCCACGTTCATGAGTAAAGATACTCTGTTT
TCAACATTCTACGGAACCACGGAATATTGCAGCCCGGAAGTACTCGCTGGGAACAAGTGA
Protein sequence:
MESARVLNLNRIAATDSLGFTPIKPRLRRFVDVYSPEHLNLTPKPKQKLDLVSNVGKLYS
TPDKPLSIDKECRTVKAHPNVCNAWGNCSFEGNQSFPRLSRKLRPLRMDLETPTKAKPAV
DLVRVDGPNGLRFNSSLATGDAASTPTQMDRLQQSINHSKAVFTIEPNTSKILIVNNKAC
SLLGYSSGELCDLRFSDLLRKRNSKAFSIHEAEDGDISEDGTMILLSGKVVELLTKDGSS
VQVSLWIRQLDSDGPCLVVAEPIICKNVVLTIDGDGIITSCEGEDGALLFQAESSDKLIG
LPVSSLIPSIHLPHDVPMSKSVSKQKATGRTLDGGSFPLCLWISKAHVENTWSSLKTKDK
PANKEKPVFIVNVRITYNVSGLLVVDESGVITACNQHFAMLTFGKAQSEVIGHQIEDVIQ
NFCRESDLVKIQDRNRNMTLSPVNNDNNDSASETGEDSCGAFNGSQKSACTSLNVQQSML
STTREKSSSALCLDKSYSMVTHTPTPTQDMVSSISTTEQRNDISALPDVTSGMSGISIDD
ENYCQSSISKSRSENILRSEQAIIKQSPKVNEKSDSIYYTSQHSQEVTPTGNSSRTRLND
TSLRLSFDFTKCKTIKVKEDKSSASLDFCDSNETSADFLTPINEMPPPGCEIEDLPKHNG
NDESMDSLSNDNDLETQTESAPRRKFDDEPETPCMTKRLVRAHVTSTPAQSRRDLDDWRR
ADGTYSGIVRHKDGTELNVVYTVSSMQLSSRRIVRCVWLGVRAHEPRHTTLASSLASTLA
STADNSLVAGNKSASSRHQSVSLMSQCGEEQIAGEYTKHYVTLKQIGKGAYGCVKMAYRR
SDRLLAVAKFILKEKVGAAFWSDAPDGRRVPLELSLLMTLSHPNIVSVIDVFENDKYFQM
VMEKHGAGMDLFEFIERRPRMDEPLVSYIFRQIGQAVEYLHSLNILHRDIKDENVIIDNK
FHVKLIDFGSATFMSKDTLFSTFYGTTEYCSPEVLAGNK