| New model in OGS2.0 | DPOGS213875 |
|---|---|
| Genomic Position | scaffold1364:+ 18404-33553 |
| See gene structure | |
| CDS Length | 4266 |
| Paired RNAseq reads | 2844 |
| Single RNAseq reads | 6651 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA013442 (2e-60) |
| Best Drosophila hit | Mekk1, isoform B (2e-93) |
| Best Human hit | mitogen-activated protein kinase kinase kinase 4 isoform b (2e-80) |
| Best NR hit (blastp) | PREDICTED: similar to Mekk1 CG7717-PB, isoform B [Apis mellifera] (2e-134) |
| Best NR hit (blastx) | PREDICTED: similar to Mekk1 CG7717-PB, isoform B [Apis mellifera] (1e-114) |
| GeneOntology terms | GO:0004709 MAP kinase kinase kinase activity GO:0006468 protein amino acid phosphorylation GO:0004702 receptor signaling protein serine/threonine kinase activity GO:0006950 response to stress GO:0000165 MAPKKK cascade GO:0005524 ATP binding GO:0006979 response to oxidative stress GO:0002385 mucosal immune response |
| InterPro families | IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR017442 Serine/threonine-protein kinase-like domain IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site IPR000719 Protein kinase, catalytic domain IPR011009 Protein kinase-like domain |
| Orthology group | MCL15323 |
Nucleotide sequence:
ATGAGTTCCGGCGCAGATAACGATTGGAAAAAGAATTTAGGATTTCCAATAAACTACGAC
TCGGGACAAAGTACGGATGAAGACTTAGATACCAAGGATGTCGTGATGAGACATCCGCAG
CAGTCGTCCAAGTATCTGCTGGCAGAAAACGGGGATGGCTCGGAGGCTGACCTCCTGGGA
ACAACTCCTCCACGAGCTTGCATCAGGGATAAAGAGAAGAGACGGAACATTTTTGATTCC
GGCTTATATAAGCCTTTGGTGGAAGGGAAGAGTGTCATAGAACCACCACTGCCTCCAGAG
CGTTTTAAAAAGCGAACCAGTCTTAAACTTATAAGGACCAAGGAACGTGACTGGAAGGAT
GGTCAACGGGAGACCCGAGCTGATTCATTACCTTCACCCAGCCCTCAAGCGGCTGTTCCG
ACTTTGGTGGAGTCGTGCAATCGCTTTATGTCCCTCACCTCACGGCTCAAATGCAAAGAA
GAATGTGAGGAGGTCCAAGAGCGGCATCAAGACGACGAGCTGCCAGCCAGCAGGGTCGAC
TTCCACAGCACGTTCAGTATGCTCATCAACATGGGAAACATTGATAAAGGATGTCGGAGA
ACGATCAGCCACGAGGAGCAGGTGTGGCAGAATGAACTCAAGGATCTCATCTGGCTGGAG
CTGAAGGCAAAACTGGCGGGGCGGACCCTGGCGGCACAGGATGAGGAGCTGTGCGTGAGG
AGGAGCCTCGTGTCGGGGATCGTGCAGAGAATTAAGGAATATAGATTTGAGAATCCCACG
CCGTGTCGACATCGCGCTCGGAGACTGGCGACTATCGACGACTCAGCTGAAGATCCGCAG
AAAACAGGCTCTGACGAAGTAGTCACCGAGAATGAGGAGGACTTCATATGCATCTGCATC
GACTGCACCGCGTGTACGGCGAGCGTCGGGGCGGCCATGAAGCAGGTGGCGTCGCTGCTG
GAGGCGGTTGACTCGGCCGTGGAGCTGTACCCGTCCAGCTGTGCAGCCGCCGCGGACCAC
CCCGCACTCTTCGAACCGGAGGTCACCAACAGACTCAAGGCGATGTGTCTGTGGTACAAC
ACGGCGCTCCACATGCGACTCAAAGTGATGTCCGTCCGTCGGATGTTGCGCTATGTGCGC
GAGAAGACGAGGAGGCACTACAGCGTCGCCAGCAACAGGAAATTGTCTGTCGCCCAACGA
ACGTCTCAAGTCCGTTTCAACGTGAGCACCAGTCCCAGTGACTCCAACAACAGTGACGCC
AGCGGCAACTCCGACAGTAGACCCGAAAAACATGCAGACGGAGACGCGGACAAAGACAGG
AGCGAGAAAGACGAGGCGGAGAAAGGAACAGACGTCGTCGACAGCGGATACGGAAGATCA
GACGCCGACACACCCGAGGTCGTAGTGTCGGACCCGTACAGCACCACCGACACCACCGTC
TCCAGCGAGTCGGGGTACACCTCGGAGGCGGAGGACCCCTCGGACGTGTTCGAGCTGGGA
GGGCTGCAGGACGTAGCGCAGCTCCGGCTCATGGGACGGACCGACGTGTCCGCGTACCGA
GACTACCACTACGAGATGCTGAAGACGCAGGGCGTGCGGCGCTGCATGACCTTCATGAAC
AAGATGTGCAACAAACTCCTCAACAAGGTGTACCTCACGCTGATGGACCCCCAGGAGCCG
GACGGCGAGCATCACAAGCACCAGGCCAGTGACAAGAACAATTACGAGTTCAGGAGGAAC
CACTTCCTGTTGCTAACCACCATCTCCATGGAGGCGGTGCACGACTACCTCACCATGAGG
CTGGAGGGCCGGCCGGACCACCCCTCGTGTCTTACCGTCAAACAGCTCATCCACGAGCTG
AAGGAGGGTCTGGACATAGCGGCGGAGACTCGCGCGTCCTTCGCCAGGAACGTGCAGGCG
GCTCTCAGGAACGCGAGGGTTGCGGAGCGGGCGCGGGGGGAACTCGCTCATGTACTGCAC
ACCTTCGATAATACTGTCGAGACAGCGCTACAGCAATACCTGTCGTACCTGAGCAAGATG
TCGGAGACGGAGCCTCTGAGCCGAGCTCGTCTGTCGTCCGAGTGGAGCTTCACCAGCAGA
CTGGCAGCACGGGCGCCCCCCGCCGCATACCTCGCACCACCGGCCTTCGCAGACATGGCG
TGTAACCAGCTGAAGCGGGTCCTCAACAGGTTCGAGGAGAAGTTCCATCAGGTCATGGAC
ATAGAGCAGAGCGAACACTCGGAGGCGGAGGAGAGGTACCTGGTGTACGCCTTGTGCCGT
GAGACACAGACCATCTACTCCAGCGAGCGGGAGGCGGCGCTCCAGGCGGCTCAGTGGGCG
AGGTCGCTGGCCGCCAAGATCGCTCACACACACCGGCAGCACTCTGATAGGATCTTTGAA
TGCCTCATGGCCATCCGGGATTGTTTGGTTCGTCACACGGACATCATACTGGAGAAGAGC
AAGCCCCTGACCCTGGAGATGCCCAAAGACATGAGGGAGTCTCTGGGAGGAAGGGTCAGG
GAACTGCTGCTGCAGGTGTACAAGCTGGGCTTCGAGCTGCACATGGAGCTGCACAGGTTC
GCGACCCCCGCCCGCCCTGTGCCACGACGGCCGGTGTCTCTCCAGCCGGTGCCGCCCAGC
CGCCCTCCGCCAGCCGCCACCAGGCCGGGGACTGTGCTGATAAACACACACATGATGCAC
AAAGAACTTTATAGGTTCGTGAATGAGACGCCGCAGAAGACTCCGACGAAAGGAACCTCG
GGCTCGCCGCGGAACATCCGCTTCGTGAGGTCGGAGAGTATAGGGGAGGAGGCGGAGCAG
CCCGCGGACGACCAGGCCGTGATGCCTTCCACGGACATCGAGGTCCTCCTGTCGGGTCCT
CGAGGTCCCGAGTCCCCGGTCCTTCGGCGGCGGGCCCCGTCGCCGCCCCGCTCGGACTGT
AAGCGTGTCGCTCGAGCGGTCATCGAGTTCGCCAAGTGCTGGATGAAGTTCGTGGTGGAG
CGATGTGACCGCGGCCGAGGACTGCGGCCGAGGTGGGCCAGTCAAGGACTCGAGTTCCTG
ATGCTGGCTTGTGATCCCTGCAACACCAAGCATCTCACGGACGAGGAGTTTGAGGACCTG
AAACAGCTGATGGACGGATGCATCTCACACGTGATCGGCTCACGGGCGGCCTCCTCACCC
GCGCCACCCCGGGCCAGGCATCGGTTACATAGCCCCCTCCCCCCGTGCCCCGCGACCTCT
CCGCCGTCCGAGAGAGATGCGCCGCTGTTGCTGCACAGGCTGGACGATAACGTGTACAGC
AAGCGCATCCTGGAAGCCGTGCAGCATCTGGACGAGTCCCGGGACGAGAAGCTCCGCTCC
GCCAAGGCCGTGGGCCGGGCGTTGGAATCCACCGTCAGGAGCTACGAGCCCAAACTCAGA
CAACTCACATTCAAATGGCAGAGAGGACTCAAAATAGGCGCTGGCACCTTCGGAAAGGTG
TACACGGTGGTGAACACGGAGAGTGGCCAGGTGCTGGCCATGAAGGAGCTGAGTGTGGGC
GCGGGGGACCGGCGGGCGCTGCAGCGGGCGGCCAACGAGCTCAGGGTGCTGGAGGGAGCC
GTCCACCCACACCTCGTGCGCTACTACGGCTGCGAACTGCACCGGGAGGAGATGTTGATC
TTCATGGAGCTGTGCGTGGAGGGCTCGCTGGAGGCTCTGGTGGCCACTTCCGGTCCACTG
GCGGAGCACACCACCCGCCGCTACACCAAGCAACTGGTCAGCGCCGTCTCCGAGCTACAC
AGTCGGTCCATCGCTCACAGGGATATTAAAAGTGGTAACATATTCCTAACGAACGAGGGT
CACTGCCTGAAGCTGGGGGACTTCGGATGCGCCGTCAAGATACGAGCTAACACCACCGCG
CCCGGGGAGCTGCAGGGCTTCGTGGGGACCCAAGCCTACATGGCCCCCGAGGTGTTCATG
AAGTCGTCAGGTCACGGTCGCGCCGCAGACATCTGGTCTCTGGGGTGTGTCGTCACAGAG
ATGGCCTCTGGGAAGCGGCCCTTCTCAGAGTACGACAGCAACTACCAGATAATGTTCGTG
GTGGGTATGGGGGGCCGGCCTCACATCCCGGACACGCTCTCCGAGGAGGGACAGATGTTC
TGCGTCAGCTGTCTCACACACGACCCTGACCAGCGGCCCAGGGCGGAGGCTCTCAGTCTG
CATCACTTCTTGATGGTGAAATCCGACGACGACTACAAGTGTGACCCGGCCTACCTCATG
ACATAG
Protein sequence:
MSSGADNDWKKNLGFPINYDSGQSTDEDLDTKDVVMRHPQQSSKYLLAENGDGSEADLLG
TTPPRACIRDKEKRRNIFDSGLYKPLVEGKSVIEPPLPPERFKKRTSLKLIRTKERDWKD
GQRETRADSLPSPSPQAAVPTLVESCNRFMSLTSRLKCKEECEEVQERHQDDELPASRVD
FHSTFSMLINMGNIDKGCRRTISHEEQVWQNELKDLIWLELKAKLAGRTLAAQDEELCVR
RSLVSGIVQRIKEYRFENPTPCRHRARRLATIDDSAEDPQKTGSDEVVTENEEDFICICI
DCTACTASVGAAMKQVASLLEAVDSAVELYPSSCAAAADHPALFEPEVTNRLKAMCLWYN
TALHMRLKVMSVRRMLRYVREKTRRHYSVASNRKLSVAQRTSQVRFNVSTSPSDSNNSDA
SGNSDSRPEKHADGDADKDRSEKDEAEKGTDVVDSGYGRSDADTPEVVVSDPYSTTDTTV
SSESGYTSEAEDPSDVFELGGLQDVAQLRLMGRTDVSAYRDYHYEMLKTQGVRRCMTFMN
KMCNKLLNKVYLTLMDPQEPDGEHHKHQASDKNNYEFRRNHFLLLTTISMEAVHDYLTMR
LEGRPDHPSCLTVKQLIHELKEGLDIAAETRASFARNVQAALRNARVAERARGELAHVLH
TFDNTVETALQQYLSYLSKMSETEPLSRARLSSEWSFTSRLAARAPPAAYLAPPAFADMA
CNQLKRVLNRFEEKFHQVMDIEQSEHSEAEERYLVYALCRETQTIYSSEREAALQAAQWA
RSLAAKIAHTHRQHSDRIFECLMAIRDCLVRHTDIILEKSKPLTLEMPKDMRESLGGRVR
ELLLQVYKLGFELHMELHRFATPARPVPRRPVSLQPVPPSRPPPAATRPGTVLINTHMMH
KELYRFVNETPQKTPTKGTSGSPRNIRFVRSESIGEEAEQPADDQAVMPSTDIEVLLSGP
RGPESPVLRRRAPSPPRSDCKRVARAVIEFAKCWMKFVVERCDRGRGLRPRWASQGLEFL
MLACDPCNTKHLTDEEFEDLKQLMDGCISHVIGSRAASSPAPPRARHRLHSPLPPCPATS
PPSERDAPLLLHRLDDNVYSKRILEAVQHLDESRDEKLRSAKAVGRALESTVRSYEPKLR
QLTFKWQRGLKIGAGTFGKVYTVVNTESGQVLAMKELSVGAGDRRALQRAANELRVLEGA
VHPHLVRYYGCELHREEMLIFMELCVEGSLEALVATSGPLAEHTTRRYTKQLVSAVSELH
SRSIAHRDIKSGNIFLTNEGHCLKLGDFGCAVKIRANTTAPGELQGFVGTQAYMAPEVFM
KSSGHGRAADIWSLGCVVTEMASGKRPFSEYDSNYQIMFVVGMGGRPHIPDTLSEEGQMF
CVSCLTHDPDQRPRAEALSLHHFLMVKSDDDYKCDPAYLMT