New model in OGS2.0 | DPOGS206646  |
---|---|
Genomic Position | scaffold174:- 87468-116984 |
See gene structure | |
CDS Length | 3426 |
Paired RNAseq reads   | 802 |
Single RNAseq reads   | 1992 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000136 (2e-98) |
Best Drosophila hit   | CG4290 (5e-144) |
Best Human hit | serine/threonine-protein kinase SIK2 (7e-133) |
Best NR hit (blastp)   | hypothetical protein TcasGA2_TC007481 [Tribolium castaneum] (2e-162) |
Best NR hit (blastx)   | PREDICTED: similar to SNF1-like kinase 2 [Tribolium castaneum] (7e-146) |
GeneOntology terms    | GO:0004674 protein serine/threonine kinase activity GO:0006468 protein amino acid phosphorylation GO:0005737 cytoplasm GO:0005524 ATP binding GO:0000287 magnesium ion binding |
InterPro families    | IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site IPR017442 Serine/threonine-protein kinase-like domain IPR011009 Protein kinase-like domain IPR000719 Protein kinase, catalytic domain IPR015940 Ubiquitin-associated/translation elongation factor EF1B, N-terminal, eukaryote |
Orthology group | MCL17797 |
Nucleotide sequence:
ATGGCCGATCGCGAACGTCCTGCGAAAACCCCCATCAGGGTGGGTTTTTACGACATAGAG
AGGACCATAGGCAAAGGAAATTTTGCTGTTGTTAAGTTAGCCAGACATCGAATAACGAAG
ACTGAGGTAGCAATTAAGATAATAGATAAATCACAGTTAGATGCCAGTAATCTTCAAAAA
GTCTACCGCGAAGTGGACATCATGAAGAGGCTAGACCATCCTCATATTATTAAGCTTTAT
CAAGTAATGGAGACAAAGAATATGATCTACATCGTGTCGGAATACGCGAGCAAAGGGGAA
ATATTTGATTACATAGCAAGGTACGGTCGAATGGCGGAGCAGGCTGCTCGGAGAAAGTTC
TGGCAAATTCTGTCAGCAGTCGAATACTGTCACGAGAGAAGAATCGTGCACAGGGATCTG
AAGGCGGAGAATTTGTTACTGGATGCGAATATGAATATTAAGATAGCTGACTTCGGATTC
AGCAACTATTATGCCACTGGCGAGCTATTGGCCACGTGGTGTGGATCCCCGCCGTACGCC
GCGCCAGAGGTCTTTGAAGGGAAACGGTATACTGGCCCTGAAATTGACATATGGAGCCTG
GGGGTAGTGCTGTACGTGTTGGTGTGCGGCGCGTTACCCTTCGACGGCTCCACGCTGCAG
TCGCTACGGGATCGCGTTCTGTCTGGAAGATTTAGGATACCGTACTTCATGAGTGAGGAA
TGCGAGTCCCTCATTCGGAAGATGCTCGTCTTAGAACCTATGAAGCGGTACACGATAGAG
CAGATCAAGAAACACAGATGGATGTCGACGGAGCCGTACACGGCGCCCTCAGTGGCCTCC
GACCCTATGAGAAGCCCCGCCCACGTGGCACACCACAGCCAGGAACCGAACGAGCAGGTC
CTGCGACTGATGCAGAGCTTGGGCATCGATCCTGTTAAAACCAAAGAGAGCCTTCGCTCG
AACAGTTACGATCACCACGCGGCGATCTACCTCCTCCTGTTGGAAAGGCTGAGGGCAAGG
GCGGGAGATAGGAGGAGGAGACCGTCCTCCGTCGAAGCCAGGGAGGACTCCAGGAGGGAA
CACCATAGGTTATTACACGGCGAACAGTCACGCGAGTTCCGCGCCCCCACAGATTCGTCT
GCCGAGACCCAACGGTTGCTGTCTCTGGCTGCTGTCAATATGACGGAACAACGTCTACGA
ACAGATCCAGATACGCACAGAAGCTTCCTTGTAGCAAACCTGGACGTAAAGAACCCGGAT
GTAGAATCGAATAGACTCTCAATGAGGAACATCGAGGTGGCGCAATCGAGTCAGCGACTA
GGAAAATTGAATGAACCAGCGCATAGATTGCTGACATCGACGTATGAGCAGCAGCAGAAT
ATATTGAAACAGTCCAGCGAAGATTGTAGACGATTGTTGCAGCAATCGACCACCGTTGGT
CCAGAACCTAATAAGACTAATGATGGAAGGCTTTTGACGTCATCTAGTTTCGATTCCAAA
TGCGCTATCGACGGTGGTAGGAATACTGCGATGGCTGACCATAATGTTATAGCAAATTTT
CTTCAAAATTCAGCTTCTGCGACCAACTTCAGTGTGGAGTCCATGAAAATACCGAATTCA
ACGACTTTCACCATGTGCTCAGAAGCCGCGAAACTTATGAACACATTGCAACAGTCGCCA
TTACCTCTTAAAGGTACGGTAAATTTGAGCAGCAGTCCGATACCATCCCAATTTGCTGAG
TCGAAGCTAAGCTGTGTTTTAGAACAACAAAAGCCACTCGAGTCCACTAGATTGGTCTCA
CAGGCCCAACAACAGGATTTAAATAGATTGCAGACAAGTACTCCCCCATTCAAGGAATAC
ATGAATGCTCATCCGAGTTTTTCCTACCTCCAGAATGCAGTTGTACCATCGGATGCAAGT
TTTTCCATATCTTCAGCATCGAATGATTTATTTCCCAACAGCCTCTACAGGCCGGACAGC
AAATTTTCTTTAAACCGCTACACAACCGGACAAACATACAACCAAGTACTTCCCACGAAC
AACGAGCCTACAAAATTTCAACAGCAGTATTCTTCCTCGACTGATGAAGGTTGTGAGACA
GATATGGAGGACGTTCCCGCTATACAAAACAGCGTACAAAACAGACTGAGCTCGTACGCA
AGTTCTAGTTCAAGTAGTGGTGTTGTGACTTTTTTTAACAACAAGAGTCTCAGTCAAAAC
CTCAGCTGTGATTCATCTCAGAGCAATTTCTCTACATTCGAAAGTATTGATTACCAGTTG
TCAGATTGCTCGAGTGAATTGGCTAGCAGTCTGCCGAGTTGCACTTCCAACGACGACAAG
ACGGCATATGAAAACAGTTCGTTAGTAAATACAAGTCCGATGCATCCATGCGTCTATATT
TCATCGTACAACAATAAAAATAACGGTACAGGATTTATTGCGCGTCATAATCCAATCAAT
TATCAGTCTGCTAATAAAAATTGTACCCGAGATGTAACACGAAGTCCCGTTGATTTTCGT
GAAGGTAGACGAGCTAGTGACGGTTTAGTGGCGCAACAAGTACAAGCGAGTGATGCACAG
AAGACAACATTAGCATTTAACAGCCAGAGATTGAACGAAAGTTGTAAAGCAAAAGGAGTA
TTGGAATTGCATCTCGTGCAAAAAGAAGCACAGAAATTGAAAACTCAATACCAGTCGTCT
TTGCCAGCCGAAGAGATGACTCAAAGACAAATCCAGCACAATCAGTTCGCGGCTACATTT
ACACCGCACTTTTTGGATACTAAGAATCCCACTCCCAAGCGCATAAGTCTACCGGAGTCC
TTCAACTATTCAAGCACCTCTCCACCAATGCCGGCTAGTCCTAAAATGTCACTTCAAGAT
TCCGATTTAACACATACCTCTCTATCCCAAGTAAGTAAGCCTCCACTGCAACAGCAGTTA
ATGCAACACAGACTCTTCCAACAGAAGCGACAGCTGCAGAAACAAATGACCCCTACCAAT
GTCCACGACATGGGACTCCACAGTCTCCAAGTCGGTCTCAGCCGTAGACAAATGCTGCGA
CAACAAAGCTACAAGATCGCTCAACAGCAACAAATATTACCACCACTACCACTTACCGAA
ACAGAAAACCGCGATCTGCTAGCCTTCCAAGCGATAGTCGAAGATCCGAACAGAATCAAG
GACGATCAGGACGAGAAGTTCTCATACCAGGGCTCGATGGATATAACTATACATAAGGAC
AGGCTGGGCAATGAGAACTGGTCGAACTTACCGTCCAGTTTACAGAGTGCTTGTCAGATT
TCCGATATGGGAAGGAAAGAGACTTCATCCGAAGGAGGGGAAGGGATATGGGGGGGTCAC
AGTCAGTGGTCGACCACACTATTCCAGCCGCAGGCTTGTTTCCAGGTATTCCAACAGATC
AACTAG
Protein sequence:
MADRERPAKTPIRVGFYDIERTIGKGNFAVVKLARHRITKTEVAIKIIDKSQLDASNLQK
VYREVDIMKRLDHPHIIKLYQVMETKNMIYIVSEYASKGEIFDYIARYGRMAEQAARRKF
WQILSAVEYCHERRIVHRDLKAENLLLDANMNIKIADFGFSNYYATGELLATWCGSPPYA
APEVFEGKRYTGPEIDIWSLGVVLYVLVCGALPFDGSTLQSLRDRVLSGRFRIPYFMSEE
CESLIRKMLVLEPMKRYTIEQIKKHRWMSTEPYTAPSVASDPMRSPAHVAHHSQEPNEQV
LRLMQSLGIDPVKTKESLRSNSYDHHAAIYLLLLERLRARAGDRRRRPSSVEAREDSRRE
HHRLLHGEQSREFRAPTDSSAETQRLLSLAAVNMTEQRLRTDPDTHRSFLVANLDVKNPD
VESNRLSMRNIEVAQSSQRLGKLNEPAHRLLTSTYEQQQNILKQSSEDCRRLLQQSTTVG
PEPNKTNDGRLLTSSSFDSKCAIDGGRNTAMADHNVIANFLQNSASATNFSVESMKIPNS
TTFTMCSEAAKLMNTLQQSPLPLKGTVNLSSSPIPSQFAESKLSCVLEQQKPLESTRLVS
QAQQQDLNRLQTSTPPFKEYMNAHPSFSYLQNAVVPSDASFSISSASNDLFPNSLYRPDS
KFSLNRYTTGQTYNQVLPTNNEPTKFQQQYSSSTDEGCETDMEDVPAIQNSVQNRLSSYA
SSSSSSGVVTFFNNKSLSQNLSCDSSQSNFSTFESIDYQLSDCSSELASSLPSCTSNDDK
TAYENSSLVNTSPMHPCVYISSYNNKNNGTGFIARHNPINYQSANKNCTRDVTRSPVDFR
EGRRASDGLVAQQVQASDAQKTTLAFNSQRLNESCKAKGVLELHLVQKEAQKLKTQYQSS
LPAEEMTQRQIQHNQFAATFTPHFLDTKNPTPKRISLPESFNYSSTSPPMPASPKMSLQD
SDLTHTSLSQVSKPPLQQQLMQHRLFQQKRQLQKQMTPTNVHDMGLHSLQVGLSRRQMLR
QQSYKIAQQQQILPPLPLTETENRDLLAFQAIVEDPNRIKDDQDEKFSYQGSMDITIHKD
RLGNENWSNLPSSLQSACQISDMGRKETSSEGGEGIWGGHSQWSTTLFQPQACFQVFQQI
N