New model in OGS2.0 | DPOGS203740  |
---|---|
Genomic Position | scaffold1271:- 15793-27384 |
See gene structure | |
CDS Length | 3453 |
Paired RNAseq reads   | 1091 |
Single RNAseq reads   | 2834 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA013407 (8e-134) |
Best Drosophila hit   | Ret oncogene, isoform D (2e-16) |
Best Human hit | dual serine/threonine and tyrosine protein kinase isoform 1 (1e-94) |
Best NR hit (blastp)   | dual serine/threonine and tyrosine protein kinase [Apis mellifera] (8e-128) |
Best NR hit (blastx)   | dual serine/threonine and tyrosine protein kinase [Strongylocentrotus purpuratus] (3e-110) |
GeneOntology terms    | GO:0004672 protein kinase activity GO:0005524 ATP binding GO:0006468 protein amino acid phosphorylation GO:0004674 protein serine/threonine kinase activity GO:0016301 kinase activity GO:0005737 cytoplasm GO:0016740 transferase activity GO:0004713 protein tyrosine kinase activity GO:0000166 nucleotide binding |
InterPro families    | IPR017442 Serine/threonine-protein kinase-like domain IPR011009 Protein kinase-like domain 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 IPR000719 Protein kinase, catalytic domain |
Orthology group | MCL18030 |
Nucleotide sequence:
ATGGCGGGCGGCGCTTGGCGTCGCAGTGCGGCCCGCGCTCGCACGCTCCGGAACCTATTG
CGCGACACGACACGCGCTTTACAAGAGATACAGGATGTGTTAACCGTCGACCCAGAAGTG
GAACGCACGATTCAAGACATCACCTCTCAGTCTTCGCGGCCAACAGCGCTGGTGGTGATG
GGTTGTTCTCCCAGTGCTAGGGCCAGGTTATTGAACTGTTTGTTGGGTAGAAGGCTCCTA
CCTGAAAATCTCCCCCGAGGGTCCAAATGGTTACACATACAATACGGGGCTACCACTCAA
GCGCACTTGACCGTTGGTAACTCTGAATTCGAGCTTGTTGAGGTCTTGGAGTGCAATCAG
GGACCATGGGATACTTTACCTGTACAGGACATCGCTCGCCAAGATCACACAGACTTAGGG
ACGATGCTTGAAGTGGAGATAAACAATTCATTCCTAAAAGATGGCCTCAAAATCATCGTC
CCACCAGACGTCATGGACCCGGGGATGGCTGATTACGCGACTTTGAAACATTTAAACGCA
GATTTATACCAGAGGAGAGAAACAATACTGAAGTCGTACAGTCCCGTGTACTTGTACGCG
CTGGACAAATTCGGTACAAACATATTCAATGATAACATCTGCAACAAGATGGACTCTTCG
AGGAATGAAGACGACTTCTGGTCGACCTTCAACCTTTATTACATGTTGAACAATGAAAAG
GTCGAGAAGAAGGTGGAAATGTCAGAAGATCTTTGGAAGGAAGCTGCCGATTCTGTCTTC
AGTGCTGAGAACTGCCTTGATCTCCATCAAATCAAGGACATAGACAGCAGTTCTCAAGTC
TTCTTCGTTCTCTTCTCGGACAGCAGAGCAGAAGAGAAGCTAAGAGATCCCCAAAGTGAT
GCGACGGAATCGACTGAGTCCGTTTATAATAGCGAGGAGTTACCAGAATCTGATCAACTG
ATGAAAGTCGTTGGCCGGGAGTGTTCCATCCGTCGTCTGCACGAGGAACACGCCGCCTTC
ATGAACGATCTCCTCGACCAGTGGGAACTCATCACCAGTCCGCCAAAGAAACACCACGTG
AAAAGCCAATGGACCATCCTGAACGACAAAGAGTTGTTCAGGACCGTGGACAAAGAAGAC
AATAAGAGGAAGAAAGACGACAACGATGTAACCGTAAAGAATAGAAGTAGTTTACTTAAC
TTGATCCTCAAGTTCGCGACGGAGACTTCACAGACCTACTTGTTGGATCAATGCACTCGG
CTGAGTGAGCTGCACGTGAAGTTACTCCAGCAGTTCATCCTGGCGTCGTTCGACCTGGCT
CGTGAGTTGCAGGTGGTGCCTCGCAAGATACAGTACGTAGCCCAGCAGGAACAACAGCTG
TACGAGGGCGATAAAAAACGAGAGCTGGTTCAGATGATGCAGGAAGTGTTGGACGAAATA
CAGACAGACATCAACGACATGGACTGGAGCGTGGACGACCTTCCCTGTCACCAGGACAAG
CGCTTCACTCTATCCAGTTCAATTTTTCATTCAACCAGAAGCAAGTCTCTATCAATAAGG
TTAACAGAAGTAGCGAAGCCATCAGACCTCATGGTGCCAGATGTTCCAGAAGTATCTTCG
GATGTCGAAGAGGCCGTGTCCTATGATAGTTATAATTTCGATGACTTCGAAATCATACAC
TCCAATGAAGAGAATCCCAGTAGCGAGTGGAGTCGGATGTCACCGTCAAGTTGTACGTCA
TCGTGTGCTCGTGTGTCCACTAAACAAGCAGCGTTGGATGTACAACATACTGTTCTTTCA
AGACTGAGTCAAAAAATAAGTTTGAAGCTAGTGAAATTTGTTGACTGCTTGAAGGTTAGC
TACTTCGGTACTTTACAGAGATCTGGAGCTGGCGAGTTATTGTCGTCTCCCTCTCTCACT
ATCTCCCTCTCTCTCACCAGATGTCTCGAGTCGCTAGAGGGTTCGTGTCGCAGTGAGCTG
GGAGGTCGTCCAGCGAGCGAAGCAATGCTGCAGCTTCTGTCGGTAGCTCGTGACGTAGAC
CTCGGGCCCTGCGCCTCCGTTTCAGCCCTCAGAGACCTGCTAGACTCACTGAGGAGATAC
AAATCAGCCACTCTAAACATAATATTGCGACTGGCGTGTCATCTATCTGAATGTCTCATG
TGCTGGTGTAGTCTTCGTCTGTCGGCCGCTCCCGAGGCGGAGTGCTGCGCTCTGAGCGCT
GCCTGGAGACGACGCGCTGCCTCCAGGGCGGCGCGGAGACTAGACACGCACACACTCGCA
CGGATCATATCGGAACAGATATTAGAGAGACTGAGCGTAGCCCACGAGCGGTACCAGTCA
GCGCTGAATTCGCTGGAGACAGCGCTGGCAAGTCGCTTGCATCACACCGAGGACGTCAAA
CTTGCTATACGAAAGAAGTTCGCCCCATCGTTCGCTCGCTTGTGTCTGGAGAGTACGTCG
ATGTGCGACCTGCTGATGTATGGGATGCCGGAGCTTGGCAGAGAGATCGGTCGCGGTCAA
TACGGCGTAGTGTACTCCGTGAGAGGGTCCTGGGCGGGTCACAGTCCGGCCGCCGTGAAG
TCGGTTCTCCCGGCCGACACGAGGCACTACCGAGAACTCGCTATGGAGTTCTTCTATACC
AGGTCTATACCGGCACATCCGCGTATTGTTCGTCTGCTCGGATCGTTGGTTCAGCGCGGG
ACTTCCCCGTGTGTGTTGCTCGTCTCTCAAAGGTTCACCAGAGATCTCCACGCCGCGGTC
AGACACGGCCTGCCGTTTGATACCAGGATGAGGATAGCCTGTGATATCGTTGAAGGGATC
CGTTACCTACACTCGCTAGGTTTAGTTCACCGGGACGTTAAACTGAAGAACGTTCTGTTA
GACTCGTGTTGCCGCGCGGCGTTGTCCGATCTAGGTTTCTGTACAGCGGGCGCGTTGCTA
TCGGGCTCTGTGGTTGGAACCCCAGTACACATGGCGCCTGAACTATTGGCTGGGAACTAC
CACTCGGGAGTCGATGTTTACGCTTTTGGTGTGTTGTTTTGGTATCTTTGCGCTGGCAAC
ATTAAACTACCCTCCGCATTCGAGGCTTTTCAAAATAAAGAACAATTGTGGAGCAAAGTA
AAGAGAGGTCTCCGGCCGGAGCGCCTGCCTCACTTCTCGGACGCGTGCTGGGATTTGATG
CAGGCCTGCTGGGCCTCCGAGCCGGAACAACGCGCGCTGTTAGGAGACGTACAGCCGCAG
CTCGAGAGGATATTGGAAGAAGCGAGGGAGAGGGGCGAGGGGGAGGAGAGGGATAAAGAC
GGGGGGAAGAGATACGACGAGGAGGAGGACAGTCTAGATATGACAGGGTTGGAACAATAT
AGAAATAATGATGATTTTTCTAATAATTTTGTTTGTTTAGTTGGTCTTATAGTGTGTGTC
TTAATCTACGCTTTGAGTTACCTCTTTTTATAA
Protein sequence:
MAGGAWRRSAARARTLRNLLRDTTRALQEIQDVLTVDPEVERTIQDITSQSSRPTALVVM
GCSPSARARLLNCLLGRRLLPENLPRGSKWLHIQYGATTQAHLTVGNSEFELVEVLECNQ
GPWDTLPVQDIARQDHTDLGTMLEVEINNSFLKDGLKIIVPPDVMDPGMADYATLKHLNA
DLYQRRETILKSYSPVYLYALDKFGTNIFNDNICNKMDSSRNEDDFWSTFNLYYMLNNEK
VEKKVEMSEDLWKEAADSVFSAENCLDLHQIKDIDSSSQVFFVLFSDSRAEEKLRDPQSD
ATESTESVYNSEELPESDQLMKVVGRECSIRRLHEEHAAFMNDLLDQWELITSPPKKHHV
KSQWTILNDKELFRTVDKEDNKRKKDDNDVTVKNRSSLLNLILKFATETSQTYLLDQCTR
LSELHVKLLQQFILASFDLARELQVVPRKIQYVAQQEQQLYEGDKKRELVQMMQEVLDEI
QTDINDMDWSVDDLPCHQDKRFTLSSSIFHSTRSKSLSIRLTEVAKPSDLMVPDVPEVSS
DVEEAVSYDSYNFDDFEIIHSNEENPSSEWSRMSPSSCTSSCARVSTKQAALDVQHTVLS
RLSQKISLKLVKFVDCLKVSYFGTLQRSGAGELLSSPSLTISLSLTRCLESLEGSCRSEL
GGRPASEAMLQLLSVARDVDLGPCASVSALRDLLDSLRRYKSATLNIILRLACHLSECLM
CWCSLRLSAAPEAECCALSAAWRRRAASRAARRLDTHTLARIISEQILERLSVAHERYQS
ALNSLETALASRLHHTEDVKLAIRKKFAPSFARLCLESTSMCDLLMYGMPELGREIGRGQ
YGVVYSVRGSWAGHSPAAVKSVLPADTRHYRELAMEFFYTRSIPAHPRIVRLLGSLVQRG
TSPCVLLVSQRFTRDLHAAVRHGLPFDTRMRIACDIVEGIRYLHSLGLVHRDVKLKNVLL
DSCCRAALSDLGFCTAGALLSGSVVGTPVHMAPELLAGNYHSGVDVYAFGVLFWYLCAGN
IKLPSAFEAFQNKEQLWSKVKRGLRPERLPHFSDACWDLMQACWASEPEQRALLGDVQPQ
LERILEEARERGEGEERDKDGGKRYDEEEDSLDMTGLEQYRNNDDFSNNFVCLVGLIVCV
LIYALSYLFL