New model in OGS2.0 | DPOGS205511  |
---|---|
Genomic Position | scaffold699:+ 43433-81861 |
See gene structure | |
CDS Length | 3729 |
Paired RNAseq reads   | 7850 |
Single RNAseq reads   | 20726 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA011088 (1e-115) |
Best Drosophila hit   | JIL-1, isoform B (2e-124) |
Best Human hit | ribosomal protein S6 kinase alpha-5 isoform a (0.0) |
Best NR hit (blastp)   | ribosomal protein S6 kinase [Haemaphysalis longicornis] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to ribosomal protein S6 kinase, 90kDa, polypeptide 5 [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0004674 protein serine/threonine kinase activity GO:0006355 regulation of transcription, DNA-dependent GO:0016572 histone phosphorylation GO:0005524 ATP binding GO:0016740 transferase activity GO:0006950 response to stress GO:0005634 nucleus GO:0005515 protein binding GO:0042221 response to chemical stimulus GO:0007243 intracellular protein kinase cascade GO:0000166 nucleotide binding GO:0000287 magnesium ion binding GO:0009605 response to external stimulus |
InterPro families    | IPR000719 Protein kinase, catalytic domain IPR000961 AGC-kinase, C-terminal IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site IPR011009 Protein kinase-like domain IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR017442 Serine/threonine-protein kinase-like domain IPR017892 Protein kinase, C-terminal |
Orthology group | MCL11176 |
Nucleotide sequence:
ATGGCGACTGCAGAGATGAGTCTGCCTGACAAGAAACCAGAGCACGAGTCGGGATATTAC
GAAGGTAGCGACCAGGAGGGCAGCATGGAGTGCGGGTGCCCTTCGCCCGTCAGTTCCAGG
AACTCCTCACACTCCACCAAACATAAACATCGGCATAGTCACAAGAAGAAGGTGCCCCCA
AAGAAATTTAAATCCGATCAGCCTGTGAATGGTCACATCCATATAGACAAAAGTGTTGAA
ATTGTTGAGTATACAGTGAATGTGAAAGATAAGGCCGATGAACTGGCTCCGGTTGCTGGT
CCCAGCAAGCGGAGTAGTTCTGTTGAGTTGATCGGAAGCACAGTCCCACCTCCGGCTAGA
GATTCTATCGACTGGAACCTCGTTGAGGCCAGTAAGATTAGGAAAAGAGGAAAAGTTAAT
TTGAACAGTGCATCCAAAGTGGACATATCACATTTTGACTTGCTCAAAGTTTTAGGCACT
GGCGTTACGCTCGTGTCTGTCGGTTCAAGAGACTGTTACGCAACGAAGGACGTATCCTCG
GAAGGTCGTGGTCCGGGAATTTCCAAAGTTCACCTCCAGGGTTTTAGGGTTCACGGGTTC
AAGACCTGCCTCTGCCCTCCTACATCGTACGGTAAAGTGTTCTTAGTAAGGAAGAGATGT
GGTGTGGACGAGGGTAAGCTATACGCTATGAAGGTGCTGAAGAAGGCCAGCATAGTGCAG
AAACTCAAGACGGCGGAGCACACCAGGACGGAGAGACAGGTCTTGGAGGCTGTGAGGGCC
TGTCCCTTCCTGGTGACCCTACATTACGCCTTCCAGACAGATGCCAAGCTACATCTCATA
CTCGACTACGTGGCCGGCGGGGAGCTGTTCACACACCTGTACCAGCGAGAACACTTCCAC
GAAAACGAAGTCAGGATATACATCGCCGAGATCATACTGGCGTTGGAACAGCTGCACAAG
CTGGGCATCATCTACCGCGACATCAAGCTGGAGAACATCCTGCTTGATGCGGAAGGTCAC
ATCGTGTTGACGGACTTCGGGCTGTCCAAGGAGTTCTGCGGCGGAGAGAGCCGCGCCTAC
AGCTTCTGCGGCACCATAGAGTACATGGCCCCGGAGGTCGTGAGGAGCGGCTCCCAGGGA
CACGACATAGCTGTGGACTGGTGGTCTGTGGGAGTATTAACGTACGAACTGCTGACGGGT
GCTTCGCCCTTCACAGTCGAGGGTGAGAAGAACACTCAGCAGGAGATCACCAAGAGAATT
GTGAGATGCAGTTACCCCGTGCCCAACGACGTCAGCCCCGCTGTTCAGGACTTCATCAAG
AAACTTTTAGTAAAGGACCCTCGTCGTCGTCTAGGAGGCGGTGATGATGATGCAGAGGAA
TTGAAACGACACCCCTTCTTCCAGGACCTGGACTGGGAGGCGGTGTCCCGGCGCGAGGTG
GCCGCCCCGTTCGTGCCGCAGCTGTCGCACGCAGCTGACACGTGTAACTTCGCCGACGAG
TTCACCAGGATGCCGCCCACCGACTCGCCGGCACAGGCGCCCAAACACCACGACAAACTG
TTCCTAGGTTACTCATATGTGGCACCCAGCATCCTGTTCTCTGAGAACATCATCTCGGAT
CAGATCTGGCTTCAGGCGACCGGACAGAAGCACGAGAAGCTCAAGGGATGGATCGCTAAG
GACTCGCCGTTCTTCCAGAAGTATTCTGTTGACTTGAGCACTCCTCTGCTGGGTGACGGC
TCATATGCTGTTTGTAGGAAGTGTATACACAGACAGACGGGCAAGGAATATGCTGTTAAG
ATAATATCGTCACAGAAGAAGGACGTGAAGCAAGAGATAGACCTGCTGAAGACCTGTCAG
GGCTGTCCTTACATCATACAGCTGCATGAGGTGTTCCACGACACTGCGTTCACCTACATA
GTGACGGAGCTGGCGATGGGCGGTGAGCTATCCTCGGTGCTGGGCGCGGTCAGCGAGCGG
GTGGCGAGGAGGCTCATCGTGCAGCTGTCGCTGGCCGTTAGACACATGCACGCCAGGAGT
GTCGTGCACAGGGACCTCAAGCCTGAGAACATCCTGCTCAGCAGCACCCGGCTGCACGAA
GCTAAGGTGAAGGTGGTGGACTTCGGGTTCGCGAGGCGCCTCCCCGACTGTGACGACCGG
CAGAGGATGATGACGCCCTGCTTCAGCCTGCCGTACGCGGCGCCAGAGGTCGTGTCGTGC
GCGAGGGGCGCGGCCGCCGGCTACGGGCCGGGGTGCGACCTGTGGAGCTTGGGAGTTATA
TTTTACTGCCTGGTGTCTGGGCGGGCGCCCTTCTCTCCGGGGGGCCGGGAGCCGGTCGCC
GCGCTCGTACAGAGGATCAGGGCGGGGACCTTCACTATGGACGGTCCTGTTTGGGACAAC
ATATCCAATGACAGTAAACGTCTGATCGCCGGCCTCCTGGCCGTGGAACCGGCGGACAGG
CTGACCATCACGCAGGTGTTGCAGGAGCTGGGAGTTAACTGTGACGACGGGAGCGGGTTC
AAATTACAGGACATGACCAAAGCCGATCTCTACAAACGTCGCAGCAAGAACAAGCAGCGG
GGCTACAGTGACGGCGACCAGGGAGCGACGGATGCCGACAACGACCACGACACCTCCATC
ACGGACACGCTCGACACGCTGCACCGCATCAACAAGAACTCCATAGAACACGACGTGGCG
CTCATCAAAGCTAACACCGCGCACACGCCCGACGCCGGGGACCACCATCTCACGGAGGAC
AACTACGAAGTCTCTCCGCTCAAACCCGACATGACCAAAGCCGATCTCTACAAGCGTCGC
AGCAAGAACAAGCAGCGGGGCTACAGTGACGGCGACCAGGGAGCGACGGATGCCGACAAC
GACCACGACACCTCCATCACGGACACGCTCGACACGCTGCACCGCATCAACAAGAACTCC
ATAGAACACGACGTGGCGCTCATCAAAGCTAACACCGCGCACACGCCCGACGCCGGGGAC
CACCATCTCACGGAGGACAACTACGAAGTCTCTCCGCTCAAACCCGTGGAGAAGACCTAC
TCCAAGTCTAGATCCAAACTAGACGAATATATTTATATAGAGAGCAGCCAGGGACTCGAG
GACACGGAAGTAGCGTTCCCGAAAACCACGCGCAAGAAGGAGTCTGCATCGCCCCTACCA
GCGAAGAGAAGAAAAATAGACACCAGGTCCGCCAAGAAGACAGACTCGACCGCCGAGACA
CAGAAGAGAGGCAGAGGGAGGCCCAAGAAGAACGTAGAGGAAGTTAAAAACACGGAGAAG
AAAACTAGAAATACCAAAGAGTCCATAGAAAACGACAAAACTACACTCACGAGAGTCACG
CGGAAGAGAAAGTACGAGGAGATCGCGAAACCGGTGTTAAGGGAGAAGGGGCAGAACGGG
AGACAGTCTAAGAACAGTGACGGGAAGGTGGAGAACAGAAAGATAGCGAGGCCCAAGAGG
AATGTAGAAGTAAGAGTAGAACTGGACAACGTGAGGATGACCAGGTCCAGGAGGAGGAGG
CTGGAGGTGAGTCTGTCGCCCTCCGAGGTCAAGACTGTCATACCCGCCTTCTCCTTCGAG
TCGGACAGGAGAGTCAACTCCGTAGAGAGCAACAGGACAGCCGGCGCTAAGAACAAGAAA
GCCAAAGGCAAAGCGAAAAGACAAGCCAAGCCCAAACGATCCACACGAGCCCGCGCCGCC
AGGAGGTGA
Protein sequence:
MATAEMSLPDKKPEHESGYYEGSDQEGSMECGCPSPVSSRNSSHSTKHKHRHSHKKKVPP
KKFKSDQPVNGHIHIDKSVEIVEYTVNVKDKADELAPVAGPSKRSSSVELIGSTVPPPAR
DSIDWNLVEASKIRKRGKVNLNSASKVDISHFDLLKVLGTGVTLVSVGSRDCYATKDVSS
EGRGPGISKVHLQGFRVHGFKTCLCPPTSYGKVFLVRKRCGVDEGKLYAMKVLKKASIVQ
KLKTAEHTRTERQVLEAVRACPFLVTLHYAFQTDAKLHLILDYVAGGELFTHLYQREHFH
ENEVRIYIAEIILALEQLHKLGIIYRDIKLENILLDAEGHIVLTDFGLSKEFCGGESRAY
SFCGTIEYMAPEVVRSGSQGHDIAVDWWSVGVLTYELLTGASPFTVEGEKNTQQEITKRI
VRCSYPVPNDVSPAVQDFIKKLLVKDPRRRLGGGDDDAEELKRHPFFQDLDWEAVSRREV
AAPFVPQLSHAADTCNFADEFTRMPPTDSPAQAPKHHDKLFLGYSYVAPSILFSENIISD
QIWLQATGQKHEKLKGWIAKDSPFFQKYSVDLSTPLLGDGSYAVCRKCIHRQTGKEYAVK
IISSQKKDVKQEIDLLKTCQGCPYIIQLHEVFHDTAFTYIVTELAMGGELSSVLGAVSER
VARRLIVQLSLAVRHMHARSVVHRDLKPENILLSSTRLHEAKVKVVDFGFARRLPDCDDR
QRMMTPCFSLPYAAPEVVSCARGAAAGYGPGCDLWSLGVIFYCLVSGRAPFSPGGREPVA
ALVQRIRAGTFTMDGPVWDNISNDSKRLIAGLLAVEPADRLTITQVLQELGVNCDDGSGF
KLQDMTKADLYKRRSKNKQRGYSDGDQGATDADNDHDTSITDTLDTLHRINKNSIEHDVA
LIKANTAHTPDAGDHHLTEDNYEVSPLKPDMTKADLYKRRSKNKQRGYSDGDQGATDADN
DHDTSITDTLDTLHRINKNSIEHDVALIKANTAHTPDAGDHHLTEDNYEVSPLKPVEKTY
SKSRSKLDEYIYIESSQGLEDTEVAFPKTTRKKESASPLPAKRRKIDTRSAKKTDSTAET
QKRGRGRPKKNVEEVKNTEKKTRNTKESIENDKTTLTRVTRKRKYEEIAKPVLREKGQNG
RQSKNSDGKVENRKIARPKRNVEVRVELDNVRMTRSRRRRLEVSLSPSEVKTVIPAFSFE
SDRRVNSVESNRTAGAKNKKAKGKAKRQAKPKRSTRARAARR