| New model in OGS2.0 | DPOGS206901 |
|---|---|
| Genomic Position | scaffold1:- 1347074-1356991 |
| See gene structure | |
| CDS Length | 4080 |
| Paired RNAseq reads | 2954 |
| Single RNAseq reads | 7026 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012856 (2e-143) |
| Best Drosophila hit | sticky (5e-12) |
| Best Human hit | citron Rho-interacting kinase (7e-13) |
| Best NR hit (blastp) | PREDICTED: similar to rho/rac-interacting citron kinase [Nasonia vitripennis] (3e-32) |
| Best NR hit (blastx) | PREDICTED: similar to citron isoform 2 [Apis mellifera] (3e-35) |
| GeneOntology terms | GO:0004674 protein serine/threonine kinase activity GO:0019992 diacylglycerol binding GO:0006468 protein amino acid phosphorylation GO:0000910 cytokinesis GO:0005524 ATP binding GO:0023034 intracellular signaling pathway GO:0005083 small GTPase regulator activity GO:0000915 cytokinesis, actomyosin contractile ring assembly GO:0000281 cytokinesis after mitosis GO:0005826 actomyosin contractile ring GO:0007109 cytokinesis, completion of separation GO:0032956 regulation of actin cytoskeleton organization GO:0006325 chromatin organization |
| InterPro families | IPR001180 Citron-like |
| Orthology group | MCL24220 |
Nucleotide sequence:
ATGGACCCGGCACCCGCACGACGTTTAGAACGTCAGATAGAAGTTGAGAAAGAAGAACGG
AGAGCTCTCCAGAGGTCCAATCAAGAACTAACTGATTGTATCAATCAAAGAAGTAAGTCA
GAGCTTAAGGCTGTACAGGCGCAGGCTTCAGAACTTCAAACAGAAAGGGATTCTCTGAAG
GAGGATCTCGCAAGGTTGGAAGCTCGTGTCAGAGAACTGCAAATAGAATGTAACAATGCT
TTGGCTGAGGCAGACAGCGCTCGAGCGCAACATAAACATTACAAGGATATCGTACATCAC
GTGCATGAATTACGCCATAGATGGCTCACTGAAATTAATGTGAAGCCTATCGATACCATA
GCTCAGGAGCGAGCTCTTCGTCGTCAGACTGTATGTGGTAGCGAGGCAGCGGCGGAGGGG
GCGGCGAGAGAGGCTCGTGCTAGGAAACACGCCGAGGAACAACTGGCCAAGTCTGAGGAA
CAACTACAGCGGCTTAGAAAGGATTTAGACGCGGCTAACGAACAGGCTGATAAAGCACAG
GAGTTACTACGTGATAAGGAGCGCATAATCACCACTGCTAATGATCAGATCATTGACTTA
CAGACACAGCTCGCTCAAGAGCGAGTGCGGGCCGCTACGCTCGCAGCTCAAGTACAGGCC
GCGGAGCGTAGTGTTAGCGAGGCTGTAGCTCGTGAGACAGCGCTTGAGGAGCAGAGTGAA
CGTACACAAGCAAGATTGCTGCAGCGACTGGAGGCAGCAGACAGTCGTCTTGCCGCCGCA
CTTCACGACCACGGCCGACATGCTGAGAAGGTCACTACTTTGGAGCAGTTGGTAAGGCAA
TTGGAACGCGAAGTAAGCGCCCTAGAGAACCGCTCGTGTCCTCGGTGCGTGGAAAACGAA
GCCAAGAAAGTTCAAGTGACCAGTGGAACAAACACCGAAGACAGTGAAGACGCGCTGGAA
AATAGAGACAATAGGAGTGAAACTGAGAGCTATGGGGATGCGACTGCCCATGCTCAGGTG
TCGCTTCTAAAGGAACAACTAGAACGTGCCGAGGCTCAACTACTGACTCGCGGCGAGGAA
ATTGCAGCTTTGCGTCAAGAAGCTAGAACAGCCAATTTAGCGAGATGGAGGAAGGAGAAG
GAATTTAACGACTTGTCGATTGATGCCAAAGTGACAGCGAGGGATTTAAAACGTAACGAA
GAGCGTTTACAGTCGGCACTAGAAGCTCGAAGGTCTGCGGAAGACAAGGCCGCGCTGGTG
CATAAAGAAATTACTACCCTAAAACCTCAACTGGAACTGTTGAAGAAAGACGTCGATCGA
TACAAAGAGCTGGCTGAGAAATTACAGAAAAGTAATGAAGTGTTGCAGGTGGAAGTGGAC
AGATCTAGAAACGACATCCGCAAATTAAAGAGCGAGCTGCAGTACAGTGAGCAGCGTAGA
CTGCACGCGGAGCATCACGAGCAGGAGGCGACCAGTGAGAGAGACAGACTGAGGTCGGAG
CGGGCGCCCCTCGTGGAAGAAAGAGACGGATTGATGCAGAACAATAAAGCGTTACAAGAA
GCCTGTACATTATTGGAAGAACAGCTAACTGACCTCGAAAAACTGGCGGATCTACATGAA
CTCAAAAATAAGGAGCTCGAGATGGAACTGTCTCGCGTGCGGAGCGAGTTGGAGAGCACA
CGGACGCGTGCTGTTGAGGCAGAGCGGAACGCTGCTGAACAAACGGCCATCGCTCACAAG
GAGAGGAGTGAGGGGGAACATGCCAGGGAACAACTGCGACTGGCCAACGACCAGCTTAAC
ATACTCAGGGAGCGTCTCGCAAACCGTGAGGACTTAGTATCAGAGCTGGAAGCTAGAGTG
AGTGAGTTAGAGGGTGAGGCTGGGGCGAGGGATGCGGCGATGGGTGGAGCTGCGAGGAGG
ATGCGAGCTCTACAGGAGGAGGCGGCCGCATTGAGGACCAAAGCACACGCTCACCATGCA
GCGGCCGTCAAACTTCAAGCGGAGCTAGCAGCCGCTCAGGAAGAGACAAGTGCAGCCCAC
GAGGCCCACGCGGCGGCCGCGGCCTGGTGGAGGACCCGGGAGACGAAGGCGGACGCCACT
ATGAGACAACAGGCCAAACTCATCGACTTCTTACAGGCTAAAGTGGAGGAAGCGGGCAGA
AAGAAATGTTCGTTGGGTAACAAGTTGTTCGGACGTTCTGGTCGGCGTACTGCAGCCTCA
CCGCCTCTACTACGCGTCAACAGAGAGCTGCGTGAAGAAGTTGAGCGACTGAGAGCCAAG
CTAGCAGCAGCAACGTCCACTGATGCCCACTTTCCTCCTACACCAAGAAGAGATAGGAAG
GTCGATAGACCAAAGAAGTTTGCGAATGGATACCTCGACAACGACGCGTCGGATCCAGAT
TCTGTACTAGTCATCTGGGCTGACGGTAACAGGGAGCATATGAACGCTCGATGCGAGGCG
TCACTTATAGTTTTTAAGAGAAACGATCAGACACTAAGAGGTCGACTGTGTCCCGACCGC
TCTCTCATACACCTACCGCATAATGAAGCCAATCGTGCTTTTGGGATAAAGCTAGAAAAA
TCAGACGGTGGCATGGAAGCCATAGTGGTTTGCCCGAGTATAGCAAGTAAATGTGACTGG
GTGTCGCGTCTGACGCCTGTCGTCCAGGGAGGATTCCAACCATTGACTCTCCTACAAACC
AAAACAAACCCAACCACCGCTTTATACTTCGCACCCGTCGCTTTAGCTATAGGTTCCAGT
GACGGCCTTCATTCTCTGCGTGGTTCTGTGCGTGTGGAGTGGGAGGACTCATCCCCACCC
CGCGGTGTTCACTCCGTTGAACATTTATCCGTGGCCAATACTCGTGTGTTGATGGTCAGT
GGAGGACGTTTGGTCCACGCGGGTCGTCTCGCTCTGGGCTCGGCCCTGCGACGCGCTGGA
TCACTACAACCAAGCGTGGTGTTCGCTAGAGTTCAACTCAACGACAATACGCCGCCACAT
CTTGTTAAGGGTATCGCCGACGCCACGGAGGGTCCTTGTGCAGCGGTGGCTTGCGGTCGT
AGAGTCTATTTACTTAAATTCGACGCAACCAACACGCAGTTTAAAACATCACGCTCCTTA
ACTGTCGATCGACCGCCGTCCTCCTTACTTATTGCAAATAATGTTCTATACATCGCTGGA
GAGAAACCATTAAAAATTAACCTACCCTCAGGAGCATTGGAATCTTTTGCCATGGATGAA
CCGATAATATGCGCCGCTTTCAAAAAACACTCGGCACCCAAAGCTATCTTGCAAATATGC
AGTAAACCTGTGGAACTTCTTCTGTGCTATCCTGAGTGCGGTGTATTTGTAGATGAAAAT
GGTAAGCGGACACGTAATGAGGACCCCAAGTGGAGTTCAGCTGTGCATGGTTGGGAATAT
GTAAACCCGTTCCTGTACTGTGTTGGCGAAGACAGAGTTACCATAATTTATATTAACGAA
GATACATACAAAGCGCCTCCTTGTACGTGCGATGCCACCTCAGTCGCGTCTTCCACCTCG
GCTTCAGAATACTACCAGCCAGATATCTTTAATTATAAAGTAAGGGAGCCTGCTATATTG
GGAACGGCGCCAAACGGTATTATTATGAGGTACAAAATAGATGATGACTACAACATCATT
ATCTTAGAAGGTAAAGTAGCGTTTAGAAGTATAGGTGCTTCATTGGATTCCCTAAACACA
GCGTCAGATGTAAAAGGATCCTCTTTAGACTTGGCACAGTCTCTCACCGACCTGTCGCCT
CAGGACGAATCTCAGGAAAGTATAGAAGTGACAACAGGATTTCTTGCCGATATCAGAAAT
AGAGCCAGACAGTTGAGAGAAAAGAATCGTCATCAAAAATCGCCCGACGACGTCATCAAA
GAAATATTAACTACTGAAGTCGGTTTGAAAAGAACCACGAATGGTAGGAAATCTCCAGCG
TTAACGTCTGAGTTCGATTCAGATTCAGAGACTGAGAGCGAAGATCAAGGAACGGGCTCG
ACTCAGTGTACGGCCGATGTCTGCGCCGAGATGTTTACAAGACAGGTCCGCTTCCAGTAA
Protein sequence:
MDPAPARRLERQIEVEKEERRALQRSNQELTDCINQRSKSELKAVQAQASELQTERDSLK
EDLARLEARVRELQIECNNALAEADSARAQHKHYKDIVHHVHELRHRWLTEINVKPIDTI
AQERALRRQTVCGSEAAAEGAAREARARKHAEEQLAKSEEQLQRLRKDLDAANEQADKAQ
ELLRDKERIITTANDQIIDLQTQLAQERVRAATLAAQVQAAERSVSEAVARETALEEQSE
RTQARLLQRLEAADSRLAAALHDHGRHAEKVTTLEQLVRQLEREVSALENRSCPRCVENE
AKKVQVTSGTNTEDSEDALENRDNRSETESYGDATAHAQVSLLKEQLERAEAQLLTRGEE
IAALRQEARTANLARWRKEKEFNDLSIDAKVTARDLKRNEERLQSALEARRSAEDKAALV
HKEITTLKPQLELLKKDVDRYKELAEKLQKSNEVLQVEVDRSRNDIRKLKSELQYSEQRR
LHAEHHEQEATSERDRLRSERAPLVEERDGLMQNNKALQEACTLLEEQLTDLEKLADLHE
LKNKELEMELSRVRSELESTRTRAVEAERNAAEQTAIAHKERSEGEHAREQLRLANDQLN
ILRERLANREDLVSELEARVSELEGEAGARDAAMGGAARRMRALQEEAAALRTKAHAHHA
AAVKLQAELAAAQEETSAAHEAHAAAAAWWRTRETKADATMRQQAKLIDFLQAKVEEAGR
KKCSLGNKLFGRSGRRTAASPPLLRVNRELREEVERLRAKLAAATSTDAHFPPTPRRDRK
VDRPKKFANGYLDNDASDPDSVLVIWADGNREHMNARCEASLIVFKRNDQTLRGRLCPDR
SLIHLPHNEANRAFGIKLEKSDGGMEAIVVCPSIASKCDWVSRLTPVVQGGFQPLTLLQT
KTNPTTALYFAPVALAIGSSDGLHSLRGSVRVEWEDSSPPRGVHSVEHLSVANTRVLMVS
GGRLVHAGRLALGSALRRAGSLQPSVVFARVQLNDNTPPHLVKGIADATEGPCAAVACGR
RVYLLKFDATNTQFKTSRSLTVDRPPSSLLIANNVLYIAGEKPLKINLPSGALESFAMDE
PIICAAFKKHSAPKAILQICSKPVELLLCYPECGVFVDENGKRTRNEDPKWSSAVHGWEY
VNPFLYCVGEDRVTIIYINEDTYKAPPCTCDATSVASSTSASEYYQPDIFNYKVREPAIL
GTAPNGIIMRYKIDDDYNIIILEGKVAFRSIGASLDSLNTASDVKGSSLDLAQSLTDLSP
QDESQESIEVTTGFLADIRNRARQLREKNRHQKSPDDVIKEILTTEVGLKRTTNGRKSPA
LTSEFDSDSETESEDQGTGSTQCTADVCAEMFTRQVRFQ