| New model in OGS2.0 | DPOGS202231 |
|---|---|
| Genomic Position | scaffold2776:- 15-8715 |
| See gene structure | |
| CDS Length | 4044 |
| Paired RNAseq reads | 16713 |
| Single RNAseq reads | 43756 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA013531 (3e-06) |
| Best Drosophila hit | Unc-89, isoform C (1e-97) |
| Best Human hit | myosin light chain kinase, smooth muscle isoform 3A (9e-22) |
| Best NR hit (blastp) | PREDICTED: similar to ENSANGP00000021721 [Nasonia vitripennis] (5e-115) |
| Best NR hit (blastx) | PREDICTED: similar to ENSANGP00000021721 [Nasonia vitripennis] (1e-105) |
| GeneOntology terms | GO:0006468 protein amino acid phosphorylation GO:0004674 protein serine/threonine kinase activity GO:0005622 intracellular GO:0005524 ATP binding GO:0005089 Rho guanyl-nucleotide exchange factor activity GO:0035023 regulation of Rho protein signal transduction |
| InterPro families | IPR000219 Dbl homology (DH) domain IPR011993 Pleckstrin homology-type IPR013783 Immunoglobulin-like fold IPR020675 Myosin light chain kinase-related IPR001849 Pleckstrin homology domain IPR007110 Immunoglobulin-like IPR003599 Immunoglobulin subtype IPR003598 Immunoglobulin subtype 2 IPR013098 Immunoglobulin I-set |
| Orthology group | MCL10154 |
Nucleotide sequence:
ATGAGCTATAAAGACTTTAATGTTTCTCTGGCTATATGTCTAGGGAACGTCAACAATTCT
CTGTGTAATGCTTTAGCAGACAAAGTTGGTGACGACAAAGGACTAGCTGAGCATCTCAAG
TTACCGATCCAAAGAATAAACGACTACCAGCTTCTTCTAAAGGAGCTAGTGAAATACTCT
CAACGTCTCGGCGACGATTGTACGGACCTTCAGAAAGCTCTCGAGCTATTCTTAGGCGTC
CCAACTAGAGCGACAAGCAACCTCTTCATATCTAGCATCGAAGGTTACCGTGGGAACATC
TACAAACTAGGAAGGCTACTGACCCACGACTGGTTCACCGTCACTTGCGAACAGGAACGC
GAACAACTATACGTCTTCCTGTTTAAATCGAGGTTACTTCTTTGTAAAGTCAAGCGGATT
GGTGAAGATCGATCGGCTTTTGAACTTAAACAAATTGTCAAGCTTCCTGAGGTCGAAGTG
AGGGATATCCCAGACAGCAACAAGTTCGAACTCCATCAGAAGACACCTCCTCTTGTAATT
ACCTTTAAAGCCCACAAGGAGTCCATTAAAACTTCTTGGTTGCAAGAGATAAAACACTAC
GCCACCGATCTAGTTGCACTAGCGGAACACGCGGCAGACGATCTACAAGTCCAACCACCA
CCTGAAGAATTCATAGAAAAACCAGAAGAGAAGAGAAAGAGGTCAGTTACCGAAGATCAC
ATTGAAGATATACAAGAGAAGAAATTTCGTACGGAAGAAGTTGAAGTCTCAGAAGTTTTG
ACGAGGCAACAATCTCTAGAAGTACTTAAAACAAAGAGAAAGGCATCTACTGAAGCGCAG
ACTATCACTAAACTTTCCAAGACTGAAGAAACAGAAACATCATCAATAAGCGAAGTTCAA
GAAATATACGAAGCTGTTGGCGCTGGAAGTGACGTCACAATTGACTTAGGATCTAAAACA
TTAGTGACGCAATCAATTGAACAGGAATCTGTCACATCTCAGTCCCAGCTCAGTCAAGAA
ACAGTTATTGAAAACAAAACATTACAAACAGAACATCAAGAAACCGTATCCATCCAATCT
GAACAAAAACAAATTAGCGAACAAGTAAGTATACAGTCAGACCTAGCTGACAGTGAAAAC
AAGGAAACAGTAATTACTGATATTCAAAAGGCGGAAACATCCGATAAGTCGACGGTAGAG
AAATCCCCAGATCAGGAATCATCTCCCGTAGAATCTCAAGAATTGTTAAAATCTTCTGTG
GAAGCAACATTACACACCACATGTGAAGAAACAAGCACCCAAAAATCTCCTTCCCACAAC
GATCAAGTGCCTAAACCCTCGGAAGAGGAACCTAATAACGTAGAACTATCAGCTGTTAAG
AGTGAAGAAAGAGTGGTTTACGAAAAACAAACATCAAAAGTAGAGTCTATCGAAGTAACT
GATAGAGTTTCAAATAGTAGTGTAGTAAGTACCTCTGATACTGAATCTATCACATCTTGT
GTTACAAAGAACGAACAAAGTGTAACCGATAAAGATTCAAAAAATATACATAGAACATCA
CATGAAGATAAAACAAACACCGTAGATAAAACTGAGATCACATCGAAACAAAACTCCAAA
GAGACATTTACGTCTGCTGCTGTTACAGAAGAATTGAAATCATCTTCGCAAAATTCATCT
TTAGAGGTTATCGGTGATACCGGTCAGAGCAGTGCGAAAGAATACGAAGAAGCTAAAGAG
GAAAATTATTTTGTTTCTAATAGAAAGGAAGACGCTGAAACTGGAAAAGATCAGGCGGTT
ACTGACATAAGTCACACTGAGAACCAAAAGTTAGAAGACAAAGTACGAGAAGAAAGCCAA
GCTGTAACCACAGAGGAAGAAAACGAGGAGATGTCGAGATACAGCCGCACGTCGCGGCTC
TCTGGAGAGTACTCCAGCAGCACCCGCAAACTATCTTCGGGTGGCCGCTACGAGTCGTCT
ACAAATGACGGCGGAGTCTCGAGCTACTCGCGGCGTGAAAGTGGAACTCGCTCTGAGGCG
CGTTACGAAGCTGCTACGACTGTAGATGGCAATTCACGCTACGAATCGAAATACTCTTCG
TCCGCATCCAGCAATCTCGAGGCTGGTTCCAAGTATGCCCTTGAATCAAGTTTCGAAGTC
AAGGAAGCCTCTAAGTACGGTATTGAATCTGCATCGAACGCTGGCAGCAAACTCGATAGC
ATCGCCTCCAAGTACGGACTGGGCGCCGATTCGGATGCTCGGATAGAAAACCAATCTTCT
AAGTACAGCGTGGAAGCTAGTTATGACGGAAATTCCGAAACTATGAGTAAAATTGACAGC
ATCGCCTCCAAATATGGACGCAATTCGATAACTGGCAGCTCCAAGATCGAGAGCCGGTCA
ACAAAATTAAACATCGAAACTAGCCTCGACGGCGACAACGTGAACGGGGAATCGATCGTA
GAATCGAAATATAGCAGCCTGAGAAACGGTGACAGTGTCTCTCAAAGCAAGTACTCTAAG
AAGACCGTGTCCAACGGTTCGGTCACGGATGAATACGGTTCCACGAAAACGGTAAAGAGG
TCCGAGTCCCACGAGGGGAAGCCGGTCTTCACGAAGACGCTAGAAGGACAGAACATCGAG
CCGGGAGAGAACGTGACCTTCGAGTGCGAGCTGTCCAACGACGACGCCAAGGTGACCTGG
TTGAAGGACAACCGGCCTCTGACCGACCGGCTCGCGGACCGCGTCGAGAGACGAGCTTCC
GGGGCCGCCCACACCTTGCGGCTGCTGCACTGCCGCGAGGACGATTCCGGCGTCTACACC
GCTCTGGCGGAGACCCAGCGCGGCACGGCCACCTGCACCGCACAGCTCGTCGTGCACCAG
CTGACTCCGGAAGAGAGGCGACAAAAGAATGCACTCAATGCACCATATTTTGTGGTGGCT
CTGAAGGACACGGAGATCCTGTTGAACACGTTCCTTCGCTTCATGATCAGAGTGAAGGGA
AATCCAAACCCTGTTGTTAAGTTCTACCGTGAGGGTGTGGAGATCGTGTCCAGCTCTCAG
TCTGACCGCGTCAGCATCCTTCGCACCCTGGCTGACAGCGGCTGCTACGAGTTGGTCATA
CCGGATGTGACACGCGCCGACGCCGGAAAGTACTCCTGCCGGGCTGTCAACGAGTACGGA
GACGTCGAGTGCGAGGCGACCGTCACCGTCGTCGATGACAAGAACATTTTCGGAGAACTA
CCGCCGGGCGGGGAAGGTCTCTTACCTAAAGGGGAGAAACCCAGCTTCACCTGGAAAAAA
GATGGAGTCAACTTCGACCCTGAAGAAAGATTTAAGGTGTTGCTGGAAGATGACGAGGAC
TCGTTGGCGCTGGTGTTTCAACACGTGAAGCCCGAGGACGCCGGCCTCTACACCTGTGTG
GCCAAGACCAGCACCGGAAATATATCCTGCTCCGCGGAACTTACCGTGCAGGGAGCAGTG
AACTACCTTCACCGCGAACCCCAGAAACCTGAGCTGGTGATCGAGCACCGCGAGGCTGTG
GTGTCGAGCGGCGGCTCGGCTATACTCGAACTGGTCTGCAAGGGCTACCCTAAACCCACA
GTGGTGTTCAAACATGACGGGAAAGTCGTCGAAGCTGATGCCAGGCACAAGTCAGTGATC
GATAACCCTAGTATTTTATTAAATGGTTTATATGGAATTTCTAGAACGCGGAGATATTAC
TTAGCTACGACACACTCATATAAAGGGCTTGCGATGTACCTTTCAGTTCAACTCGTTCAT
AAGACAGGGAATTGTGGAGATCAACACTCAAACGAGGACGTTATTAATCTCGTGGATTGT
AAGTTTTTGGTCCTAATTATAGGTTCCTTCACGAGGACGATGAAAGCATGTCCCTCGTTA
TCAAAAACGTGTGCGAAGCGGACGCCGGCGTGTACCACATCAGTGCCGAGAACGACCTGG
GCGAGGACACCACCACCATCAACCTCGTGGTCAAGGCCGCGCCCCGGATTAAGAAGAAGA
TCGAGAACCAGAGCTGCATGGTAA
Protein sequence:
MSYKDFNVSLAICLGNVNNSLCNALADKVGDDKGLAEHLKLPIQRINDYQLLLKELVKYS
QRLGDDCTDLQKALELFLGVPTRATSNLFISSIEGYRGNIYKLGRLLTHDWFTVTCEQER
EQLYVFLFKSRLLLCKVKRIGEDRSAFELKQIVKLPEVEVRDIPDSNKFELHQKTPPLVI
TFKAHKESIKTSWLQEIKHYATDLVALAEHAADDLQVQPPPEEFIEKPEEKRKRSVTEDH
IEDIQEKKFRTEEVEVSEVLTRQQSLEVLKTKRKASTEAQTITKLSKTEETETSSISEVQ
EIYEAVGAGSDVTIDLGSKTLVTQSIEQESVTSQSQLSQETVIENKTLQTEHQETVSIQS
EQKQISEQVSIQSDLADSENKETVITDIQKAETSDKSTVEKSPDQESSPVESQELLKSSV
EATLHTTCEETSTQKSPSHNDQVPKPSEEEPNNVELSAVKSEERVVYEKQTSKVESIEVT
DRVSNSSVVSTSDTESITSCVTKNEQSVTDKDSKNIHRTSHEDKTNTVDKTEITSKQNSK
ETFTSAAVTEELKSSSQNSSLEVIGDTGQSSAKEYEEAKEENYFVSNRKEDAETGKDQAV
TDISHTENQKLEDKVREESQAVTTEEENEEMSRYSRTSRLSGEYSSSTRKLSSGGRYESS
TNDGGVSSYSRRESGTRSEARYEAATTVDGNSRYESKYSSSASSNLEAGSKYALESSFEV
KEASKYGIESASNAGSKLDSIASKYGLGADSDARIENQSSKYSVEASYDGNSETMSKIDS
IASKYGRNSITGSSKIESRSTKLNIETSLDGDNVNGESIVESKYSSLRNGDSVSQSKYSK
KTVSNGSVTDEYGSTKTVKRSESHEGKPVFTKTLEGQNIEPGENVTFECELSNDDAKVTW
LKDNRPLTDRLADRVERRASGAAHTLRLLHCREDDSGVYTALAETQRGTATCTAQLVVHQ
LTPEERRQKNALNAPYFVVALKDTEILLNTFLRFMIRVKGNPNPVVKFYREGVEIVSSSQ
SDRVSILRTLADSGCYELVIPDVTRADAGKYSCRAVNEYGDVECEATVTVVDDKNIFGEL
PPGGEGLLPKGEKPSFTWKKDGVNFDPEERFKVLLEDDEDSLALVFQHVKPEDAGLYTCV
AKTSTGNISCSAELTVQGAVNYLHREPQKPELVIEHREAVVSSGGSAILELVCKGYPKPT
VVFKHDGKVVEADARHKSVIDNPSILLNGLYGISRTRRYYLATTHSYKGLAMYLSVQLVH
KTGNCGDQHSNEDVINLVDCKFLVLIIGSFTRTMKACPSLSKTCAKRTPACTTSVPRTTW
ARTPPPSTSWSRPRPGLRRRSRTRAAW