| New model in OGS2.0 | DPOGS207157 |
|---|---|
| Genomic Position | scaffold7:- 1133307-1149783 |
| See gene structure | |
| CDS Length | 3789 |
| Paired RNAseq reads | 1269 |
| Single RNAseq reads | 3489 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA000615 (0.0) |
| Best Drosophila hit | fhos, isoform A (3e-145) |
| Best Human hit | FH1/FH2 domain-containing protein 3 (7e-118) |
| Best NR hit (blastp) | hypothetical protein AaeL_AAEL010187 [Aedes aegypti] (3e-177) |
| Best NR hit (blastx) | PREDICTED: similar to CG32030 CG32030-PA [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0003779 actin binding GO:0030036 actin cytoskeleton organization |
| InterPro families | IPR003104 Actin-binding FH2/DRF autoregulatory IPR015425 Actin-binding FH2 IPR016024 Armadillo-type fold IPR014768 GTPase-binding/formin homology 3 |
| Orthology group | MCL14724 |
Nucleotide sequence:
ATGATTGAATTAGTGAAAGTTGGTGATAATAATAGAGTTAGCGGCGCGATGAGGGAAATA
GGAGCGGACTCGTTCGTATGTCGCGTTCAGTACTTGAACGATTTGGATCCATTTATGGAT
TACAACGTAAGGGAGCCTCCCAGGCCGCTGTACCACACCTTCAACACGACCATCCCCCTA
TCATACCAAATAGCCGCTGTGCATCGTCTGCTGCAAGCGCCACACAGGCTGGACGATGCT
ACATTGCAAGTTTTCAAAGACGGTGACTACGGACCGTATTTGGATCTTGATTCGACTCTC
GGAGAGCAAGATGAAGAACTGGAAGGATTACAAGAGAGAGTCGATAGAGCCACTATTGTG
GGCGACATCAGCAGACAGGGATCGTTAGATTCAGGGATTGCGGACGTGGAGTATTCCCTC
ATCCCTCATCCCTTCATCCTGGATTCCGAAGATGACATCTCCGAGGACGACTTCCAGGAA
GCTTTGGATTATATTGAAGACCGCAAAAATTCTTTGGTGCTACGTACGCAACTCTCTGTT
CGAGTCCATGCTATTATTGAGAGGCTGCTCCACTCCCAGGGTCGGGAACTCCGGCGGGCA
TTATTCACCCTTAAGCAGATCCTGCAATCAGACAAGGATCTGGTACATGAATTCGTTGCT
AATAAAGGCCTGGATTGCCTTATGCAAGTTGCCAATATGGCAGATCATAACTACTTGGAT
TATATATTGAGGGCTCTTGGACAGATTCTTCTCTATGTGGATGGAATGCATGGTGTGATG
AATCACAAGCGCTGTATTCAATGGCTGTATTCACTCATATCTAGCAAATTAAGGCACGTC
GTCAAGACAGCTCTGAAACTCCTCTTAGTTTTCGTTGAATATACCGAAAAGAACTGCCTT
CTCTTTATTGAGGCAATCGTGGCCGTTGACACTTCCAACGCTAGGCAACCGTGGTACAAC
GTGATGAAAATTCTTCAGGACTTCGATGCTTCTGACACCGAATTGCTCATCTACGTGACA
ACTTTAATCAACAGATGTTTGAATAACATCCCCGATAGAGATCTGTATTATGATCAAGTT
GATTCCCTGCAGGATCAGGGGATCGATGACATTATACAGTTATATATGTCCAAGCAAGGA
ACGGACCTAGATTTGTTACGTCAGTTGCAGATATTCGAAGCTGTACTTCTTTATGAGGAC
GGTGACGAAACGGGTACAGCCCTCAAGCAACTTGATGAGTCTGTGATAACATCTTTACGA
AAGAGGAGTCATAATCTAAGCACAACAACAAGAAGAAAGTCAAAGAAACAGGAAGAGAGG
GAAAAAGCAATCTCACCAGTCATGATGGAATCCAATATTATAACGAGTACTCCGAAAAGA
CCCCAGTACTTGCCTTCCATACTGGATACAAAAGAAAATAAAGAATTAAGTACCGCCCTA
AAAAGAAGAAGGGACAGATACGCAAGACAAGCTCATCACATGATACAGCAGCAAGAATTG
ATGAAAAGCACAAGCCCTAACGGATACAGTTATAGCGATTTTGATAGTAGTGAATACAAC
TTTAGCAGTATAAGTCGTAGCAGTTACAGCTCGAATTCATTCATATCTAGCAAGTACCCT
AATAGCTGTAGCACGATGAATGGAGACAGTAATTCAGTTAATGAGGAAGAAGACTTTAAT
AGGAAGAATCTACCCAGCCTTTTAGTTAACGGCAACCAAAGATTTACAACTGGTTTAAAG
CAAAGAATACAAAATGGAACGCTAGGTCATAGTGTAAACACAGCGGACTCTCTCGTTGCA
ATGCGGCAGAAACAAATAGATGTTAATCCCGAGCCCAAGGATGACAGGGAGATACTGTTA
AATAGAGAACACAGTATTAAGGATATCGCTCAAAGACTCACCAGCCCTTTGAATTCAGCC
ACAGACGAGAAACCTATCAGAGTATCTGATATGGCTGGGATTGTTTCAAAAGCCAAAGAG
GAATTAGCCAAATCTAAGTCAAAAGAGATCATAAAAAGTCCTACTATAGAAAAATCCCCA
AAGGTACATGAGATTAAAGTATCAGAAAACGATTTGCACTGGGAAGAATTAAAGAAAGGC
TGTCTAAATCGTGAATTCCACTTGTGCGACTTGGACTTTTCCGATCTGCGACATGATTCC
GACGACGAAATGGAATGTCATCAGCTTCAACGAGTGTGTGCTTCTAATGGACCACCACCT
CCTCCTCCCAGTATGCTACCCCCTATGAACCTGCCCCCACCGCCGCCAACTAATTTCCCT
ACTTTGCCAAAAAATACATCAAATCCTCCAACTGAGACAGACTCAGCTAATTCCACTTTA
AAGAAGAATAAAAAGACTGTGAAATTGTTTTGGAGAGAGATTCAGGAGGTACCTGTTCCG
GCTCCAGTAAAAACCAAAATTGGAGGATCCATTTGGGACGATCTTCCCCAAGTCGCCTTA
GATACAAACATGTTGGAACATCTTTTTGAATCTAGGTCTAATGATCTCATTATAAAGAAA
CTAATGGAACCAAAGAGAAATCTGATCTTGGACGCTAAGCGATCAAACGCTATCAATATA
GCGATGAAAAAATTACCAACTCCGCAAACAATAAAGGCAGCCATTATGAAGATGGATGCC
ACTGTCATCGGAAGAGAGGGCATTGAGAAGTTACTGACCATGCTGCCTACTCAAGAAGAA
AAAGTTAAGATTCAGGAAGCACAGTATGCGAACCCTGACCTTCCCCTGGGCAGTGCGGAG
CAGTTCCTTCTCACCCTCGCTTCCATCAATGAGCTTTCTTCGAGGCTCAAGCTGTGGGTC
TTCAAGCTGGACTTTGACAATTTGGAAAAAGAGATAGCCGAACCCCTAATGGACCTTAAG
CAGGGTATTGAACTGCTTAAAGTAAACAAGACTTTTAAGGTAATCCTTGCAACCTTGAGG
TCAGTTGGCAGTTTTCTAAATGGCACGCAAGTCAAGGGATTCCGACTGGATTATCTTTCA
AAGGTTATGGAGGTCAAAGATACTGTTCACAAACATCCTCTATTATACCATATTTGCGAG
ATGATAATAGAGAAGTTCCCAGATACAACAGATTTCTTCAGCGAGGTTGGTCCCGTGATA
CGAGCTTCGAAAGTTGACTTCGAAGTCCTTAGTTCCAACCTTGTGAAACTAGAAGCAGAC
TGCAAAGCTTCCTGGGATCATATGAAACGTGTCGCTAAGCACGACAGCTCCCAAATTTTT
AAGACCAAGATCAACGAATTCCTCACCGATGCCGCCGAAAGGATCATCTTGTTATCACTT
ATCAAGAAGAGGGTTATGAGCAGATACACCAAGTTTCTGATATACGTGGGGATGGCATCG
GATGACATACTGCGTTCCAAGCCCTCAGAGCTGTTGAAGGTGATCTCGGAGTTTGCGTTG
GAGTACCGGACCACCAGAGAGAGAGTGTTGCAGCAGTTAGAGAAGAGGGCCAATCATCGA
GAGAGGAATAAGACTAGGGGGAAAATGATTATCGATATGGGCAACTACAGTGGGAAGTCG
GGCGATGCCTGCGCGGACACCGCCCTCAAAGAGCTGTTGCGAGCTGATGGACCGGAGCGT
CACATCAGACGGAACGCACACCCTGTGTTGAATGGCGACGCGACAGCTGACGAAGAAATC
ATAAAAAGCCTTGTACGTTGTCCAGCGTCCAAGAGACGTCCGCTCGCTAGGGACCGTCGC
CGAAACAGGCTCGTCGATAGAAACTCCATGAATCGGACTATCGACGGACACCAGTCATGG
CCTAGCTAG
Protein sequence:
MIELVKVGDNNRVSGAMREIGADSFVCRVQYLNDLDPFMDYNVREPPRPLYHTFNTTIPL
SYQIAAVHRLLQAPHRLDDATLQVFKDGDYGPYLDLDSTLGEQDEELEGLQERVDRATIV
GDISRQGSLDSGIADVEYSLIPHPFILDSEDDISEDDFQEALDYIEDRKNSLVLRTQLSV
RVHAIIERLLHSQGRELRRALFTLKQILQSDKDLVHEFVANKGLDCLMQVANMADHNYLD
YILRALGQILLYVDGMHGVMNHKRCIQWLYSLISSKLRHVVKTALKLLLVFVEYTEKNCL
LFIEAIVAVDTSNARQPWYNVMKILQDFDASDTELLIYVTTLINRCLNNIPDRDLYYDQV
DSLQDQGIDDIIQLYMSKQGTDLDLLRQLQIFEAVLLYEDGDETGTALKQLDESVITSLR
KRSHNLSTTTRRKSKKQEEREKAISPVMMESNIITSTPKRPQYLPSILDTKENKELSTAL
KRRRDRYARQAHHMIQQQELMKSTSPNGYSYSDFDSSEYNFSSISRSSYSSNSFISSKYP
NSCSTMNGDSNSVNEEEDFNRKNLPSLLVNGNQRFTTGLKQRIQNGTLGHSVNTADSLVA
MRQKQIDVNPEPKDDREILLNREHSIKDIAQRLTSPLNSATDEKPIRVSDMAGIVSKAKE
ELAKSKSKEIIKSPTIEKSPKVHEIKVSENDLHWEELKKGCLNREFHLCDLDFSDLRHDS
DDEMECHQLQRVCASNGPPPPPPSMLPPMNLPPPPPTNFPTLPKNTSNPPTETDSANSTL
KKNKKTVKLFWREIQEVPVPAPVKTKIGGSIWDDLPQVALDTNMLEHLFESRSNDLIIKK
LMEPKRNLILDAKRSNAINIAMKKLPTPQTIKAAIMKMDATVIGREGIEKLLTMLPTQEE
KVKIQEAQYANPDLPLGSAEQFLLTLASINELSSRLKLWVFKLDFDNLEKEIAEPLMDLK
QGIELLKVNKTFKVILATLRSVGSFLNGTQVKGFRLDYLSKVMEVKDTVHKHPLLYHICE
MIIEKFPDTTDFFSEVGPVIRASKVDFEVLSSNLVKLEADCKASWDHMKRVAKHDSSQIF
KTKINEFLTDAAERIILLSLIKKRVMSRYTKFLIYVGMASDDILRSKPSELLKVISEFAL
EYRTTRERVLQQLEKRANHRERNKTRGKMIIDMGNYSGKSGDACADTALKELLRADGPER
HIRRNAHPVLNGDATADEEIIKSLVRCPASKRRPLARDRRRNRLVDRNSMNRTIDGHQSW
PS