| New model in OGS2.0 | DPOGS201395 |
|---|---|
| Genomic Position | scaffold13:+ 493003-514760 |
| See gene structure | |
| CDS Length | 3015 |
| Paired RNAseq reads | 196 |
| Single RNAseq reads | 540 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001996 (0.0) |
| Best Drosophila hit | nervous wreck (0.0) |
| Best Human hit | FCH and double SH3 domains protein 2 (5e-73) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC006854 [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC006854 [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0005070 SH3/SH2 adaptor activity GO:0045886 negative regulation of synaptic growth at neuromuscular junction GO:0007274 neuromuscular synaptic transmission |
| InterPro families | IPR001452 Src homology-3 domain IPR001060 Fps/Fes/Fer/CIP4 homology IPR011511 Variant SH3 |
| Orthology group | MCL12057 |
Nucleotide sequence:
ATGCAGCCCCCACCTCGAAAGAGCAACTATACAAAGTTTCTGAAGAACCTTCATACAGAG
CAAATAGCGAAGCTTCATGCCAAAAACCAGCATGAATGCGACTTGCTTGAAGATCTGCGC
TCTTACACCATTAAGCGCTCGGCTATTGAGAAATCATATTCAGAGGCCTTGCTTAAAATT
TCATCAGCATATCTGAACAAGAAAATACCTAATATACCCGATTTGAAAGTTGATGGCGCT
GAAGAAAAATGGAACATGTGGAATGTTTGGCGCACTGTGTTGGAAGAAAATGAGAAACTT
GCGCGTGCTAGACTCGCAGCTGTCGAGGTGTTCCAGCAGCAGATTGCTGACGAAGCAAAA
GCTTTACGGCAACATAAAATGAATGTAGCCAAAAAGTGCACAGATTCTTTGGCTCAAGCG
CATAAAGAATTACAATTAACGGTATTAGACGTTGATAAGACAAAGAAACTGTACTTCGAC
GAAGAACACACAGCACATGATGTCAGGGACAAAGCAAAGGATATCGAAGAAAAACTGAAA
AAGAAAAAGGGATCATTTTTTCAATCGATCACTTCCTTGCAAAAAAATAGTGCGAAAGTG
TCGTCCCGACGAGACCAACTTGAAGAAAAATCTACAGGAGCACGGAATGACTATCTCTTG
AGCATTGCCGCTGCTAATGCTCACCAGAATCGCTACTTTTTGGTAGAATTGCAAACCTGT
ATGCAAAGCATGGAATCGTCTGTGTATGAAAAAGTATCTGAATTTCTAACTCTCATGGGT
CGCACCGAACTACTTACATGCTCCGCTACTCAACATTCATTCGGAAAGATTAGAGATCAA
GCCCAACAGTTGACGAGAGAATATAATCTCCAGTGTCTATATTTGTACTATCCCGTACTG
AAACAGCACATTCAATACGAATTTGAAGCTTGTGATAACGACCCTGTTGATAATGTAACT
ATGGAGCATGAGTCAGTATCTTTAACACTCGCCCAGGAGGCTCGTCGTTGGGCCACTCGA
GTTGTGAGAGAAACTGCTCTTGTTAGAGATGCAACTCGTAAATTGCATCTATATCAAGCT
ATGCGAGATGCGGGACAAAAAGTTGATCCAAACGATCCAAATGGCCCTGAACTTGAAGTA
CGCATGGATGAGCTCCGAAACAATATAAGGCGTTCAGAAACATCTAAAGCGAAGTATGAA
GCTCGTTTAGAATGTCTCAGAACCAGTGGCGCACCAGTCGATGAATGGTTGAAAGAAGTA
GATTTGTTAGCAGTGCAAGATACCTTACCTAGAAGCAGTAGCCTGCTTAGTGTTCGAACT
GACGCGTCTGGGGCAGCTGACCAGCCCAGTTCTGATTCATTCTACGATAGTGATAACACA
GAGGGAGAAGTGGCCACTACTTCTGGTGTGGCTAGTACTTCAGGCCACCAACGTACTACG
TCTGATTCACAACATGAAGATGATAATGAAGAGGATGTTGATGCCGCTTTAGAAGAAGAG
CGTATGCGTATTGAGCAACTTACTGTTGGATGGGATGATCCCACTCAAGTTAGCTGGGGT
GAAGCGGATCAAGAAGCGGATGCGACTCAAACATCCACTGCTGTTCCAGAGGCTCCTGCT
GCACCACTATACAAATGCACTGCATTATATTCATACACCGCTCAAAATCCGGATGAACTT
TCAATTATTGAGAATGAACAACTTGAAGTGGTTGGGGAAGGTGATGGCGATGGTTGGCTC
CGTGCTAGAAATTACAGAGGTGAAGAAGGCTATGTTCCTCATAACTATCTTGATGTGGAA
AGGGAGCAAACTTCAAGTGCTCCAGGATTGGTGGCACAAATTTCATTCTCATCTGTAGAT
TACACAGTTGAAGGAGAAGATGCAGATATTGTACAGTCACCAGACCAGATATCTGTTATA
TCTGCGCCAGTTAAGCCCGAAGAACCCAAAGAAGAAGACACGACTAAAGTTAGTGTTGAG
GAAAAACCTAAATCTTTGCCAACGTTGGGATATTGCTTTTCTTTATATGATTATGATGCC
GAGGGAGCTGATGAACTTAATCTTGAGGAAGGACAGATTATACGAATTGTTTCTCGTGAC
GCTCATGGGGTAGATGACGGATGGTGGCAAGGAGAAGCTAATGGAGTAATTGGTAATTTC
CCATCGCTTATCGTTGAAGAATGTGATGAGCATGGTGAACCACTTAGTGGGGGAGATGAT
GATTGGACTCCACCAGATTCCGCCCCACCAGTATTCGTTTCACCCCCCGAATCCCCCACT
GATTTCAACGACGACATTTTCGGTGAGAACAACAACACTAAGAATGCTGCACCCCCCGCG
GCTCCTCCCCCGCCCCCGCCTGCTGATTTGGGTGACTCTATGGACAGTCAACCAGACTTC
AGCTTTAACCTTGAACTTAGTAGGAACCAAGTTGAGCACTACGGTTCACAATTCGGCGAA
GAGCACTCTGTTAACCCGCCAGTAACCATAGTCGTTGATGAGGTTGTCGGTGATATGTTT
GAAGAAGAGGAAGTGGAGGAGTTGCCGCCCGCTCCGGTACCAAAACCTGCACCGCCCAAA
GTTGAAATTACAGACGATGAATGTGGCCTTGGGGTAGCGCAAATAGTTATCACAGCTGCT
ACCCCTATGATGGAGGAGCCAGACCAACCATTTCCACCAACTGAGCCCGAGCCTGAACCC
GAACCCGAGCGCGAGACTGAAAACACTAACGCACCTGAGCGTATTGAGGAAAACGATGAC
GAAGAATCTTCTCTTTCTGAACAAACCGCTGTTTGTCTCCGCGATTCTGAAGAAGGTCAC
GCTGATTCAGCCCCACACCCGCAGTCAAGCTCAACAGCTTCTGAAGGAGAATCGGGGGCT
TCGGTTGCCTCGGGTCCCCCTACCGCTCCACAGTCTCCCCCTTCAGCCCCTCGTGCCGGG
CGCGCCTCCATCCCAGATGAATTAGAACCTGCGCAACTAGCAAGGCTCACAAATCTTAAG
GAGTCCAACGCCTAG
Protein sequence:
MQPPPRKSNYTKFLKNLHTEQIAKLHAKNQHECDLLEDLRSYTIKRSAIEKSYSEALLKI
SSAYLNKKIPNIPDLKVDGAEEKWNMWNVWRTVLEENEKLARARLAAVEVFQQQIADEAK
ALRQHKMNVAKKCTDSLAQAHKELQLTVLDVDKTKKLYFDEEHTAHDVRDKAKDIEEKLK
KKKGSFFQSITSLQKNSAKVSSRRDQLEEKSTGARNDYLLSIAAANAHQNRYFLVELQTC
MQSMESSVYEKVSEFLTLMGRTELLTCSATQHSFGKIRDQAQQLTREYNLQCLYLYYPVL
KQHIQYEFEACDNDPVDNVTMEHESVSLTLAQEARRWATRVVRETALVRDATRKLHLYQA
MRDAGQKVDPNDPNGPELEVRMDELRNNIRRSETSKAKYEARLECLRTSGAPVDEWLKEV
DLLAVQDTLPRSSSLLSVRTDASGAADQPSSDSFYDSDNTEGEVATTSGVASTSGHQRTT
SDSQHEDDNEEDVDAALEEERMRIEQLTVGWDDPTQVSWGEADQEADATQTSTAVPEAPA
APLYKCTALYSYTAQNPDELSIIENEQLEVVGEGDGDGWLRARNYRGEEGYVPHNYLDVE
REQTSSAPGLVAQISFSSVDYTVEGEDADIVQSPDQISVISAPVKPEEPKEEDTTKVSVE
EKPKSLPTLGYCFSLYDYDAEGADELNLEEGQIIRIVSRDAHGVDDGWWQGEANGVIGNF
PSLIVEECDEHGEPLSGGDDDWTPPDSAPPVFVSPPESPTDFNDDIFGENNNTKNAAPPA
APPPPPPADLGDSMDSQPDFSFNLELSRNQVEHYGSQFGEEHSVNPPVTIVVDEVVGDMF
EEEEVEELPPAPVPKPAPPKVEITDDECGLGVAQIVITAATPMMEEPDQPFPPTEPEPEP
EPERETENTNAPERIEENDDEESSLSEQTAVCLRDSEEGHADSAPHPQSSSTASEGESGA
SVASGPPTAPQSPPSAPRAGRASIPDELEPAQLARLTNLKESNA