| New model in OGS2.0 | DPOGS207264 |
|---|---|
| Genomic Position | scaffold76:+ 100483-118517 |
| See gene structure | |
| CDS Length | 4758 |
| Paired RNAseq reads | 3286 |
| Single RNAseq reads | 8038 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012129 (9e-77) |
| Best Drosophila hit | spinophilin (6e-85) |
| Best Human hit | neurabin-1 isoform 4 (6e-61) |
| Best NR hit (blastp) | conserved hypothetical protein [Pediculus humanus corporis] (1e-115) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC002905 [Tribolium castaneum] (2e-94) |
| GeneOntology terms | GO:0008157 protein phosphatase 1 binding GO:0005515 protein binding GO:0042048 olfactory behavior GO:0002121 inter-male aggressive behavior |
| InterPro families | IPR001660 Sterile alpha motif domain IPR001478 PDZ/DHR/GLGF IPR021129 Sterile alpha motif, type 1 IPR013761 Sterile alpha motif-type IPR010993 Sterile alpha motif homology |
| Orthology group | MCL11951 |
Nucleotide sequence:
ATGGAGGAGTGCAAGAAAAGAGCACAAGGCACGAAAGTTTCTAAGATAGCGAATATTTTT
CAAGGAATGCCTTCAAGGGACGACGAAGACATGCGCGGAAGTGATGTGACAGTTGTGCGA
ACTGAAAGCCATTTGGCGAGATTTAATAATGCTAGGGCTCTATTTGAAAAATTAGGTGAA
GAAAATCGTAATTTTCGTATTGAGAAGTCTCCATCCGCAGCCGCCAGTTTTGCTGGTACT
CGCGGTGTTCTGCCAGTGGTACCATCTCGTTCACGTTCAAGTTCCGCGGGATCTGTTAGC
CCTACACGGAACACAGCGACTGGACATGTGAGTTTGGGCTCCACCGTTGTAAACGGTGAT
CGACTTTCTAATGGTGCTGGTCAACAGCCTCCCCCCAAGCCAATTAAACCTAGTGTTCTT
CCAAAGCCAGAGAAACCAGATAGAAGATTTAATAAAGAACTCATAGAAAAACAAAGAAAT
TGGACGGCGCACTTTAATAAACAGCGGCCGAGTAGACACGATCAAGATCAGAGAATAGAA
AATAGATCAACTGCTTTCCAAGATAGAAGATCCCCTGAAGTGTCGGAGAGACATGTGGTT
CCGTCACGAGTTTACTCGCCTCCTCTGTCACCAGGCGCTGGTGATACTCATATAGAACGT
CCAAGTACTCTTCCTTCTGCTTTAGTTAGTCGAGGTATACATGTTGCGAAATCTCCTAGT
CCTAATAAAAATATTGCTCCTGTATTACCTTCGCCTAGATCTAGTAATGTAGTATCACCT
ACACACAGAACAGATGTCCTCATTTCACCCTCAGTAAAACGAGACGATCTTATCTCTCCA
GCCAGACATAGTCCGCAAAAAAGTGATTCCTTAGAAAAACCGCAAGTTTATTACGGCAGG
GGATCCATTTCGCCTGATACAAAAAAAAGTATTATAGAAAAAGATGAATTAAAAATAGAA
GCAAGTTCGAAATCTGTAACGCCGACAGAAAACTTGTTCCCTTCAGAAGCTCCTTCGATA
CCTTCAATTGTCGATGATAATTTAAGTTTCATTTATAACAAACCGTTACCATCCCCACCA
ATTTGCGCACCGAGATCTCCACCACCGCCGATACCGGAAACGAAAACCATCGTCACTGGC
TCCTTAGAATCTGTTACGGAAGTTAATGAGATAACCTCTTGTATATCAAAAGTGAACATT
TCAAACGATGATGTTGATTTCGTTAATGATATCATAAAGGAATCTCGAGCCATTTCGTCT
ATAACACCCGCTGATAATGAAAGTGAATTGATTGCACCAGAAGCATCTGTCATACAAACG
CCGGACGTGGATGTTGTTCCTAGATCACCTCCGAAGAGCCGAAATGATGATTATGAGACG
GTGAACTATAGTGATTGGGATGACAAGATTAAACGGAAATCATTAACTTGTGATTCAAAT
AGTGCAGTTCTTGAGGAAGAAGCCCCAAAGTCGCTTGAACCCGAATTGGCTTCACCGGGA
CGTGACCCTGAATTTTCACCGTCGCCCGCACCAACCCCTGTTCAAGTGGGTGTCGGTGGC
AAGTCATCGGAGGCGGAGGAGACGGTGGTGAGAGGACGTTCCCGCGCGTCCAGCGTGTCG
GACGAGGGCGGGTTCAACGAACCCTCGCCGGAGGTGGTAGCCAGACTTCGCCCCGCCGAC
TACCGCGACCCTCACCAGCAGCCGCAGCTCACTCACGACATACGGGACGCCGAGCGGGCG
AGATCAGACCCCGACACGCTGTCCGTTCTGCAACAGGACTCCGGTGTCGTAGTGAGCGAA
GCGAGCCAGGGCTCCATCGAGGTGCTCGACAAATCGACCACCAGCCAATGGAGTGTGTCG
GAGGAGCCGGCCGACGACGCCAAGCAACCCGACAGTATGACGCCGGACGAAGCGGAGATA
CTGCTCAGCTCCAGGCAAGAAGCTTTGCTGTCGGACGAGCAGGCTCAAGAGATAGTGGCT
CTTCTGTCACCTCACGCGATCGCTCACGACAATGGCGTGTCCCTCAACGACAGCTACCAG
TCCGTGCTCTCGTATGAGAGCATGCAGTCAGTGGACGAGAGCTACGAGTTCGTATCATTA
GAGGCGGACGCGGGCATGGCGGGAGGGGACGCGCCGCAGCTCGAGCCCCGAGCCGAACAC
GAGCCCGAGCGCGAGCACGAGCCACAACACGAGCCCGAGCCCGAGCGCGAGCCGCAGCCC
GAGCCCACAGTGTTCGACCACTACCCACCGCACTCGTTACGAGAACTCGCAGAGGAGAAC
GGTATTCATTACTTTGAAGACGGACACTTTTATACAGAGGTCGCCGGCCTGCCGCCCATA
GAGGAGGACGACGACGATGATTACTACCCACCAGTATTTGTTAAAAGAAATACCAAAGTT
AAATTTAGCACTGATCCGATGCGAGTGTTCTCAACGCACTCCGTCCGCGAGTACGATCGC
CGGAACGAGGACGTTGACCCCGTGGCCGCCTCCGCTGAATACGAACTGGAAAAGAGAGTT
GAGAAGATGCACGTCTTCCCTGTGGACTTGGTGAAAGGAGCGGACGGACTAGGGCTGTCT
ATTATTGGCATGGGCGTCGGAGCTGATGCCGGTTTAGAGAAGTTGGGTATTTTCGTGAAA
ACGATCACAGAGAGCGGAGCGGCCGCTAGAGACGGACGAATACAGGTCAATGACCAGATC
ATCGAGGTTGACGGAAAGAGTTTGGTGGGTGTCACTCAAGCGTATGCGGCATCAGTTCTT
CGCAATACATCCGGTCCCGTCAAGTTTCTGATCGGTAGGGAGAAGGATCCTGAGAACAGT
GAAGTAGCGCATCTCATACGACAGTCTCTAGCTGCGGATAAGGAGAGAGAAGAGAGAGCT
TCTCGCGAGCGACAGAGAAGACAACAGACGGAAGAAGAGGTCAGTCCGCCAGCTGATGTG
CGGCATCCAGATATAGTTGACCTGAGGGCGTTACTCAATGAGGTGGTGGGTATGGAGGCG
GGCGGTGGTAGTGGACAGGAGATTAATGCTCGTGTACGTGAGTGGTGCGCCGCGCGGGCA
CCATCCGACCAGTTAAGAAGAGCTCTGGCAGCGGCCGCGGACACGGCACACAGGGCTCAT
CGGAAATATGATAAGGCTCGTCGCGCTCTCCGTGAGTGGCGCCGCACGCGGGCGATGGTC
CGCGCTCGCGAGGAGTGGTGGAGCGGCACTCTGAGGGACGTGCATCGTGAGTACGCCGCC
GCGCTCTCAGCACTACACGACCGAGTCGCCCGGCTGGAGGTGCTGCTGCTGGAAACTCAA
AAGAAAGCCGGTCTACCCGTTATGTTACCGCACGAACCCTCGGCCCGACGTGAGACGCCG
CCGCTACCTCGCAGACCAGACCCTGATCCTCTGCTCATAAATGACCCTTGGAGTTCAGAC
AGCGATCTTTCGGACCTCTCTCCCATAGAAGATGAATATGCCAAAGTAGACAAGTCAGAA
AAAAAACCGCGAGAAGCGCCGGATATAGGTGACGTGACGGTGACCACCACCAACGATAGC
AAACCTACAACCACCGACAACTCAATATACAGCACCATCACGACGGCGGCGTACGCGGTG
ACGTCTACGACAAACGTCACGGTGGTGACGTCACAGCCCCCCACCCAAGCCCCCGCCCCC
GCAGTACCGCCGACGAATTCTATTAGCCACGTGTCTGTAACTACGGCACCACCAACTACA
GTCACGGAGAGCTTGAGCGGTGCAAACGCCAGCGCAGTGTCCACTACGACCCTAACGGCG
ACATCCAACACAAGTTCCAACGTCGGTGCAAACGTGGGTAGTGTGGAGGTGACGTCACGA
GAGCTGGACGCGGCGGTGCCCCGCGGCGCTCTACTCGACACGTCCGCACACCGCGCGCGC
ACAGACCTCGCACGGCACAGACACCACGCGCCGCTCTCACACTCGGCACACTCGCCGCAC
TCGCTCAGCAATGCGAGCTCTTACGACGGGTTGGATGATTCATACAACGACTCCGCAGAC
GAATCGCTGAGCGAGTCCACATCAGGGGCGCCGCCTCATGCAGCACATCATATTCAGCGA
GACACTCGACAGAGTTGTGGCAGCTCAATTGGCAGCGCAACCGACGACGGAATGTACACG
CGAGATACAAGACATCACCCGCTCTCAGGTCCGCCGGCGTCGCTGGCGGAGCAGCTGAAG
CAGGTGTTGGCGGAGCGCGAGCGGCGGCTGGCCAGCGGATCCCCCCACCCTGACCCCGTG
CAGCTCACCAACGACCTCGTGGACGAGATACGCCAGGCCGTCAGCGAAGCTAACGCCAGA
GTGAAGAAAGCTCCGGCTTGTGTAGTCGGCGGCGAGGTGCCGTGGCAGCCGCTGTCTGCG
GGGGCTTCTGAGACCAGCCTGTCGCCGGGTCCCCACGGCCCGCAAGGCCCCCACGGTCCG
CAAGGCCCCCACGGACCACACGTTTCACTCACGTCACTAGTCGCCTCGCCCCAGCCAGTC
AACCTCTGGACTAAGCAACAGGTGTGGCAGTGGGTATCGAGCCTGGGCGAGGGTCTGGAT
CGTCACGCGGGTTCGTTTGCGACGCGCGGCGTTGATGGCTCGCTGCTGTTGGCGCTCAGC
TCCAGCGACCTGAAGCTGCTGGGTCTGGCGGGGGACGATCGCCGCCGTATGAAAAGACGC
CTCAAGGATCTGCGGGCCTCGCACGACAAGTACCTCAAGGCGGTCAAGAAAGCGGAGAAG
AAAGCCAAGAAGAAGTAA
Protein sequence:
MEECKKRAQGTKVSKIANIFQGMPSRDDEDMRGSDVTVVRTESHLARFNNARALFEKLGE
ENRNFRIEKSPSAAASFAGTRGVLPVVPSRSRSSSAGSVSPTRNTATGHVSLGSTVVNGD
RLSNGAGQQPPPKPIKPSVLPKPEKPDRRFNKELIEKQRNWTAHFNKQRPSRHDQDQRIE
NRSTAFQDRRSPEVSERHVVPSRVYSPPLSPGAGDTHIERPSTLPSALVSRGIHVAKSPS
PNKNIAPVLPSPRSSNVVSPTHRTDVLISPSVKRDDLISPARHSPQKSDSLEKPQVYYGR
GSISPDTKKSIIEKDELKIEASSKSVTPTENLFPSEAPSIPSIVDDNLSFIYNKPLPSPP
ICAPRSPPPPIPETKTIVTGSLESVTEVNEITSCISKVNISNDDVDFVNDIIKESRAISS
ITPADNESELIAPEASVIQTPDVDVVPRSPPKSRNDDYETVNYSDWDDKIKRKSLTCDSN
SAVLEEEAPKSLEPELASPGRDPEFSPSPAPTPVQVGVGGKSSEAEETVVRGRSRASSVS
DEGGFNEPSPEVVARLRPADYRDPHQQPQLTHDIRDAERARSDPDTLSVLQQDSGVVVSE
ASQGSIEVLDKSTTSQWSVSEEPADDAKQPDSMTPDEAEILLSSRQEALLSDEQAQEIVA
LLSPHAIAHDNGVSLNDSYQSVLSYESMQSVDESYEFVSLEADAGMAGGDAPQLEPRAEH
EPEREHEPQHEPEPEREPQPEPTVFDHYPPHSLRELAEENGIHYFEDGHFYTEVAGLPPI
EEDDDDDYYPPVFVKRNTKVKFSTDPMRVFSTHSVREYDRRNEDVDPVAASAEYELEKRV
EKMHVFPVDLVKGADGLGLSIIGMGVGADAGLEKLGIFVKTITESGAAARDGRIQVNDQI
IEVDGKSLVGVTQAYAASVLRNTSGPVKFLIGREKDPENSEVAHLIRQSLAADKEREERA
SRERQRRQQTEEEVSPPADVRHPDIVDLRALLNEVVGMEAGGGSGQEINARVREWCAARA
PSDQLRRALAAAADTAHRAHRKYDKARRALREWRRTRAMVRAREEWWSGTLRDVHREYAA
ALSALHDRVARLEVLLLETQKKAGLPVMLPHEPSARRETPPLPRRPDPDPLLINDPWSSD
SDLSDLSPIEDEYAKVDKSEKKPREAPDIGDVTVTTTNDSKPTTTDNSIYSTITTAAYAV
TSTTNVTVVTSQPPTQAPAPAVPPTNSISHVSVTTAPPTTVTESLSGANASAVSTTTLTA
TSNTSSNVGANVGSVEVTSRELDAAVPRGALLDTSAHRARTDLARHRHHAPLSHSAHSPH
SLSNASSYDGLDDSYNDSADESLSESTSGAPPHAAHHIQRDTRQSCGSSIGSATDDGMYT
RDTRHHPLSGPPASLAEQLKQVLAERERRLASGSPHPDPVQLTNDLVDEIRQAVSEANAR
VKKAPACVVGGEVPWQPLSAGASETSLSPGPHGPQGPHGPQGPHGPHVSLTSLVASPQPV
NLWTKQQVWQWVSSLGEGLDRHAGSFATRGVDGSLLLALSSSDLKLLGLAGDDRRRMKRR
LKDLRASHDKYLKAVKKAEKKAKKK