| New model in OGS2.0 | DPOGS202231 |
|---|---|
| Genomic Position | scaffold2390:- 13611-19245 |
| See gene structure | |
| CDS Length | 4806 |
| Paired RNAseq reads | 4342 |
| Single RNAseq reads | 11025 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA013530 (0.0) |
| Best Drosophila hit | ND |
| Best Human hit | ND |
| Best NR hit (blastp) | PREDICTED: hypothetical protein [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | PREDICTED: hypothetical protein [Nasonia vitripennis] (0.0) |
| GeneOntology terms | ND |
| InterPro families | IPR001452 Src homology-3 domain |
| Orthology group | MCL10154 |
Nucleotide sequence:
ATGTCTTTCTGTAGAATAACGGGCCGCAGTCGAGGCTTACCCAAGCCTAATTACTTTCCG
CTCCTCGCACCGATCTCTCCCGCTGATGCGAAACGATGCTGCAGGATAACCGGGAAATCG
TATGGGCTACCTTCTCATCATTACATTCCAGTCTTACTCACAACTCGTTCTACTAAAACG
AAATGTAAAATAACAAATGTGTCCGGCGAACTCGGACCTCATCATTATTCACCTGAAATA
AATTATGGAAATAGGAAACACGAAATGCTACCAGACTATCGATATATATTCCCTGTTCTG
GATGGTTCTACCGAGGCTCAGCGATATTTGATGGATATGCTTCTCACTAAACAAATTGCC
GAAGAAAAGCGTTATGTGTACACTGTAGACGAGAGAAGGTGTAGTTTAGTTTTTTCTGCT
CGTTTGGAGGCAGCAGTGAGGGACGGCGATGTTAGAGATGTAATGCTGGCAAAGGATTCA
GATACAGTGCTCATTAAAACAAAACAAGGACGTAGTGTTTCCATGGATTTTAAGGATTTT
ACTGAGGATGTCGAAATCTTTGAGGGCGAGGGACCGAACGCGGAGGTCTTAAGACAAAGA
GAAGCTGAAGAATTAGAAGAGAGAAAAAAGAAAAGAAAACGAGCTGCAGGGTTATCATCG
ATGAAGAAAATATTTGAAAATAAAGAAAAGTTAGAGGAAGTGCAGGAATTTGAGGAGATT
AAAATGCGTCAAGAACGTCTGGCTAAAAAAGCCAAACTGGAAGATTTCAAGCACGAAAAA
CATGATATCAAGACGTACTCTTGTGATAAATTCGACTTACATCATATGCGTTCTAAATCG
AGTATAGTCTCGTGCAGTGGTGATTGGAAGGATCAAATGCAACCTCTCCCTGAATCGTGG
GACTGGGACTTATTTGAAAACCAAATGACTGGTGAAAAGTTTAATTCTAAAATTACTAAA
TTGCCATCGCCCATACAGATTACACCTCACCATTGTGATTCCGAAATTTTTGAAGTCGAT
AAAAATATTAGTGATGTTTCTGTTTCCTTAGACAATGTACCCTGTGTTAATCCTTTAAAG
CCGGTAAAAAATAGACCTTCTGAAGCAGTAATTAACGCAGTTGCAAATCTGCCCTCAGAA
AGATTAACAGAGACCGCAAATATCGCAGAAAGATTACTGGAAGTCAATAAAATAGATATG
CTTCCTACTCTCGAAAATTTACCAGAGGTTGTGAAGGGTATTAAGAAGGGCAAAAGGGAG
AGAGTTGCAAAAATATCAGGGCTTACATTGGATATAGATAAAGCAAAGAAATTTATACCC
GGCCAACATATAAATACACCACAAGGACCGGTGTTTGTACCAGGACAGACAGTAGAAACA
CCTTTAGGACCATTATTTGTACCGGGATTAACTGTGAATACTCCAGCTGGACCTGGACTT
ATTCCGGGGCATATTATAGAGAATGAAAATACTTGTGAGCCATTCTTCTTAGCCGGTCAA
GTGTTACAAACAATTAATGGAGAAGAATTTGTTTGCGGACAAACATTAAAAAGTAAAGAT
GACTCATGTAGATTTACTGAAGGTCAGACCGTTATAAGTGAGGAAGGTTTGAAATTCGTT
CCTGGAAAAATTATAAATAATGGATCTGAAGAGTTGTTCGTACCAGGACAAACAATAATG
ACTCCTGATGGAGTCCAATTTATACCCGGCCAAACAATATCTGAACACGATAACATAATT
TTTACTCCAGGTCAAAACGCCAAAATTAATAACGAGTGGCAGTTCGTACCTGGTCAAGCA
ATACATCATGATGACGAATTACATTTCGTGCCCGGTGCAACATTGTCAACGCCAAACGGA
CTTAAATTCGTACCTGGCCAAACAATTGAAGTAAATGGTGAAACAACTTTTGTTCCCGGA
ATTACAAGAATGAATAAGAATGGGTTAGAATTTATTCCTGGTACTACAGTTGATACTATT
GAAGGGCCAAAATTTATTGAAGGTCAAATTATGAGTACGGATAGTGGCGAAAAGTTTGTA
CCCGGAAAGACTATTGTACAGGGAAATGGAAATGTTGAATTTTCGATAGCAAAATCAATT
GAAGATATTACTTTTACGGAAAGTATGCCAACGGGATTACCTATTGACATTAAGACGTGC
TCACTGTCCGAAGAGTCTTTATATGTTTTTGGCCACATGGTGCAAACAACTACAGGTATA
GAATTTTATCCAGGGTCCAAAATTCCAAAATGTGAAGGTAAGGTGGTTCCTGGTCGTCTG
GTAAAGAATGAAGAAAACCAGTCACGTTTTGTTCCAGGAATGATGGTGGAAGGAATTTTC
GTGCCTGGTCAAATTGTTTTTACAGAAAATGGTGAACAATTTGTTCCTGGTCAAGTTGTA
GACACAGTGGATGGTCCTAAATTTGTTCCTGGTCAAGTAGTGAATACTAAAACCGGCCCT
AAATTCGTACCAGGACAGACAATACATACAATTGATGGGCCTAGGTTTGTACCTGGACAA
ATAATAGAAACGAAGGCTGGGCCTACCTTTATTCCGGGTCAAGTTATATCTACTGAGGAT
GAGGGTTCACGATTTGTTCCTGGCCAAGTAGTTGATACTGAAGAAGGCCCTCGTTTTGTT
CCTGGTAGAGTAATAGAAACTGACGATCAAGGTGTAACCTTTGTACCTGGGCAAATAGTA
CAAACCCCGGAAGGTTTGAAATTTGTAGCTCCTGACTTGATTGAAGGAGAAGAAGGTCTC
GAGTTTTCAGTACAAAGTTTCGTCGTTACTCCTGAAGAATTGAAATTATTAAAAGTAAAA
ACTAATCCCAATGACACAACTTCGACAAAAGGAGAGTTGACTATTGACACAAAAATGTTA
AGGCAACTTTCTGAAGCTGGAATGTCCATTGGAAGACAAGTACCTACAGATCTGCCGGCC
ATAAACGTGGTATTAAACCAGACCAAAAATGCTGAAGCATTAAAAGCTTTTGTAACAGAC
TTTGGATTAAAAGACGACGTAGCAAATCAATTGATGGATGTAATAACTTCCATAATAGAA
ATGAGTGCTCATTTAAAATCAGAAATGCACGTTAATTATAAAGAAAATGGTTCTGTGGCC
GAAAACAGGAAAGGACGTAGCAATAAAAAACGTTCAGAGATACAAAAAGACAATGATTTT
TCTGGGGACAAGGAACATAATATACATCAAGAAAAGGTTAAAAATTCTATTGCCGCTGCT
GTATTGGCTGCCCTCGTTACTGCGGAGCAATTCGAAGAGTTTAATAATAATAATAGTAAG
GAAAAATACAATCATATTCTTAAATCAATTGACACGATATTAGGTAAAGCTATAGATGAA
GATTTTGTTACTGCAATGTTTAAAGTTCTTCAAACAGAGGAAGATAAGGAAACACTGTGT
GAAGAAATACTTGAAAATTCGAGTTATTCAAAAGTAGAATTAATTAAAATTGCTGTTAGT
AGCATTTCAGACAAGAAACCGTTTACCGAGGAGCAGATTATTGATAGATTCGCCAAATTT
TTAAGCACTGAATGTGAAGTAATAGGGCCCGCTTTCAAAAACATAACCAAAAATGATACA
TGTTTGTTACAACACGTGTTAAGTCGAATCTCAGACTCTATTTCGTTCATCAAATCAGAC
AATGAAGCGGCAGAGACACTACAAAAAGCTATCGTATCAGCTGTACAGGAGACGAGCAGC
AAAAACTTGGAAACAATACTTGAAGGTTCAGATAAAGAAAATCTTAAAGCTATCATCGTT
CAATCGGCGGGACTTGCAAGAGTCCTTGGAATGAATGATGTGTCGAAGAAAATATTAACA
GCTTTAATAGATGATAGTTATTTAAATAATGTCACTAGTGACAAGACATGTATGGATGTT
TTAAAGAGATTAACAGTTATGAGAAAACTGGCTGAACAAACACCGAATCTTCACGGTACC
CTAGAAAAACTTGAAAAGGATCCATCATTAGCACGGACGGATCCAAAACTGAGAGACTTA
GTTCTGGAAAGTGCAGCTCTTATGATTGTGCCAGAAGAGCCTCCTTTGATGACATCAGAG
GACGTCCCATTAAGTTTGCTACAGCCAGAGAACAGTCTCGCAATGGAGGACTTCTTATTT
CAACGTAAAAAACACCGGGGGGCTCTTTTAATCATGAAAAAGGGACTGCAAGCAGTCGTC
CCTAGGGAGGCGAGTCGAGCCGTGCTAACTGGACAAGTGTCATACACAGTTTTAGACGAA
AATGGAATACGACATTTTGAACCATTGCATGTATTTTCTGCTCTTAATTTAAGTCAACCT
ACAGCACATAGATTTAGCATGTACAGTTGCCCAGTCTTAGACGATAACGACGAAGATCTC
CAAACATTTACCGGCTACTGTAATATAAGTACAAATCAAAGAATAACCAAATTGGGAGGA
TATAAAAGACACAGCGGTGTTAACATCGATAAAGAAAATTCGCGACGCAATAGTTACCTC
GAAAACACGCCGTCTTATAAGAGATATCAATCTAGATCCCTCACGAGATCGAGATCCACA
TGTAGTCGAAGTCCGCCGAAGGTGGACGATGTCGTGGTCGCGACATCCGACTACACGGCG
ACGACTGACGAGGAAGTGTCTCTTAAAGCTGGAGACATTGTTGAGGTTCTCGACACGAAG
GCCGTTGCCGGCGGATCAAAGTACAGAGGCCGTGTCTATAGATACGAGAATCATTTTTTC
CGGTCCAAGGGTCCCGCACTGGACTATGTGTTCAGTGTCCCCACTTACAAAATGTATTAT
TATTGA
Protein sequence:
MSFCRITGRSRGLPKPNYFPLLAPISPADAKRCCRITGKSYGLPSHHYIPVLLTTRSTKT
KCKITNVSGELGPHHYSPEINYGNRKHEMLPDYRYIFPVLDGSTEAQRYLMDMLLTKQIA
EEKRYVYTVDERRCSLVFSARLEAAVRDGDVRDVMLAKDSDTVLIKTKQGRSVSMDFKDF
TEDVEIFEGEGPNAEVLRQREAEELEERKKKRKRAAGLSSMKKIFENKEKLEEVQEFEEI
KMRQERLAKKAKLEDFKHEKHDIKTYSCDKFDLHHMRSKSSIVSCSGDWKDQMQPLPESW
DWDLFENQMTGEKFNSKITKLPSPIQITPHHCDSEIFEVDKNISDVSVSLDNVPCVNPLK
PVKNRPSEAVINAVANLPSERLTETANIAERLLEVNKIDMLPTLENLPEVVKGIKKGKRE
RVAKISGLTLDIDKAKKFIPGQHINTPQGPVFVPGQTVETPLGPLFVPGLTVNTPAGPGL
IPGHIIENENTCEPFFLAGQVLQTINGEEFVCGQTLKSKDDSCRFTEGQTVISEEGLKFV
PGKIINNGSEELFVPGQTIMTPDGVQFIPGQTISEHDNIIFTPGQNAKINNEWQFVPGQA
IHHDDELHFVPGATLSTPNGLKFVPGQTIEVNGETTFVPGITRMNKNGLEFIPGTTVDTI
EGPKFIEGQIMSTDSGEKFVPGKTIVQGNGNVEFSIAKSIEDITFTESMPTGLPIDIKTC
SLSEESLYVFGHMVQTTTGIEFYPGSKIPKCEGKVVPGRLVKNEENQSRFVPGMMVEGIF
VPGQIVFTENGEQFVPGQVVDTVDGPKFVPGQVVNTKTGPKFVPGQTIHTIDGPRFVPGQ
IIETKAGPTFIPGQVISTEDEGSRFVPGQVVDTEEGPRFVPGRVIETDDQGVTFVPGQIV
QTPEGLKFVAPDLIEGEEGLEFSVQSFVVTPEELKLLKVKTNPNDTTSTKGELTIDTKML
RQLSEAGMSIGRQVPTDLPAINVVLNQTKNAEALKAFVTDFGLKDDVANQLMDVITSIIE
MSAHLKSEMHVNYKENGSVAENRKGRSNKKRSEIQKDNDFSGDKEHNIHQEKVKNSIAAA
VLAALVTAEQFEEFNNNNSKEKYNHILKSIDTILGKAIDEDFVTAMFKVLQTEEDKETLC
EEILENSSYSKVELIKIAVSSISDKKPFTEEQIIDRFAKFLSTECEVIGPAFKNITKNDT
CLLQHVLSRISDSISFIKSDNEAAETLQKAIVSAVQETSSKNLETILEGSDKENLKAIIV
QSAGLARVLGMNDVSKKILTALIDDSYLNNVTSDKTCMDVLKRLTVMRKLAEQTPNLHGT
LEKLEKDPSLARTDPKLRDLVLESAALMIVPEEPPLMTSEDVPLSLLQPENSLAMEDFLF
QRKKHRGALLIMKKGLQAVVPREASRAVLTGQVSYTVLDENGIRHFEPLHVFSALNLSQP
TAHRFSMYSCPVLDDNDEDLQTFTGYCNISTNQRITKLGGYKRHSGVNIDKENSRRNSYL
ENTPSYKRYQSRSLTRSRSTCSRSPPKVDDVVVATSDYTATTDEEVSLKAGDIVEVLDTK
AVAGGSKYRGRVYRYENHFFRSKGPALDYVFSVPTYKMYYY