New model in OGS2.0 | DPOGS214114  |
---|---|
Genomic Position | scaffold161:- 11200-16270 |
See gene structure | |
CDS Length | 1677 |
Paired RNAseq reads   | 132 |
Single RNAseq reads   | 308 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006164 (0.0) |
Best Drosophila hit   | neurotransmitter transporter-like, isoform A (2e-120) |
Best Human hit | sodium- and chloride-dependent glycine transporter 2 (1e-108) |
Best NR hit (blastp)   | proline transporter [Chilo suppressalis] (0.0) |
Best NR hit (blastx)   | sodium and chloride dependent proline transporter [Manduca sexta] (0.0) |
GeneOntology terms    | GO:0015187 glycine transmembrane transporter activity GO:0016006 Nebenkern GO:0005634 nucleus GO:0016007 mitochondrial derivative GO:0005887 integral to plasma membrane GO:0005328 neurotransmitter:sodium symporter activity GO:0007287 Nebenkern assembly GO:0007291 sperm individualization GO:0005326 neurotransmitter transporter activity GO:0006836 neurotransmitter transport |
InterPro families   | IPR000175 Sodium:neurotransmitter symporter |
Orthology group | MCL17679 |
Nucleotide sequence:
ATGTCGTATGCTGCACACGAGCGCTGGGCCAGTCAGGCCGAATACTTGTTGTCATGTCTC
GGATACGCTGTTGGTATTGGAAACATATGGAGGTTTCCATATCTATGTTACAGGAATGGG
GGCGGTGCATTTTTAGTTCCATACTTTTTAACCTTAATCGTGTGTGGCATCCCTTTGGTT
TATTTGGAAACTCTGTTAGGACAATTCTCTAATGCTGGATGCATTTCAGTTTTCAATATA
AATCCGTTGCTGAAAGGGGCCGGTTATGCCGCTGTAATCCTGAATGTTATAGCTGTAATA
TACTTCGCGTCTATAATGGCTTATCCAATACTATACATATATCACTCCTTCGGTTCGCCA
CTCCCCTGGCAAACTTGTTCCAATTCATGGAACACTGAAAACTGCACAGAGATTACTGTA
AACTCGAGTTTATTTATGAATGGTACAATCACTACGCCTGAGGACGAATTTTTCCATATA
CGTCTATTACACATGTCTTCAGGCTTGAGTCAAATCGGTGGTATAGTCTGGCCAGTTTTC
TGGTGTAACGTCATCTCGTGGATTCTAGTCTATCTTTGCATCTGCAACGGAGTTAAAAGC
GTCGGAAAAATTGTTTACTTCACCGTCCTATTTCCTTATGTCGTGCTAACAGCGTTGTTC
GTAAGAGGCATAACATTGCCTGGCTCTTGGCAAGGCATACTTTACTTTGTGCTGCCGGAC
TGGAAACAATTATTGAACCCAAAAGTGTGGGCTGATGCGGCTACCCAAATCTTCTATTCA
CTAGGTCCTGGATGGGGTGGACTCGTCAGCATGGCCAGTTTTAACAAATTCCATTATAAT
AACTTAAGATCATCAATAATAATTCCCTTAGTTAACAGCGGTACCAGCATCTGGGCTGGG
TTCGTTGTGTTCTCGGTTTTGGGTTTTGTGGCTGAGCGGGCGGGTGTGCCGGTGGGCCGG
GTAGCTACAGCTGGACCCGGGCTCGCTTTTGTAACTTACCCAGCCGCTGTATCCATGATG
CCGGCTCCCAACTTTTGGGCTATAACCTTCTTTGTTATGCTTTTCTTTCTCGGTATCGAC
TCAATGTTCGTTACAATAGAATCGGTAATAGCTGGTGTGATGGACGAGTTCCCTCAACTG
CGGCGTCGAAAGAGATTCATTACTTTGATGACCTGTCTGTGTCTCTTCTGTTTGTCAATC
ATTTGCAATACTGAGGGCGGGTTACATATAATAACTCTACTGGACGCTCATGTCGCGATA
GCGGCCGTACCGGTAGTATGCGGTATGGAGATATTAGGGGCTGTGTACACATACGGACCG
AGGAAGTTTAGTATCGATGTGTTATTCATGACCGGAAAACCTCTGATGCGATTTTGGTTG
ATTATGTGGAGGTATATAATACCAGTTCTGCTCGTGGTAATAACAATATACTCCCTTCGT
GAAGTGAATGGCATAACGGGATGGATCGTTGCCTTCATCTCAGTTATATGCGTTCCTATT
CACGCTGCTAAAGTACTATTGAGGGGAAAGGGGAATTTTATAAAGAGGATACGAGACAGT
TGTGAGCCGAGTGAGAACTGGGGTCCCATTGAACCTGTTGTAAGGGAACAGTGGAAAGCC
TTCCAGAACCTTCACAATGTCTCTGATATTCCGCTAAACTTAACAAAACCGAACTGA
Protein sequence:
MSYAAHERWASQAEYLLSCLGYAVGIGNIWRFPYLCYRNGGGAFLVPYFLTLIVCGIPLV
YLETLLGQFSNAGCISVFNINPLLKGAGYAAVILNVIAVIYFASIMAYPILYIYHSFGSP
LPWQTCSNSWNTENCTEITVNSSLFMNGTITTPEDEFFHIRLLHMSSGLSQIGGIVWPVF
WCNVISWILVYLCICNGVKSVGKIVYFTVLFPYVVLTALFVRGITLPGSWQGILYFVLPD
WKQLLNPKVWADAATQIFYSLGPGWGGLVSMASFNKFHYNNLRSSIIIPLVNSGTSIWAG
FVVFSVLGFVAERAGVPVGRVATAGPGLAFVTYPAAVSMMPAPNFWAITFFVMLFFLGID
SMFVTIESVIAGVMDEFPQLRRRKRFITLMTCLCLFCLSIICNTEGGLHIITLLDAHVAI
AAVPVVCGMEILGAVYTYGPRKFSIDVLFMTGKPLMRFWLIMWRYIIPVLLVVITIYSLR
EVNGITGWIVAFISVICVPIHAAKVLLRGKGNFIKRIRDSCEPSENWGPIEPVVREQWKA
FQNLHNVSDIPLNLTKPN