New model in OGS2.0 | DPOGS215970  |
---|---|
Genomic Position | scaffold796:+ 20716-27775 |
See gene structure | |
CDS Length | 3936 |
Paired RNAseq reads   | 235 |
Single RNAseq reads   | 630 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000927 (0.0) |
Best Drosophila hit   | CG5549 (0.0) |
Best Human hit | sodium- and chloride-dependent glycine transporter 2 (1e-137) |
Best NR hit (blastp)   | GK22198 [Drosophila willistoni] (0.0) |
Best NR hit (blastx)   | GK22198 [Drosophila willistoni] (0.0) |
GeneOntology terms    | GO:0015375 glycine:sodium symporter activity GO:0005887 integral to plasma membrane GO:0005328 neurotransmitter:sodium symporter activity GO:0006836 neurotransmitter transport GO:0005326 neurotransmitter transporter activity |
InterPro families   | IPR000175 Sodium:neurotransmitter symporter |
Orthology group | MCL16481 |
Nucleotide sequence:
ATGAAAACGGAAAAGCAATCACCGACGCCGATTCCTGCGGTGACCAAGAACATACCAGCA
ATGGATCTAAATTATTCTGATTATAAGGACGACGTAAGTCGAGAACCGATTGTAGAGGAA
GTGGAACCGGAAAGAGGGAATTGGACAGGACGTTTCGATTTCCTCCTATCTCTTCTAGGT
TATAGCGTGGGGTTGGGCAACGTCTGGAGATTTCCCTACCTCTGCTATAATAACGGAGGA
GGTGCCTTTCTGATTCCTTTCACCGTAATGCTGATAATAGCTGGTCTTCCTCTTATGTTC
ATGGAGCTGTCTTTCGGACAATACGCGGCCTTGGGTCCGGTAGCTGTTTACAATAGATTC
TGCCCACTTTTCAGAGGATTGGGCTATGGGATGGTCATAGTATCAAGTATAGTTATGTTA
TACTATAACCTGATCATTGCTTGGACTATCTATTACATGGTGGTGTCGTTTACAAGCATT
TTTTACCAATTGCCGTGGCAGAACTGCGACGCTGATTGGAGCACTAAATATTGTTATTCA
TACGAAGAAGCAGACATATGCGAGGCGAGCAATGGCACGTACTATCTGAGACAATGTGTG
AATCAAAGCTATGCCATTGTTAATAATATCATTGCTCTAGCTGATACAGCAGTAAGAAAG
CCCCCTGCTGAGGAATATTTTACTAATCAAGTGCTTGGACTTTCATCTGGCATTGAAGAA
ACAGGTCAAATCCGCTGGGGTATGGCTGCTTGTCTATTCGCTGCGTGGCTTATTGTATTT
CTTTGCTTATGCAAAGGTGTACAGTCTTCGGGAAAGGTCGTCTATTTTACAGCGTTGTTT
CCTTACGTGGTTTTGGTGATTTTATTTTTTCGTGGTGTTACTCTGCCTGGAGCGTCGACG
GGTATACTGTTTTATCTTACACCAGACTTTAGCCAACTTGCAAATGCTCAGGTGTGGGGC
GATGCAGCAGTGCAGATATTTTTTGCATTGAGTCCAGCTTGGGGAGGACTAATTACTTTA
TCCTCCTACAATAAATTCTCAAACAATTGCTACATTGATTCTCTCATAGTTGCTGTCTCT
AACATTGCAACGTCGTTCTTCGCTGGGTTGGTGATTTTCTCCGTTATTGGATTTTTGGCT
CATGAGCTTGAGGTAGAAGTTGACCGTGTGGTAGACCAGGGCGCTGGACTGGCATTTATT
GTATACCCGGAGGTGGTTACAAGATTACCAGTATCACCTTTATGGTCCATACTTTTCTTC
GTTATGCTTCTGACATTGGGACTTGATTCTCAGTTTGCTCTCATGGAGACTGTAACAACA
GCTATTTTGGATCGATTTCCAAAATTTCGACAGAAGAAGACATGGGTAGTGCTAGCAGTG
GCTGTGTTCGGTTATTTGGGTGGCTTGATTTTCACGACAAATAGTGGTATGTATTGGTTA
CAATTGATGGACAAATACGCAGCGAACTGGTCGGTTCTGATCATAGCTATTGGAGAGTGC
ATTTTGATTGCTTGGATATATGGAGCTGAAAAGTTCTGCATCGATATACAAACGATGATT
GGTAGGCAGTCGAGGCTTTGGGTGGTGTTCTGGAGTGCCATGTGGAGGATTATTACGCCA
GCAGCCTTAGTTTTTATTTTGGTGTTTAATTGGATTGAGTACAAGCCAGCTTCTTATGGT
CATTACGTATACCCAATGTGGGCGGACGCGGTGGGTTGGACACTGGGAGTGTTGCCTATA
GTCGTCGTAGTACTGATGGCCGTCAATCAAATATGCAGTGGACCCGACGATCTTACTATT
ATGGAGAAAGCAAGAGTCCTCGCTCGTCCTACTGAGGAATGGGGTCCAGCGTCTGCATCC
TGTGCTAGCACTTTCCGCGAGACGGAGCTGTCTCCACCTGTACTGCTGCTTCACGGCAGG
CCGACATCACAGGATGGTGCAGACTCGACATCCATTGGTAGTGGATTAGATAACGAACTA
AAGAAACCCAGTACAAGCACTAACAAAGTAAAGAAAAATTCTATTAAAAGGAAAGTGCCA
AACTTCAGCCATGATTCAGATGACGCTATCATAGAACCGTTGTTGCAAACTGAGAAAGAT
AATTCTGTGATTGCTAACAAAAGTGCCAAATATTTATTAAACAAATCTAAGACTGAGAGC
ATGTGCGAAAAAGATGCAAAACCATATGAAAAAGCCAAAATATCATCACCTTCGAGTATT
TCAAATAATATTGCTTCTACGGTTGAAAAACGAACATCTCCCTTAACTTCTGAGTCACCA
CCTATCTATAATCACATGAACACGAATGTCTTTAGTGGATATGACTTAACAAAAGAAAAG
ACAACAACAGCAAGTAGTTCCGTTCTTGTAGAAATTGATGGATGTAAAATTGTATCCCAG
GGAACAAACCCAGTTATCTTTACAACGGCAAAAATTCATGCAGATAATAAAACGAAGGCA
ATCGAACCAGTTCCAGTTACAACTGTGCCAATATTATCAACAATCGAAGGTAATATTGTC
AAATCTGGAGTTATCTATGAAGATAATAAAAGATATAATGTATCACAAACCAATAAAGGC
GATATAACGAAAAATGTGAATATAAAATCTGATTTAACGTTGGAATCATCAAATTTCAAT
AACCAGCCTAATGCCAAGGTAACACCTACTATACCTTTAACATCTATGCACATTAAAAAT
GAACAAAACAAAAATAAAGAACTGAAAGAACAATCTGCTGGTTCCTCTGAACAATCAGAA
AAGTTGTTTAGCAAAGATCAAAAGGTGAGTCTTGGAAAGGTTAATACAAATACTTCTGAT
GAAAGATCTTTAATGCCTAAAGTAACTTGTGATGACAAAATAACAACAAAAGCAGAAAAT
ACTATGTATAAAAGCAATGGTGTATTGCCGGATACTTCTAAAGAATTATTGAAATCTTCA
AATAAACCAAGTACATTAAATAAAAGTAACATAGTCGAGAAAATAAAGCCATCAAGTGAC
GTTGAAAAGATAAGTACAAACCAGTCAACAACAAGCTCAACTAAACAAAGTAGCAAATCA
AATGTATCACCTCAAAGCGATCAAACTGATTCTAGCAAGAACTTTTCTTCAAGTATTAAA
AAACTGCAACGACAAAAGAATGCTATGATGGAGGAAGCTGTTGAAACTGGTAAAAAAGAT
TTGGTTAATTCAGCTAAGGATAAACCTTGTACAGTACAGAATATTATGTTAAAGGATGTA
ACTACTGCCGTTTCAGTGAATACAAAAACGATCCAAAAACCAGTCACGTCCTTGACAAAG
GTGGCAATAACTTGTGCAGGTCCAAAAGCTGCATCTGAATTACCTTCGAAATCAATAAAT
ACTACTGTACTTACCCCAGCTATAAAATCTCCTTTAATTACTCCGGGAACATCAACGACA
TTAACAACTAAACCGAGTACTAGTGCTGACACAGCGAAAGCAAAGTCAACATCAACTAAA
ATTCCAGAGACGTCTGGCAAATTAGCTACGAAGCCATCTTTAAATATTACAACTGTGACC
ACAGCTCCGTCTACAAAAACATCAACGGCTCCTTCTGTGAAAAGTATGAAGGTAACGGAT
GACCCAACCCCGTCAAAACAGGACAGTCCTTTAGTTTCCACTTCATCATCGAAAATACAC
AAAGCAGAAACTACTCCAACGTCATCTGTCGCTACTACTCTCCCACTGTATATAGTTTCT
ACGTCTAAAACTAAAATAGGTTCATCCTCAACTCCTAGTATATCTAACGTGACTAAGAAA
ACGCTTGATCAAAAACCTATTACGGAAGTTGTAAGTACTGCAAATGGGAAATCGGGAAAA
GCGTTGATGTCAACATCATCGTCACAGAATAATCAGTCTGGTTCAAAACCAAAAACTTCT
ACAGTTAATTTAGTCAAAAAAGATGATAGAGCTTAA
Protein sequence:
MKTEKQSPTPIPAVTKNIPAMDLNYSDYKDDVSREPIVEEVEPERGNWTGRFDFLLSLLG
YSVGLGNVWRFPYLCYNNGGGAFLIPFTVMLIIAGLPLMFMELSFGQYAALGPVAVYNRF
CPLFRGLGYGMVIVSSIVMLYYNLIIAWTIYYMVVSFTSIFYQLPWQNCDADWSTKYCYS
YEEADICEASNGTYYLRQCVNQSYAIVNNIIALADTAVRKPPAEEYFTNQVLGLSSGIEE
TGQIRWGMAACLFAAWLIVFLCLCKGVQSSGKVVYFTALFPYVVLVILFFRGVTLPGAST
GILFYLTPDFSQLANAQVWGDAAVQIFFALSPAWGGLITLSSYNKFSNNCYIDSLIVAVS
NIATSFFAGLVIFSVIGFLAHELEVEVDRVVDQGAGLAFIVYPEVVTRLPVSPLWSILFF
VMLLTLGLDSQFALMETVTTAILDRFPKFRQKKTWVVLAVAVFGYLGGLIFTTNSGMYWL
QLMDKYAANWSVLIIAIGECILIAWIYGAEKFCIDIQTMIGRQSRLWVVFWSAMWRIITP
AALVFILVFNWIEYKPASYGHYVYPMWADAVGWTLGVLPIVVVVLMAVNQICSGPDDLTI
MEKARVLARPTEEWGPASASCASTFRETELSPPVLLLHGRPTSQDGADSTSIGSGLDNEL
KKPSTSTNKVKKNSIKRKVPNFSHDSDDAIIEPLLQTEKDNSVIANKSAKYLLNKSKTES
MCEKDAKPYEKAKISSPSSISNNIASTVEKRTSPLTSESPPIYNHMNTNVFSGYDLTKEK
TTTASSSVLVEIDGCKIVSQGTNPVIFTTAKIHADNKTKAIEPVPVTTVPILSTIEGNIV
KSGVIYEDNKRYNVSQTNKGDITKNVNIKSDLTLESSNFNNQPNAKVTPTIPLTSMHIKN
EQNKNKELKEQSAGSSEQSEKLFSKDQKVSLGKVNTNTSDERSLMPKVTCDDKITTKAEN
TMYKSNGVLPDTSKELLKSSNKPSTLNKSNIVEKIKPSSDVEKISTNQSTTSSTKQSSKS
NVSPQSDQTDSSKNFSSSIKKLQRQKNAMMEEAVETGKKDLVNSAKDKPCTVQNIMLKDV
TTAVSVNTKTIQKPVTSLTKVAITCAGPKAASELPSKSINTTVLTPAIKSPLITPGTSTT
LTTKPSTSADTAKAKSTSTKIPETSGKLATKPSLNITTVTTAPSTKTSTAPSVKSMKVTD
DPTPSKQDSPLVSTSSSKIHKAETTPTSSVATTLPLYIVSTSKTKIGSSSTPSISNVTKK
TLDQKPITEVVSTANGKSGKALMSTSSSQNNQSGSKPKTSTVNLVKKDDRA