New model in OGS2.0 | DPOGS201196  |
---|---|
Genomic Position | scaffold1354:- 28967-36628 |
See gene structure | |
CDS Length | 2919 |
Paired RNAseq reads   | 572 |
Single RNAseq reads   | 1523 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA014240 (0.0) |
Best Drosophila hit   | slimfast, isoform B (4e-93) |
Best Human hit | low affinity cationic amino acid transporter 2 isoform 1 (5e-58) |
Best NR hit (blastp)   | GE22647 [Drosophila yakuba] (4e-128) |
Best NR hit (blastx)   | GG16286 [Drosophila erecta] (3e-100) |
GeneOntology terms    | GO:0015326 cationic amino acid transmembrane transporter activity GO:0040007 growth GO:0006865 amino acid transport GO:0016020 membrane GO:0055085 transmembrane transport GO:0006629 lipid metabolic process |
InterPro families    | IPR004841 Amino acid permease domain IPR015606 Cationic amino acid transporter IPR002293 Amino acid/polyamine transporter I |
Orthology group | MCL40953 |
Nucleotide sequence:
ATGGCAGTCAAGTGGCGTGATCTGCTCTGCACGCTGAAACGAAGGCGAGTCTTCGAACCC
GATCAGCTCGACGTGGGCAATCTGAGACGATGTCTGTCAGTATGGGATCTGACGGCGCTG
GGTGTGGGGAGCTCGCTGGGAGTGGGTGTGTACGTGCTGGTGGGATCCGTTGCGCTTCAC
CTGGCCGGACCCTCCATAGTGCTTTCATTCCTCATTGCAGCTGTAGCAGCTGTTGTGGCT
GCAATGTGTTACGCGGAGCTGGGGTCGCGGGTTCCGAAAGCTGGGTCTGCATACATATAC
ACATATGTGACTGTTGGAGAGATAGTGGCCTTCATTATTGGTTGGAACATGATCCTGGAA
CTGGTCTTTGGGACGGCGAGTGTCGCCCGGGGTCTCAGCATGTACGTGGACTCGGTCACC
AACAAGACCATGTCCTCGTGGATGGAGTCGCTCGTTCCGATTCACTCTGATTACTTCTCC
TCCTACTTTGATATCTTTTCATTCTTCGTGGTCGTATTTTTGGGGGCGGACTTCAGTAAC
TGGAATATCCCACCGAGCGAGGTGCCGTCAGGTCGTGGTGTGGGAGGATTCTTCCCTTAC
GGCATCTGGGGCACGTTAAGAGGGGCCGCCCTATGCTTTTATGGATTCGTCGGATTTGAT
AGCATTAGCTCTACCGGAGAGGAGGTGCGAGATCCTCGTCGTGCTCTACCAATATCAATA
ATGGCCACGCAAGTGATAGTGTTCCTGGCCTACGCGGGCGTGTCCATCGTCGTCACTATG
ATGATGCCTTATTACCTACAGGAGACGGTAGCCTCAGTGGCAACGTCATTCGCCTACGTG
GGCTGGGACTGGGCGCGGTGGTTCGTCACAATCGGCGCAGTGATCGGCATATCAGCCAGT
CTGTACGGCTCGATGTTTCCTCTCCCTCGTCTGCTGTACTCGATGGCATCAGACGGTCTT
CTGTTCCACTGGCTATCCAAAGTGACTTCAAAGAGGAAATCACCAACCGTCGCCACTATA
CTGTCCACGGTGGTTATTGCTATACTAGCGGCTTTATTGGAGTTGAATGATTTGATTTTG
ATGATGTGTGTTGGGACACTTTTGTCTTACACGATCGTCGCTTCCTGCGTTATTCTATTG
AGGTACCGTTCGAACACATCATCGCACGAATTGACGGCTAAGCATGTTGTTGGTAACGGT
CGTAGGTTACCGACGCGGACGACATCAACTATTGTTGTTACATTACTGCTATTGTTCATT
TGTGCGTGTGTGTCGTCTGCGGTGGTCGTGACCCACGTGTCGGAGCCTCTGGTCGGCGCC
TGTACCATTCACGCGGCGGGTCTACTACTGATTGTTGCCATGGCGCTGCAGCCGCAGAAT
GACGAGGACTTAACCTTTCAGTGTCCCCTCGTCCCCATGATTCCTTGCATCAGTATATAC
GTCAACATACATCTGATGATTCTCATAAAACTTCAGACCTGGATACGTGTTTTGTGCTGG
ATAGCAATCGGTATACCAGTTTATATATTCTGTGTCTGTTGTTATAAGCAAAAAGTGGAA
AATTACACAGAAAACAATACAAACTCGACACAAGCGAACGGTAAGGCACCGGTTCAGATA
TTCGTTGTGTCACCCACACCTCCCGCTACTATCGGACGTAGTAACCAAGGAGGCGGGTAC
GATCACGATGACGACATCCGAGTGGACTTGAAACAAAATATTATACACATTAAAGAACCG
GTTATAATGGAAGAGATAATAGTTCAACATGCTTACATCGGGGACAATGAAGAAAAGGAA
GCCAAGATTATAGATTTGCTGGACCAGGTGTTACAGGCTGAAGAGGATTCTTATGAAGAG
ATAATAAGTTTGAAAGAACATAAGGAAGAACCTCAAGAAGAAGTTAAAACTCCAGAAATT
AAAACGCACAGAAAATCGTTGAGTGAATTATCTGACGCTGGGTCAGATGTATCTAACCAA
GTGCTATCTAAATACGATGTGATTGCTCAAGTTCATAGAGAAGATTTGCAAAAACTCACA
GAAGAAGAAGAAGAGAAAAGCGATAAAGAAACCGAAAGTAGCGATAATGAAATTCTCGAG
AACGAAGATCTTAATTGCAATGGTAGCGATACGACCTCTAGGACAGACGAATCTGGTTAT
TCGGATACACTCGATAAAACAGTTCTCGGTGAATCCACAGAAGATTTAAAAGAAGCAGAG
GAAATACCAAACATACCAGTCCCACCGCCTTTAGACGAAAACTTCTTCGCTAGTCCAACA
TTTAAAAAATCATACACGATATCTGTTAGACCACCGAAAAGACAAGTCGAACAAGAAGAA
AACAAGCCCAGGGAGAGTGTTGATTCGAATCATTCCTACGACGACGCACCGATGGTATTT
GGAAGCGATAAGCAAATGAATTTCATGTCCAAATTAGAAAACATCTTTCAAAGTAAAATG
GCGAATGACAATGAAGAAGACCCCCATAGAAAAAGATCAAATTCTACCGGTAATGTAGTG
GATAGTCCGAATTCACAGCCAGTCCGACCGGTAATGTTGCTTGATTTGAAAAAAGAAATT
GTTTCAAGAGATGTGGCTCAGAATTTACGTCATGTTGATGCAGAAGAGAAAAAAGAATCT
TCTGAGGACGAGGAAGAAGATGTCAGTATGAGCCGCGAAGATCTAAAATCCAAGTTAGAA
AATATATTTGCAGTGGGTGGACCGCAATTAATTAAAAGTAGATTAATGAAATCCAATCCT
CCTACACCTGAAGAGGCTTACCATACCGACGCATCAAGTACAGAGAGTATACCTAAAGTG
CCTAAAAAGGAAAAGAATGACACATTAAAAAGACAAAAGACCAAATTTGGGGAAGTTCTG
AATTCTTTACGGATGATGAACAATGATGATAAAGTCTAG
Protein sequence:
MAVKWRDLLCTLKRRRVFEPDQLDVGNLRRCLSVWDLTALGVGSSLGVGVYVLVGSVALH
LAGPSIVLSFLIAAVAAVVAAMCYAELGSRVPKAGSAYIYTYVTVGEIVAFIIGWNMILE
LVFGTASVARGLSMYVDSVTNKTMSSWMESLVPIHSDYFSSYFDIFSFFVVVFLGADFSN
WNIPPSEVPSGRGVGGFFPYGIWGTLRGAALCFYGFVGFDSISSTGEEVRDPRRALPISI
MATQVIVFLAYAGVSIVVTMMMPYYLQETVASVATSFAYVGWDWARWFVTIGAVIGISAS
LYGSMFPLPRLLYSMASDGLLFHWLSKVTSKRKSPTVATILSTVVIAILAALLELNDLIL
MMCVGTLLSYTIVASCVILLRYRSNTSSHELTAKHVVGNGRRLPTRTTSTIVVTLLLLFI
CACVSSAVVVTHVSEPLVGACTIHAAGLLLIVAMALQPQNDEDLTFQCPLVPMIPCISIY
VNIHLMILIKLQTWIRVLCWIAIGIPVYIFCVCCYKQKVENYTENNTNSTQANGKAPVQI
FVVSPTPPATIGRSNQGGGYDHDDDIRVDLKQNIIHIKEPVIMEEIIVQHAYIGDNEEKE
AKIIDLLDQVLQAEEDSYEEIISLKEHKEEPQEEVKTPEIKTHRKSLSELSDAGSDVSNQ
VLSKYDVIAQVHREDLQKLTEEEEEKSDKETESSDNEILENEDLNCNGSDTTSRTDESGY
SDTLDKTVLGESTEDLKEAEEIPNIPVPPPLDENFFASPTFKKSYTISVRPPKRQVEQEE
NKPRESVDSNHSYDDAPMVFGSDKQMNFMSKLENIFQSKMANDNEEDPHRKRSNSTGNVV
DSPNSQPVRPVMLLDLKKEIVSRDVAQNLRHVDAEEKKESSEDEEEDVSMSREDLKSKLE
NIFAVGGPQLIKSRLMKSNPPTPEEAYHTDASSTESIPKVPKKEKNDTLKRQKTKFGEVL
NSLRMMNNDDKV