New model in OGS2.0 | DPOGS213592  |
---|---|
Genomic Position | scaffold66:+ 144319-146280 |
See gene structure | |
CDS Length | 1962 |
Paired RNAseq reads   | 12 |
Single RNAseq reads   | 29 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA011577 (8e-64) |
Best Drosophila hit   | CG8468, isoform B (7e-65) |
Best Human hit | monocarboxylate transporter 3 (2e-15) |
Best NR hit (blastp)   | GJ20065 [Drosophila virilis] (9e-87) |
Best NR hit (blastx)   | PREDICTED: similar to ENSANGP00000022461 [Nasonia vitripennis] (2e-78) |
GeneOntology terms    | GO:0015355 secondary active monocarboxylate transmembrane transporter activity GO:0055085 transmembrane transport |
InterPro families    | IPR016196 Major facilitator superfamily, general substrate transporter IPR011701 Major facilitator superfamily MFS-1 IPR020846 Major facilitator superfamily |
Orthology group | ND |
Nucleotide sequence:
ATGCAACCTAAACCAATACTAGTGAAGACACAAAATGACACGAAGAAAAATGTAATCAAT
GCACCTAGCAGAATCGTTAGTAGACCAGATAATCTTGAAGGTGGTGAAGAAACTGAAATT
GCAGCTCAGATACATGTTCCACAAGATGGTGGTTGGGGTTGGGTCGTAGTTTTTGCAGCT
TTTTTTTGTGTTTTTATACTGGATGGAATAACATTTACGTTCGGAAGCTTATTAAATGAT
ATTGCCAAGGATTTAAATGTTGCATCATCTTTAATTGCCTTGGTAAACTCCATAGCTATA
GCAATTTATTTTATTGCTGGACCTTTAGCATCGGCATTAATAAACCGTTTTGGATTTAGA
ACTTGTGTAATGTCAGGATCTATTTTAAGTTCAGTCTCCTTATTTATTGCTTATTTTGCC
AATAATTATACATCTTTTTGTTTGTTTTATGGCGTCTTTGCAGGATTCGGTTTTTGTTTA
GTTAATATGGCATCTGGACTCGTTGTTGGATTTTATTTTGAAAAACTTCGTACTTTAGCT
TTATCAATAGCTACAAGTGGGTCCAGTCTTGGAATTATGCTACTTTTCCCTCTGAACACA
TATTTAGTAAATCTGGCAGGTTGGCGTACAACGACATTGTTGCAATCTGGTTTGATTGGT
ATTACATATTTTTTAGGAATGACTTTTCAGCCATTGCTGTCATTTACTGTTGTTAAAACA
ACAGAAGATCCTACACGCACTGTTACCTATTTGCCCAATTTATCAGCTGCTGGAATGAAA
GCAACCGTTTCACGTACTAATGTCGATGAATTGGTACCTACAAAAACCGAGAGATTATTT
GGAGCTGTGTCAAATTTAAACTTTCCTACAGCTGCTGCCGTCGTTGAAGAGGGTGCGACT
CCATCCAGTACACAACCTGGTACATCGACTGGACCGATATCTAAACTTACATTAACAGCC
AACGCACCTCATGGAGGCATATCTCAGAGACAATTAAAACAAGTTAAATCAATAATTTCA
AGATCTAGTGTTCAAGATAAAACGAAAAAGGCTATTGAAATCACAGTTAACGTGGAACCA
CCTAAGAAAACCAGTTGCTGGGGGCGTTTATGTCGTTGGGAAGAAGAGGTACCTCAATCT
CGTCCAATGTATCGGGACGATGCGTTTTATGAAGGAAAATTAGAAAAACTCCCTGCTTAT
CAAAAAAGTAAGATTGCTACCGACCAATCGAAAACCGGTCTTGAGTACCAACTAGCTGTG
TCTAGAGCAGCTACTACGGCTGATTTGGGCGAAAAAAGAGGCATTTTTACCACTGCTGTC
AGAAGAGTGCTTGCTACAATGATGGATCCAAAGCTTTTGAGAAAAAAATCGTTCTTGAGC
TTATGTTGCGCAGGTTTAATGATATATGTTGGTTATATGGTTCCGTATGTATTTATAAAA
CCAAGAAATGTTTTGGCTGGCCTAGATAAAGATCATTGTACTATGATGGTGAGTTCTATA
GGATTTGCAAATTTTGTAGGAAGATTAGTTCTGGGAGGAGTCGCCTTTAAAGTGAGTCCC
CTAAAGGTGTATGTTTTTGCAATGCTTGTGGCAGGTATCGTAACAATCTTATCAGATTTA
TCATTTAATTTATACTTCCAATACGTGTATTGTTTCGTCTTTGGTTTTTTTGTGGCCAGT
GCCGCTTCGTTAAGGAGTCTGGTTATAGTGTCTTTATATGGGTTGGACAACTTAACAAAT
GCAACAGGAATTATAATGCTATTTCAAGGTCTCGGTAGTTTAGTTAGTACGCCTGCAGCG
AGCATACTTATTGACACATATGGGTATTCAGTGGCGTTTTACGTGTCTGGGTTATTTATA
ACAGTTGGTGGTCTTATATTGATACCGATTTCAAGATTGGCAATCAGAGAGCAAAAATTA
ATTACTGTATCGGAAAGAAGAGCATCAAGTGATAGGAAATAA
Protein sequence:
MQPKPILVKTQNDTKKNVINAPSRIVSRPDNLEGGEETEIAAQIHVPQDGGWGWVVVFAA
FFCVFILDGITFTFGSLLNDIAKDLNVASSLIALVNSIAIAIYFIAGPLASALINRFGFR
TCVMSGSILSSVSLFIAYFANNYTSFCLFYGVFAGFGFCLVNMASGLVVGFYFEKLRTLA
LSIATSGSSLGIMLLFPLNTYLVNLAGWRTTTLLQSGLIGITYFLGMTFQPLLSFTVVKT
TEDPTRTVTYLPNLSAAGMKATVSRTNVDELVPTKTERLFGAVSNLNFPTAAAVVEEGAT
PSSTQPGTSTGPISKLTLTANAPHGGISQRQLKQVKSIISRSSVQDKTKKAIEITVNVEP
PKKTSCWGRLCRWEEEVPQSRPMYRDDAFYEGKLEKLPAYQKSKIATDQSKTGLEYQLAV
SRAATTADLGEKRGIFTTAVRRVLATMMDPKLLRKKSFLSLCCAGLMIYVGYMVPYVFIK
PRNVLAGLDKDHCTMMVSSIGFANFVGRLVLGGVAFKVSPLKVYVFAMLVAGIVTILSDL
SFNLYFQYVYCFVFGFFVASAASLRSLVIVSLYGLDNLTNATGIIMLFQGLGSLVSTPAA
SILIDTYGYSVAFYVSGLFITVGGLILIPISRLAIREQKLITVSERRASSDRK