New model in OGS2.0 | DPOGS205638  |
---|---|
Genomic Position | scaffold67:+ 4554-10497 |
See gene structure | |
CDS Length | 2916 |
Paired RNAseq reads   | 273 |
Single RNAseq reads   | 783 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001147 (6e-175) |
Best Drosophila hit   | CG4797, isoform B (9e-53) |
Best Human hit | solute carrier family 2, facilitated glucose transporter member 1 (8e-30) |
Best NR hit (blastp)   | sugar transporter [Culex quinquefasciatus] (4e-102) |
Best NR hit (blastx)   | sugar transporter [Culex quinquefasciatus] (6e-103) |
GeneOntology terms    | GO:0005355 glucose transmembrane transporter activity GO:0016021 integral to membrane GO:0055085 transmembrane transport |
InterPro families    | IPR016196 Major facilitator superfamily, general substrate transporter IPR007087 Zinc finger, C2H2-type IPR020846 Major facilitator superfamily IPR005828 General substrate transporter IPR000477 Reverse transcriptase IPR005829 Sugar transporter, conserved site |
Orthology group | MCL39503 |
Nucleotide sequence:
ATGGACCCGGCACCCGCACGGACAGTCCGAGAGGGGGGGCGAAAGATCTGTCCACCGGTC
GATGTAAACGGCGAAAACGGCGCGAATACGGATTTGAAATGCCCTACGTGCGGGAAAAAT
TACAAGAGACGAGCCTGGTACATTAAACATCTAAAAACACATAATGGTGTTGAAGCACGA
CAATCGTCGGTAAGTTCTTCAACTTTCACTGCGGATAGAGTTGACCCTCATGTATCCCAT
GGTGAACCATTAACTGGAAACTACCAGGAGTCCATTGACATCCGGACACGTCTTAGCATT
CCAAACATGAAACAATCGACTTGGAAAGTTCACGACGACAATTTAGCGGACCTGTTAGAG
CATCCGGGCTCGAAGCAGGATTTGAACTCGCGAGTAGAAACTTTCCAAAATACTATTTAC
GACTACTTTAACGAGCAATATCCACCTCGAAATCATTACGCTCGCAAAAATAAAGACAAT
TCTTTCAAGATAAAAATGAGGAGGAAAAAACGGGAATTAATAAAAAATCTACGTATAGCC
AAAGCCCTAGGCGACAATCACCTTAGTCATCAACTAGCTAGGGCGTTAAGATCGATTCTA
AAATTAATTCAAGGAATATCGGCGCAAACCGCAGAAAATCGCGATAATTTTGACCGGGCA
AAACAGGAAGTAGATTTTGATAAAAACCCTTTTGAGTATTCGAAAACCATTTTTAAGAAA
GAACGCGGACAGCTTCTCTTGACCAATGAACAAATTTACGATCATTTTAAGAGCACATAC
GAAGTGCCTAAAAGTGTAAGACTCTATGCGGATCCCAACGAACAAAAACCTGGAATTCCT
CGTTTCGATTTCCACGGCATTCCACCAACGCTAGATGAGATAAGTATTCAGATAAAGAAA
AAATCGTCTAAATCTGCGCCGGGACCCGATGGTATCCCATATATAGTCTTTAAAAAATGT
CCATCGGTTCGTAAACATCTCACATATATATACGATAAAATCTGGTCAAGGAAGCAAATC
CCGGAGTGCTTCGGGAAAGCAATTTTTGTCCTCATTCCCAAAAAAGATCGAGTCACAGAT
CCAAAAGATACTAGACCGATAGCCTTAACAAATACTATATCCAAAATCTTTTTCTCAGTT
CTACAAACGAGAATGACGCGATTCATGCTGAGCAACAGGTATTTTAGGCCAAATCACCAG
AAAGGGTTTTTACCCGGAATTTCTGGATGCCTAGAACACAACACTTTGCTGTCGGAGAGT
TTAAAAGATGCTAGGAAAAGCGAGAGGCAAATTACAGTTTGTTGGATAGACTTAGAGAAT
GCGTTCGGGTCGATACAACACGAATTGATGCTATTCGCGCTGAGATGGTACAAAGCTTCT
CACATGGAGAAGACGCAGAGTCAAGTGGTTCATATGATGGACCACACGTCGGAGTTAGAG
AAAATTAACGTCGGTGGAAACGAAAATGGAAAGAGCGAAACGGAAAAAACTTACAGTGAA
GTGGAATCGAGACATTCACCTTTTGCTAGACAGGCATTTATTTCAACGGGAGCGTTCATG
CTGTCGTTTGGAGCTGGTGCCACAGCTGGCTTCTCATCAATTCTTATACCCCAATTGAAG
CACGATATGAAAAATCATAATTTCAGTACAGAAATGGAATCATGGGTGGCGGCTATGGCT
TCATTGGCGCTTTTGTTTGGTAACATGATATCGGGATACTTAATGGAAAAAATGGGAAGA
AGAGCGTCACAGATATTGTTGTCTGTCTTTTATATTGGAGGATGGACTATCATTGGATTT
GCCGGCAATATCCATTTGATTTTATTTGGACGATTTATAACAGGATTTTGTCAAGGATGG
TTAGGTCCATTAGGCCCTGTTTTTGTTGGAGAGATAAGTTCACCGGCATACAGAGGGTTA
TTTTTGGCCGGTTTATCTTTAAGCATAGCATCGGGGGTCTTTATGTCACATTTATTTGGA
ACATTTTTACACTGGAGCCATGCGTCTTTCCTTTGTGGAGCCTTCCCTCTTTTCGGATGT
ATAATTCTTTATTTTGCACCAGAATCACCAGCATGGTTGGCTTCTAAAAACGAAATCGAT
AGATGTATAAAAGCTTTTCAATGGTATAGAGGAACGAGCGCAGCTATGAAAATGGAACTT
GATAAAATGATAGAAGACCAAACTAAGAAGAAGGACGTGCAAAGTAAACTGAAAACTTTA
ACAGTGAATATAAAGAAGCCTGAGTTTTGGAAACCCTTGTGTATAATGATTGTGTTTTTC
ATAGTGACTCAGTTATCAGGTATTAATGTGGTTTGCGCGTACGCAACAGATATAATGGAA
GTTATTATAGGAAACAACTCTAACACTTACGCTGCTATGTTAGCTATAGATATATTAAGA
GTTATTGCTTTGGTTTCAGCCTGTATTTTACTTAGGAGAAAGGGTAGGAGACCTTTGGCT
CTATTTAGTGGAGTTTTTACTACATGTTCTTTAATACTCTTGGCTATTTATTTATATATG
TTGGAAAAACGCATCATAAGACACATATCACCGATAATTTCACTCAGTTTGATGGCTATT
TATGTTTTTGTTTCCAACTTGGGGATATCACTGTTGCCTTGGAATATGGTTGGTGAATTA
TTTGCAACTGAAACCAAGGGTTTGGGTTCTGGAATAAGTGTAATGATGACTTCTGTAGCT
TTTTTTGGTACCATTAAAACTGCTCCAGCCATGTTTAAAAGTTTTGGTCATCATGGAACT
TATTTATTTTATGGTATATCAACTTTATTTGGAACTATATTTCTGTATTTCTACCTTCCG
GAAACAAGAGGTAAAACTCTATTACAAATTGCTGAAGAATTTAGATACGGAGACAAAGGA
AGAAAAAAAGAAACTACTGAATTGACCAGTGTATAA
Protein sequence:
MDPAPARTVREGGRKICPPVDVNGENGANTDLKCPTCGKNYKRRAWYIKHLKTHNGVEAR
QSSVSSSTFTADRVDPHVSHGEPLTGNYQESIDIRTRLSIPNMKQSTWKVHDDNLADLLE
HPGSKQDLNSRVETFQNTIYDYFNEQYPPRNHYARKNKDNSFKIKMRRKKRELIKNLRIA
KALGDNHLSHQLARALRSILKLIQGISAQTAENRDNFDRAKQEVDFDKNPFEYSKTIFKK
ERGQLLLTNEQIYDHFKSTYEVPKSVRLYADPNEQKPGIPRFDFHGIPPTLDEISIQIKK
KSSKSAPGPDGIPYIVFKKCPSVRKHLTYIYDKIWSRKQIPECFGKAIFVLIPKKDRVTD
PKDTRPIALTNTISKIFFSVLQTRMTRFMLSNRYFRPNHQKGFLPGISGCLEHNTLLSES
LKDARKSERQITVCWIDLENAFGSIQHELMLFALRWYKASHMEKTQSQVVHMMDHTSELE
KINVGGNENGKSETEKTYSEVESRHSPFARQAFISTGAFMLSFGAGATAGFSSILIPQLK
HDMKNHNFSTEMESWVAAMASLALLFGNMISGYLMEKMGRRASQILLSVFYIGGWTIIGF
AGNIHLILFGRFITGFCQGWLGPLGPVFVGEISSPAYRGLFLAGLSLSIASGVFMSHLFG
TFLHWSHASFLCGAFPLFGCIILYFAPESPAWLASKNEIDRCIKAFQWYRGTSAAMKMEL
DKMIEDQTKKKDVQSKLKTLTVNIKKPEFWKPLCIMIVFFIVTQLSGINVVCAYATDIME
VIIGNNSNTYAAMLAIDILRVIALVSACILLRRKGRRPLALFSGVFTTCSLILLAIYLYM
LEKRIIRHISPIISLSLMAIYVFVSNLGISLLPWNMVGELFATETKGLGSGISVMMTSVA
FFGTIKTAPAMFKSFGHHGTYLFYGISTLFGTIFLYFYLPETRGKTLLQIAEEFRYGDKG
RKKETTELTSV