Description(s) found:
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gi|6321502|ref|NP_011579.1| High-affinity plasma membrane H+-biotin (vitamin H) symporter; mutation results in fatty acid auxotrophy; 12 transmembrane domain containing major facilitator subfamily member; mRNA levels negatively regulated by iron deprivati
[NCBI NR]
pir||S64360 probable membrane protein YGR065c - yeast (Saccharomyces cerevisiae)
[NCBI NR]
gi|1723674|sp|P53241.1|VHT1_YEAST RecName: Full=Vitamin H transporter; AltName: Full=H(+)/biotin symporter
[NCBI NR]
gi|1323086|emb|CAA97067.1| unnamed protein product [Saccharomyces cerevisiae]
[NCBI NR]
Vitamin H transporter OS=Saccharomyces cerevisiae GN=VHT1 PE=1 SV=1
[Swiss-Prot]
VHT1 Biotin (vitamin H) permease
[mips]
High-affinity plasma membrane H+-biotin (vitamin H) symporter; mutation results in fatty acid auxotrophy; 12 transmembrane domain containing major facilitator subfamily member; mRNA levels negatively regulated by iron deprivation and biotin
[SGD]
VHT1, Chr VII from 618071-619852, reverse complement
[yeast_orfs2]
Chr VII from 618071-619852, reverse complement
[yeastorf3.fasta]
Chr VII from 618078-619859, reverse complement
[yeastorf4.fasta]
Chr VII from 619859-618078, reverse complement
[yeastorf5.fasta]
(P53241) Vitamin H transporter (H+/biotin symporter)
[4932.FASTACCERV.txt]
VHT1 SGDID:S0003297, Chr VII from 619860-618079, reverse complement, Verified ORF
[yeastflysequest.fasta]
VHT1 SGDID:S0003297, Chr VII from 619862-618081, reverse complement, Verified ORF
[10112005cervSGD.fasta]
Vht1p [Saccharomyces cerevisiae]gi|1323086|emb|CAA97067.1| unnamed protein product [Saccharomyces cerevisiae]gi|2132596|pir||S64360 probable membrane protein YGR065c - yeast (Saccharomyces cerevisiae)gi|1723674|sp|P53241|VHT1_YEAST Vitamin H transporte
[nrdb_11152004_Chlamydomonas]
VHT1 SGDID:S000003297, Chr VII from 619862-618081, reverse complement, Verified ORF, "High-affinity plasma membrane H+-biotin (vitamin H) symporter; mutation results in fatty acid auxotrophy; 12 transmembrane domain containing major facilitator subfamily
[SGD_S-cerevisiae_na_12-16-2005_con_reversed.fasta]
unnamed protein product [Saccharomyces cerevisiae]
[nr-271106-contam.fasta]
High-affinity plasma membrane H+-biotin (vitamin H) symporter; mutation results in fatty acid auxotrophy; 12 transmembrane domain containing major facilitator subfamily member; mRNA levels negatively regulated by iron deprivation and biotin; Vht1p [Saccha
[nr-271106-contam.fasta]
Vitamin H transporter (H+/biotin symporter)
[nr-271106-contam.fasta]
VHT1 SGDID:S000003297, Chr VII from 619862-618081, reverse complement, Verified ORF, "High-affinity plasma membrane H+-biotin (vitamin H) symporter; mutation results in fatty acid auxotrophy; 12 transmembrane domain containing major facilitator subfamily member; mRNA levels negatively regulated by iron deprivation and biotin"
[yeast-bovrabprots.fasta]
[chemostatdb.fasta]
Vitamin H transporter OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=VHT1 PE=1 SV=1
[UniProt_S_cerevisiae_20120516_05-16-2012_reversed.fasta]
VHT1 SGDID:S000003297, Chr VII from 619858-618077, Genome Release 64-1-1, reverse complement, Verified ORF, "High-affinity plasma membrane H+-biotin (vitamin H) symporter; mutation results in fatty acid auxotrophy; 12 transmembrane domain containing major facilitator subfamily member; mRNA levels negatively regulated by iron deprivation and biotin"
[yeast-030211-contam.fasta]
VHT1 SGDID:S000003297, Chr VII from 619858-618077, Genome Release 64-2-1, reverse complement, Verified ORF, "High-affinity plasma membrane H+-biotin (vitamin H) symporter; mutation results in fatty acid auxotrophy; 12 transmembrane domain containing major facilitator subfamily member; mRNA levels negatively regulated by iron deprivation and biotin"
[20141208_orf_trans.fasta]
YGR065C SGDID:S000003297, Chr VII from 619858-618077, Genome Release 64-1-1, reverse complement, Verified ORF, "High-affinity plasma membrane H+-biotin (vitamin H) symporter; mutation results in fatty acid auxotrophy; 12 transmembrane domain containing major facilitator subfamily member; mRNA levels negatively regulated by iron deprivation and biotin"
[2016-01-SGD_Yeast_Contam_Riffle_20140507-Ska-Hec-110-tubulin.fasta]
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