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2.A.1.1.17
Glucose transporter

Accession Number:P10870
Protein Name:High-affinity glucose transporter SNF3
Length:884
Molecular Weight:96719.00
Species:Saccharomyces cerevisiae (Baker's yeast) [4932]
Number of TMSs:10
Location1 / Topology2 / Orientation3: Cell membrane1 / Multi-pass membrane protein2
Substrate glucose

Cross database links:

Entrez Gene ID: 851333   
Pfam: PF00083   
KEGG: sce:YDL194W   

Gene Ontology

GO:0016021 C:integral to membrane
GO:0005886 C:plasma membrane
GO:0005536 F:glucose binding
GO:0004872 F:receptor activity
GO:0022891 F:substrate-specific transmembrane transporte...
GO:0051594 P:detection of glucose
GO:0015755 P:fructose transport
GO:0015758 P:glucose transport
GO:0015761 P:mannose transport
GO:0045835 P:negative regulation of meiosis
GO:0007165 P:signal transduction
GO:0055085 P:transmembrane transport

References (7)

[1] “The yeast SNF3 gene encodes a glucose transporter homologous to the mammalian protein.”  Celenza J.L.et.al.   3281163
[2] “The sequence of 23 kb surrounding the SNF3 locus on the left arm of yeast chromosome IV reveals the location of five known genes and characterizes at least six new open reading frames including putative genes for ribosomal protein L35 and a sugar transport protein.”  Verhasselt P.et.al.   8896272
[3] “The nucleotide sequence of Saccharomyces cerevisiae chromosome IV.”  Jacq C.et.al.   9169867
[4] “Mutational analysis of the SNF3 glucose transporter of Saccharomyces cerevisiae.”  Marshall-Carlson L.et.al.   2406560
[5] “The C-terminal domain of Snf3p is sufficient to complement the growth defect of snf3 null mutations in Saccharomyces cerevisiae: SNF3 functions in glucose recognition.”  Coons D.M.et.al.   9046082
[6] “A global topology map of the Saccharomyces cerevisiae membrane proteome.”  Kim H.et.al.   16847258
[7] “A multidimensional chromatography technology for in-depth phosphoproteome analysis.”  Albuquerque C.P.et.al.   18407956

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Predict TMSs (Predict number of transmembrane segments)
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FASTA formatted sequence
1:	MDPNSNSSSE TLRQEKQGFL DKALQRVKGI ALRRNNSNKD HTTDDTTGSI RTPTSLQRQN 
61:	SDRQSNMTSV FTDDISTIDD NSILFSEPPQ KQSMMMSICV GVFVAVGGFL FGYDTGLINS 
121:	ITSMNYVKSH VAPNHDSFTA QQMSILVSFL SLGTFFGALT APFISDSYGR KPTIIFSTIF 
181:	IFSIGNSLQV GAGGITLLIV GRVISGIGIG AISAVVPLYQ AEATHKSLRG AIISTYQWAI 
241:	TWGLLVSSAV SQGTHARNDA SSYRIPIGLQ YVWSSFLAIG MFFLPESPRY YVLKDKLDEA 
301:	AKSLSFLRGV PVHDSGLLEE LVEIKATYDY EASFGSSNFI DCFISSKSRP KQTLRMFTGI 
361:	ALQAFQQFSG INFIFYYGVN FFNKTGVSNS YLVSFITYAV NVVFNVPGLF FVEFFGRRKV 
421:	LVVGGVIMTI ANFIVAIVGC SLKTVAAAKV MIAFICLFIA AFSATWGGVV WVISAELYPL 
481:	GVRSKCTAIC AAANWLVNFI CALITPYIVD TGSHTSSLGA KIFFIWGSLN AMGVIVVYLT 
541:	VYETKGLTLE EIDELYIKSS TGVVSPKFNK DIRERALKFQ YDPLQRLEDG KNTFVAKRNN 
601:	FDDETPRNDF RNTISGEIDH SPNQKEVHSI PERVDIPTST EILESPNKSS GMTVPVSPSL 
661:	QDVPIPQTTE PAEIRTKYVD LGNGLGLNTY NRGPPSLSSD SSEDYTEDEI GGPSSQGDQS 
721:	NRSTMNDIND YMARLIHSTS TASNTTDKFS GNQSTLRYHT ASSHSDTTEE DSNLMDLGNG 
781:	LALNAYNRGP PSILMNSSDE EANGGETSDN LNTAQDLAGM KERMAQFAQS YIDKRGGLEP 
841:	ETQSNILSTS LSVMADTNEH NNEILHSSEE NATNQPVNEN NDLK