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Volumn 53, Issue 5, 2007, Pages 586-598
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Replacing the general energy-coupling proteins of the phospho-enol- pyruvate:sugar phosphotransferase system of Salmonella typhimurium with fructose-inducible counterparts results in the inability to utilize nonphosphotransferase system sugars
a
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Author keywords
Carbohydrate transport; Catabolite repression; Inducer exclusion; Phosphotransferase system
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Indexed keywords
CELL CULTURE;
FRUCTOSE;
GLYCEROL;
MALTOSE;
PHOSPHORYLATION;
PROTEINS;
CATABOLITE REPRESSION;
ENERGY-COUPLING;
NONPHOSPHOTRANSFERASE;
PHOSPHOENOLPYRUVATE SUGAR;
SALMONELLA TYPHIMURIUM;
BACTERIA;
CYCLIC AMP;
FRUCTOSE;
GLYCEROL KINASE;
MELIBIOSE;
MUTANT PROTEIN;
PERMEASE;
PHOSPHOENOLPYRUVATE;
PHOSPHOTRANSFERASE;
SUGAR;
AGAR;
BACTERIUM;
CHEMICAL PROCESS;
ENZYME ACTIVITY;
GLUCOSE;
NUTRIENT;
PROTEIN;
SUGAR;
ARTICLE;
BACTERIAL GROWTH;
BACTERIAL STRAIN;
BACTERIUM CULTURE;
CONTROLLED STUDY;
ENERGY;
ENZYME ACTIVITY;
GENETIC LINKAGE;
NONHUMAN;
OPERON;
PRIORITY JOURNAL;
PROTEIN EXPRESSION;
SALMONELLA TYPHIMURIUM;
BACTERIAL PROTEINS;
CARRIER PROTEINS;
FRUCTOSE;
GENE EXPRESSION REGULATION, BACTERIAL;
PHOSPHOENOLPYRUVATE SUGAR PHOSPHOTRANSFERASE SYSTEM;
SALMONELLA TYPHIMURIUM;
SORBITOL;
LURIA;
SALMONELLA TYPHIMURIUM;
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EID: 34547761711
PISSN: 00084166
EISSN: None
Source Type: Journal
DOI: 10.1139/W07-020 Document Type: Article |
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Times cited : (2)
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References (2)
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