Enzyme and Microbial Technology, Vol.26, No.9-10, 748-755, 2000
Mutations in GAL2 or GAL4 alleviate catabolite repression produced by galactose in Saccharomyces cerevisiae
Galactose does not allow growth of pyruvate carboxylase mutants in media with ammonium as a nitrogen source, and inhibits growth of strains defective in phosphoglyceromutase in ethanol-glycerol mixtures. Starting with pyc1, pyc2, and gpm1 strains, we isolated mutants that eliminated those galactose effects. The mutations were recessive and were named dgr1-1 and dgr2-1. Strains hearing those mutations in an otherwise wild-type background grew slower than the wild type in rich galactose media, and their growth was dependent on respiration. Galactose repression of several enzymes was relieved in the mutants. Biochemical and genetic evidence showed that dgr1-1 was allelic with GAL2 and dgr2-1 with GAL4. The results indicate that the rate of galactose consumption is critical to cause catabolite repression. (C) 2000 Elsevier Science Inc. All rights reserved.
Keywords:INTERMEDIARY METABOLITES;GLUCOSE REPRESSION;GENE-EXPRESSION;YEAST;TRANSPORT;DNA;ISOENZYMES;INHIBITORS;STRAINS;SENSORS