Response of Saccharomyces cerevisiae to stress-free acidification

Genome-wide transcriptional analysis of a Saccharomyces cerevisiae batch culture revealed that more than 829 genes were regulated in response to an environmental shift from pH 6 to pH 3 by added sulfuric acid. This shift in pH was not detrimental to the rate of growth compared to a control culture t...

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Bibliographic Details
Published in:The journal of microbiology 2009, 47(1), , pp.1-8
Main Authors: Chen, Allen Kuan-Liang (University of New South Wales, Sydney, Australia), Gelling, Cristy (University of New South Wales, Sydney, Australia), Rogers, Peter L. (University of New South Wales, Sydney, Australia), Dawes, Ian W. (University of New South Wales, Sydney, Australia), Rosche, Bettina (University of New South Wales, Sydney, Australia), E-mail: b.rosche@unsw.edu.au
Format: Article
Language:English
Subjects:
ACIDIFICACION
ACIDIFICATION
Adaptation, Biological - genetics
Biomedical and Life Sciences
Cell Wall - genetics
Cell Wall - metabolism
Citric Acid Cycle - genetics
Down-Regulation
Electron Transport Chain Complex Proteins - biosynthesis
Electron Transport Chain Complex Proteins - genetics
Enzymes
FERMENTACION
FERMENTATION
Fermentation - genetics
Gene Expression Profiling
Gene Expression Regulation, Fungal
Glucose
Glucose - genetics
Glucose - metabolism
Hydrogen-Ion Concentration
Life Sciences
Metabolism
Metabolites
Microbiology
Mitochondrial Proteins - biosynthesis
Mitochondrial Proteins - genetics
pyruvate decarboxylase
Pyruvate Decarboxylase - metabolism
SACCHAROMYCES CEREVISIAE
Saccharomyces cerevisiae - genetics
Saccharomyces cerevisiae - growth & development
Saccharomyces cerevisiae - metabolism
stress response
Sulfuric acid
Yeast
Yeasts
생물학
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Summary:Genome-wide transcriptional analysis of a Saccharomyces cerevisiae batch culture revealed that more than 829 genes were regulated in response to an environmental shift from pH 6 to pH 3 by added sulfuric acid. This shift in pH was not detrimental to the rate of growth compared to a control culture that was maintained at pH 6 and the transcriptional changes most strikingly implicated not up- but down-regulation of stress responses. In addition, the transcriptional changes upon acid addition indicated remodeling of the cell wall and central carbon metabolism. The overall trend of changes was similar for the pH-shift experiment and the pH 6 control. However, the changes in the pH 6 control were much weaker and occurred 2.5 h later than in the pH-shift experiment. Thus, the reaction to the steep pH decrease was an immediate response within the normal repertoire of adaptation shown in later stages of fermentation at pH 6. Artificially preventing the yeast from acidifying the medium may be considered physiologically stressful under the tested conditions.
ISSN:1225-8873
1976-3794
DOI:10.1007/s12275-008-0167-2