Wt yeast expression changes in low phosphate conditions
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ABSTRACT: Alteration of growth condition or disruption of gene function are commonly used strategies to study cellular systems. Although widely appreciated that such experiments may result in indirect effects, these frequently remain uncharacterized. Here, genome-wide expression reanalysis of functionally unrelated Saccharyomyces cerevisiae deletion strains reveals a common expression signature. One property shared by these strains is slower growth, with increased presence of the signature in more slowly growing strains. The slow growth signature is highly similar to the environmental stress response, an expression response common to diverse environmental perturbations. Both environmental and genetic perturbations result in growth rate changes. These are accompanied by a change in the distribution of cells over different cell cycle phases. Rather than representing a direct expression response, the slow growth signature is a consequence of the redistribution of cells over different cell cycle phases, primarily characterized by an increase in the G1 population. The findings have implications for any study of perturbation that is accompanied by growth rate changes. Strategies to counter these effects are presented and discussed. This series shows the effect of phosphate limitation on gene expression Two channel microarrays were used. RNA isolated from a large amount of wt yeast from a single culture was used as a common reference. Two independent cultures were hybridized on two separate microarrays. For the first hybridization the Cy5 (red) labeled cRNA from the test sample is hybridized together with the Cy3 (green) labeled cRNA from the common reference. For the replicate hybridization, the labels are swapped. In the statistical analysis, factor levels are compared using the common reference as an intermediate.
ORGANISM(S): Saccharomyces cerevisiae
SUBMITTER: Philip Lijnzaad
PROVIDER: E-GEOD-54527 | biostudies-arrayexpress |
REPOSITORIES: biostudies-arrayexpress
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