Project description:Adaptation to altered osmotic conditions is a fundamental property of living cells and has been studied in particular detail in the yeast Saccharomyces cerevisiae. Yeast cells accumulate glycerol as compatible solute, controlled at different levels by the High Osmolarity Glycerol (HOG) response pathway. Up to now, essentially all osmostress studies in yeast have been performed with glucose as carbon and energy source, which is metabolised by glycolysis with glycerol is as a normal by-product. Here we investigated the response of yeast to osmotic stress when yeast is respiring ethanol as carbon and energy source. Remarkably, yeast cells do not accumulate glycerol under these conditions and it appears that trehalose may partly take over the role as compatible solute. The HOG pathway is activated in very much the same way as in during growth on glucose medium and is also required for osmotic adaptation. Slower volume recovery was observed in ethanol-grown cells as compared to glucose-grown cells. Dependence on key regulators as well as the global gene expression profile were similar in many ways to those previously observed in glucose-grown cells. However, there are indications that cells re-arrange redox-metabolism when respiration is hampered under osmostress, a feature that could not be observed in glucose-grown cells.

Project description:The yeast osmostress response is carbon source dependent

Project description:This experiment compares the transcriptional profiles of a WT yeast strain grown in either 2% glucose or 3% pyruvate. The goal was to identify genes whose expression is either induced or repressed by glucose (catabolite repression). Keywords: nutrient response

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Project description:Two time courses after pulses of 0.2 g/l and 2 g/l glucose on cells growing in chemostat with galactose as the carbon source. The reference is sample from the chemostat at time 0. Groups of assays that are related as part of a time series. Keywords: time_series_design

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Project description:Our previous results (Calafi et al 2020; PMID: 32339526) demonstrated a defect in cell proliferation when PPZ1 was overexpressed under the control of a tetO-based promoter that was, up to some extent, dependent of the availability of glucose. To further investigate this phenomenon, we have determined the transcriptional response triggered by the shift form high to low glucose, or to galactose, in normal cells and in cells overexpressing PPZ1 from the tetO7–driven multicopy pCM190 plasmid. Our data suggest that, under these circumstances, overexpression of Ppz1 interferes with the proper activation of a set of genes mainly involved in carbon metabolism, thus impairing the normal transcriptional adaptation to conditions in which glucose becomes limiting.