Transcriptome profiling of a<i>Saccharomyces cerevisiae</i>mutant with a constitutively activated Ras/cAMP pathway

Jones, D. L.; Petty, June; Hoyle, David C.; Hayes, Andrew; Ragni, Enrico; Popolo, Laura; Oliver, Stephen G.; Stateva, Lubomira

doi:10.1152/physiolgenomics.00139.2003

Cited by 46 publications

(55 citation statements)

References 92 publications

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“…These results suggest a possible relationship between β-glucan synthesis and the cAMP pathway. These observations correlate well with findings of reduced β-glucan levels in the S. cerevisiae pde2 null mutant and differential expression of genes such as FKS1, GSC2, RHO1 and ROM2, responsible for β-glucan synthesis (Jones et al, 2003). However, unlike S. cerevisiae pde2 null mutant, which showed slightly increased chitin levels (Jones et al, 2003), there was no significant difference in chitin levels between the C. albicans pde2 null mutant and the control strains during growth in the yeast form (Table 4, last column).…”

Section: Discussionsupporting

confidence: 90%

“…These observations correlate well with findings of reduced β-glucan levels in the S. cerevisiae pde2 null mutant and differential expression of genes such as FKS1, GSC2, RHO1 and ROM2, responsible for β-glucan synthesis (Jones et al, 2003). However, unlike S. cerevisiae pde2 null mutant, which showed slightly increased chitin levels (Jones et al, 2003), there was no significant difference in chitin levels between the C. albicans pde2 null mutant and the control strains during growth in the yeast form (Table 4, last column). This suggests that the slightly higher sensitivity to Calcofluor white ( Figure 1A) in the mutant could be due to other reasons, one being the Hog1 MAPkinase pathway, which in S. cerevisiae has been demonstrated to be another target for Calcofluor white or, alternatively, to an increased permeability to the drug (Garcia-Rodriguez et al, 2000).…”

Section: Discussionsupporting

confidence: 90%

“…These defects manifest themselves in the form of increased sensitivity to SDS, Calcofluor white, some antifungals, reduced thickness of the cell wall and alterations of the ergosterol and glucan composition. Changes in expression of cell wall-related genes and associated cell wall defects have previously been demonstrated in S. cerevisiae pde2 mutants (Jones et al, 2003). Our results suggest that a similar effect might also exist in C. albicans, since recent reports have demonstrated, first, that EFG1 is significantly downregulated in the C.albicans pde2 mutant (Jung and Stateva, 2003) and second, that EFG1 regulates transcription of several cell wall proteinencoding genes such as HWP1, HWP2, YWP1 and RBE1, which are significantly downregulated in an efg1 mutant (Sohn et al, 2003).…”

Section: Discussionmentioning

confidence: 76%

“…Intracellular levels of cAMP dramatically increase upon addition of exogenous cAMP to pde2 mutants, suggesting that Pde2p is responsible for breaking down exogenous cAMP (Wilson et al, 1993). Significant changes in the transcriptome have recently been described for the S. cerevisiae pde2 mutant (Jones et al, 2003). These changes which are representative of a constitutive activation of the cAMP pathway manifest themselves in a range of cell wall-related phenotypes, supporting the role for PDE2 (and/or cAMP) in the maintenance of cell wall integrity in S. cerevisiae, as previously suggested (Heale et al, 1994;Tomlin et al, 2000).…”

Section: Introductionmentioning

confidence: 99%

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Deletion of PDE2, the gene encoding the high‐affinity cAMP phosphodiesterase, results in changes of the cell wall and membrane in Candida albicans

Jung

Warn

Ragni

et al. 2005

Yeast

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A role for the cAMP-dependent pathway in regulation of the cell wall in the model yeast Saccharomyces cerevisiae has recently been demonstrated. In this study we report the results of a phenotypic analysis of a Candida albicans mutant, characterized by a constitutive activation of the cAMP pathway due to deletion of PDE2, the gene encoding the high cAMP-affinity phosphodiesterase. Unlike wild-type strains, this mutant has an increased sensitivity to cell wall and membrane perturbing agents such as SDS and CFW, and antifungals such as amphotericin B and flucytosine. Moreover, the mutant is characterized by an altered sensitivity and a significantly reduced tolerance to fluconazole. The mutant's membrane has around 30% higher ergosterol content and the cell wall glucan was 22% lower than in the wild-type. These cell wall and membrane changes are manifested by a considerable reduction in the thickness of the cell wall, which in the mutant is on average 60-65 nm, compared to 80-85 nm in the wild-type strains as revealed by electron microscopy. These results suggest that constitutive activation of the cAMP pathway affects cell wall and membrane structure, and biosynthesis, not only in the model yeast S. cerevisiae but also in the human fungal pathogen C. albicans.

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Section: Discussionsupporting

confidence: 90%

Section: Discussionsupporting

confidence: 90%

Section: Discussionmentioning

confidence: 76%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Deletion of PDE2, the gene encoding the high‐affinity cAMP phosphodiesterase, results in changes of the cell wall and membrane in Candida albicans

Jung

Warn

Ragni

et al. 2005

Yeast

View full text Add to dashboard Cite

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“…Data for two of these, pde2D and sac1D, are also presented in Figure 5. Deletion of PDE2, which encodes the yeast high-affinity cAMP phosphodiesterase, has major effects on cell-wall integrity ( Jones et al 2003). Sac1, one of several yeast phosphoinositide phosphatases, influences the cell wall by controlling chitin synthase trafficking (Schorr et al 2001).…”

Section: Resultsmentioning

confidence: 99%

The Sensitivity of Yeast Mutants to Oleic Acid Implicates the Peroxisome and Other Processes in Membrane Function

et al. 2007

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The peroxisome, sole site of b-oxidation in Saccharomyces cerevisiae, is known to be required for optimal growth in the presence of fatty acid. Screening of the haploid yeast deletion collection identified 130 genes, 23 encoding peroxisomal proteins, necessary for normal growth on oleic acid. Oleate slightly enhances growth of wild-type yeast and inhibits growth of all strains identified by the screen. Nonperoxisomal processes, among them chromatin modification by H2AZ, Pol II mediator function, and cell-wall-associated activities, also prevent oleate toxicity. The most oleate-inhibited strains lack Sap190, a putative adaptor for the PP2A-type protein phosphatase Sit4 (which is also required for normal growth on oleate) and Ilm1, a protein of unknown function. Palmitoleate, the other main unsaturated fatty acid of Saccharomyces, fails to inhibit growth of the sap190D, sit4D, and ilm1D strains. Data that suggest that oleate inhibition of the growth of a peroxisomal mutant is due to an increase in plasma membrane porosity are presented. We propose that yeast deficient in peroxisomal and other functions are sensitive to oleate perhaps because of an inability to effectively control the fatty acid composition of membrane phospholipids.

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Genome‐wide analysis of the effects of heat shock on a Saccharomyces cerevisiae mutant with a constitutively activated cAMP‐dependent pathway

et al. 2004

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We have used DNA microarray technology and 2-D gel electrophoresis combined with mass spectrometry to investigate the effects of a drastic heat shock from 30℃ to 50℃ on a genome-wide scale. This experimental condition is used to differentiate between wild-type cells and those with a constitutively active cAMP-dependent pathway in Saccharomyces cerevisiae. Whilst more than 50% of the former survive this shock, almost all of the latter lose viability. We compared the transcriptomes of the wildtype and a mutant strain deleted for the gene PDE2, encoding the high-affinity cAMP phosphodiesterase before and after heat shock treatment. We also compared the two heat-shocked samples with one another, allowing us to determine the changes that occur in the pde2Δ mutant which cause such a dramatic loss of viability after heat shock. Several genes involved in ergosterol biosynthesis and carbon source utilization had altered expression levels, suggesting that these processes might be potential factors in heat shock survival. These predictions and also the effect of the different phases of the cell cycle were confirmed by biochemical and phenotypic analyses. 146 genes of previously unknown function were identified amongst the genes with altered expression levels and deletion mutants in 13 of these genes were found to be highly sensitive to heat shock. Differences in response to heat shock were also observed at the level of the proteome, with a higher level of protein degradation in the mutant, as revealed by comparing 2-D gels of wild-type and mutant heat-shocked samples and mass spectrometry analysis of the differentially produced proteins.

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Transcriptome profiling of aSaccharomyces cerevisiaemutant with a constitutively activated Ras/cAMP pathway

Cited by 46 publications

References 92 publications

Deletion of PDE2, the gene encoding the high‐affinity cAMP phosphodiesterase, results in changes of the cell wall and membrane in Candida albicans

Deletion of PDE2, the gene encoding the high‐affinity cAMP phosphodiesterase, results in changes of the cell wall and membrane in Candida albicans

The Sensitivity of Yeast Mutants to Oleic Acid Implicates the Peroxisome and Other Processes in Membrane Function

Genome‐wide analysis of the effects of heat shock on a Saccharomyces cerevisiae mutant with a constitutively activated cAMP‐dependent pathway

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