Project description:Prions are infectious proteins that can adopt a structural conformation different from that of the normal protein. This change of conformation is then propagated among other molecules of the same protein. Prions are associated with neurodegenerative diseases in mammals, but are also found in fungi (in the yeast Saccharomyces cerevisiae and the filamentous fungus Podospora anserina), in which they control heritable traits. They are widespread in wild yeast strains, suggesting a biologically important role. [PSI+] is one of the most widely studied yeast prions. It corresponds to an aggregated conformation of the translational release factor, eRF3, which suppresses nonsense codons. [PSI+] modifies cellular fitness, inducing various phenotypes, depending on the genetic background. However, the genes displaying [PSI+]-controlled expression remain largely unknown. We used the recently described ribosome profiling approach to identify genes displaying changes in expression in the presence of [PSI+]. This made it possible to determine the positions of all active ribosomes within the genome, in both [PSI+] and [PSI-] isogenic strains. Comparisons of the translatomes and transcriptomes of the two strains revealed that the primary effect of [PSI+] was to repress genes involved in the stress response. Thus, we provide the first description of the global translational effect of [PSI+] and a new genetic explanation of the phenotypic differences between [PSI-] and [PSI+] strains under stress conditions. Comparisons of the translatomes and transcriptomes of the two strains. Comparisons of the translatomes of the two strainsM-BM- : a [PSI+] strain (two replicates) and a [PSI+] overexpressing SUP35-Cter strain.

Project description:A whole genome microarray approach has been engaged in the heterothallic euascomycete Podospora anserina to identify genes that are differentially expressed beetwen a wild type kinetics of sexual reproduction and two mutant strains ∆RID and ∆SMR1.

Project description:Transcriptomic response of Podospora anserina to bacterial and fungal non self

Project description:Transcriptome profile of S. cerevisiae strains grown in rich ethanol/glycerol media, where the endogenous mitochondrial gene ATP9 has been deleted and relocated to the nucleus by expressing synthetic, codon-optimized versions of the Podospora anserina genes Atp9-5 and Atp9-7. The strains AMY7, AMY8, AMY10, and AMY11 each express one of these genes either from a centromeric or 2-micron plasmid. These strains are derived from RKY26, an atp9 deletion mutant which was not included in this experiment since it does not grow on respiratory media. The isogenic wild-type strain (MR6) was included as a control. Strains were produced for this study, and the arrays used were yeast tiling microarrays from Affymetrix. Note that normalization was performed using genomic DNA hybridizations, the raw data for which can be found in ArrayExpress Accession # E-TABM-1176.

Project description:podospora anserina transcriptome

Project description:The project compares the production of plant biomass degrading enzymes by Podospora anserina during growth on different feed stocks.

Project description:The yeast Sup35 protein is a subunit of the translation termination factor, and its conversion to the [PSI+] prion state leads to more translational read-through. Although extensive studies have been done on [PSI+], changes at the proteomic level have not been performed exhaustively. We therefore used a SILAC-based quantitative mass spectrometry approach and identified 4187 proteins from both [psi-] and [PSI+] strains. Surprisingly, there was very little difference between the two proteomes under standard growth conditions.

Project description:Podospora anserina mat transcriptome - Podo3

Project description:In the filamentous fungus Podospora anserina, cell death by incompatibility can be monitored using the conditional self-incompatible (SI) het-R het-V strain. SI strains are homokaryotic strains bearing incompatible het genes in all nuclei. The co-expression of these het genes triggers cell death in all the cells and hence in the entire mycelium. The het-R het-V SI strain, bearing the two incompatible het-R and het-V genes, proved particularly convenient as cell death triggering is thermosensitive (J. Labarère et al., 1973, C R Acad Sci Hebd Seances Acad Sci D, 276) and is induced by a simple shift in growth temperature (from 32°C to 26°C).The development of this cell death reaction has been recorded for 4 h after transfer to the restrictive temperature. A time course (T0h to T4h) of the transcriptomic response to the temperature shift has been explored in parallel within SI (het-R het-V) and wild type (compatible het-r hetV) s strains.

Project description:Podospora anserina is an established aging model with a strong mitochondrial etiology of aging. Here we performed a complexome analysis of isolated mitochondria to study age-related changes of assembled mitochondrial protein complexes. The analysis revealed prominent age-related alterations in oxidative phosphorylation (OXPHOS) and the induction of non-mitochondrial salvage pathways.