Your search keyword '"Podospora anserina"' showing total 25 results

1. Characterization of spatio-temporal dynamics of the constrained network of the filamentous fungus Podospora anserina using a geomatics-based approach.

Author

Ledoux, Clara, Bobée, Cécilia, Cabet, Éva, David, Pascal, Filaine, Frédéric, Hachimi, Sabrina, Lalanne, Christophe, Ruprich-Robert, Gwenaël, Herbert, Éric, and Chapeland-Leclerc, Florence

Subjects

*PODOSPORA anserina, *CONSTRAINTS (Physics), *FILAMENTOUS fungi, *GEOGRAPHIC information systems, *FUNGAL growth, *FILAMENTOUS bacteria

Abstract

In their natural environment, fungi are subjected to a wide variety of environmental stresses which they must cope with by constantly adapting the architecture of their growing network. In this work, our objective was to finely characterize the thallus development of the filamentous fungus Podospora anserina subjected to different constraints that are simple to implement in vitro and that can be considered as relevant environmental stresses, such as a nutrient-poor environment or non-optimal temperatures. At the Petri dish scale, the observations showed that the fungal thallus is differentially affected (thallus diameter, mycelium aspect) according to the stresses but these observations remain qualitative. At the hyphal scale, we showed that the extraction of the usual quantities (i.e. apex, node, length) does not allow to distinguish the different thallus under stress, these quantities being globally affected by the application of a stress in comparison with a thallus having grown under optimal conditions. Thanks to an original geomatics-based approach based on the use of automatized Geographic Information System (GIS) tools, we were able to produce maps and metrics characterizing the growth dynamics of the networks and then to highlight some very different dynamics of network densification according to the applied stresses. The fungal thallus is then considered as a map and we are no longer interested in the quantity of material (hyphae) produced but in the empty spaces between the hyphae, the intra-thallus surfaces. This study contributes to a better understanding of how filamentous fungi adapt the growth and densification of their network to potentially adverse environmental changes. [ABSTRACT FROM AUTHOR]

Published

2024

2. A Genome-Wide Longitudinal Transcriptome Analysis of the Aging Model Podospora anserine.

Author

Philipp, Oliver, Hamann, Andrea, Servos, Jörg, Werner, Alexandra, Koch, Ina, and Osiewacz, Heinz D.

Subjects

*PODOSPORA anserina, *FUNGAL aging, *GENETIC transcription, *BIOLOGICAL systems, *FUNGAL gene expression, *BIOINFORMATICS, *MOLECULAR genetics, *FUNGI

Abstract

Aging of biological systems is controlled by various processes which have a potential impact on gene expression. Here we report a genome-wide transcriptome analysis of the fungal aging model Podospora anserina. Total RNA of three individuals of defined age were pooled and analyzed by SuperSAGE (serial analysis of gene expression). A bioinformatics analysis identified different molecular pathways to be affected during aging. While the abundance of transcripts linked to ribosomes and to the proteasome quality control system were found to decrease during aging, those associated with autophagy increase, suggesting that autophagy may act as a compensatory quality control pathway. Transcript profiles associated with the energy metabolism including mitochondrial functions were identified to fluctuate during aging. Comparison of wild-type transcripts, which are continuously down-regulated during aging, with those down-regulated in the long-lived, copper-uptake mutant grisea, validated the relevance of age-related changes in cellular copper metabolism. Overall, we (i) present a unique age-related data set of a longitudinal study of the experimental aging model P. anserina which represents a reference resource for future investigations in a variety of organisms, (ii) suggest autophagy to be a key quality control pathway that becomes active once other pathways fail, and (iii) present testable predictions for subsequent experimental investigations. [ABSTRACT FROM AUTHOR]

Published

2013

3. A Genome-Wide Longitudinal Transcriptome Analysis of the Aging Model Podospora anserine.

Author

Philipp, Oliver, Hamann, Andrea, Servos, Jörg, Werner, Alexandra, Koch, Ina, and Osiewacz, Heinz D.

Subjects

PODOSPORA anserina, FUNGAL aging, GENETIC transcription, BIOLOGICAL systems, FUNGAL gene expression, BIOINFORMATICS, MOLECULAR genetics, FUNGI

Abstract

Aging of biological systems is controlled by various processes which have a potential impact on gene expression. Here we report a genome-wide transcriptome analysis of the fungal aging model Podospora anserina. Total RNA of three individuals of defined age were pooled and analyzed by SuperSAGE (serial analysis of gene expression). A bioinformatics analysis identified different molecular pathways to be affected during aging. While the abundance of transcripts linked to ribosomes and to the proteasome quality control system were found to decrease during aging, those associated with autophagy increase, suggesting that autophagy may act as a compensatory quality control pathway. Transcript profiles associated with the energy metabolism including mitochondrial functions were identified to fluctuate during aging. Comparison of wild-type transcripts, which are continuously down-regulated during aging, with those down-regulated in the long-lived, copper-uptake mutant grisea, validated the relevance of age-related changes in cellular copper metabolism. Overall, we (i) present a unique age-related data set of a longitudinal study of the experimental aging model P. anserina which represents a reference resource for future investigations in a variety of organisms, (ii) suggest autophagy to be a key quality control pathway that becomes active once other pathways fail, and (iii) present testable predictions for subsequent experimental investigations. [ABSTRACT FROM AUTHOR]

Published

2013

4. Rab-GDI Complex Dissociation Factor Expressed through Translational Frameshifting in Filamentous Ascomycetes.

Author

Malagnac, Fabienne, Fabret, Céline, Prigent, Magali, Rousset, Jean-Pierre, Namy, Olivier, and Silar, Philippe

Subjects

*GUANINE dissociation inhibitors, *FILAMENTOUS fungi, *ASCOMYCETES, *PODOSPORA anserina, *GENETIC code, *SACCHAROMYCES cerevisiae, *POLYPEPTIDES

Abstract

In the model fungus Podospora anserina, the PaYIP3 gene encoding the orthologue of the Saccharomyces cerevisiae YIP3 Rab-GDI complex dissociation factor expresses two polypeptides, one of which, the long form, is produced through a programmed translation frameshift. Inactivation of PaYIP3 results in slightly delayed growth associated with modification in repartition of fruiting body on the thallus, along with reduced ascospore production on wood. Long and short forms of PaYIP3 are expressed in the mycelium, while only the short form appears expressed in the maturing fruiting body (perithecium). The frameshift has been conserved over the evolution of the Pezizomycotina, lasting for over 400 million years, suggesting that it has an important role in the wild. [ABSTRACT FROM AUTHOR]

Published

2013

5. Implementation of Web-Based Respondent-Driven Sampling among Men Who Have Sex with Men in Vietnam.

Author

Bengtsson, Linus, Xin Lu, Quoc Cuong Nguyen, Camitz, Martin, Nguyen Le Hoang, Tuan Anh Nguyen, Liljeros, Fredrik, and Thorson, Anna

Subjects

*COPPER research, *HOMEOSTASIS, *BIOLOGY, *AGING, *PODOSPORA anserina, *MYCELIUM, *ASCOSPORES, *GENETIC mutation, *GENES

Abstract

Objective: Lack of representative data about hidden groups, like men who have sex with men (MSM), hinders an evidence-based response to the HIV epidemics. Respondent-driven sampling (RDS) was developed to overcome sampling challenges in studies of populations like MSM for which sampling frames are absent. Internet-based RDS (webRDS) can potentially circumvent limitations of the original RDS method. We aimed to implement and evaluate webRDS among a hidden population. Methods and Design:This cross-sectional study took place 18 February to 12 April, 2011 among MSM in Vietnam. Inclusion criteria were men, aged 18 and above, who had ever had sex with another man and were living in Vietnam. Participants were invited by an MSM friend, logged in, and answered a survey. Participants could recruit up to four MSM friends. We evaluated the system by its success in generating sustained recruitment and the degree to which the sample compositions stabilized with increasing sample size. Results: Twenty starting participants generated 676 participants over 24 recruitment waves. Analyses did not show evidence of bias due to ineligible participation. Estimated mean age was 22 years and 82% came from the two large metropolitan areas. 32 out of 63 provinces were represented. The median number of sexual partners during the last six months was two. The sample composition stabilized well for 16 out of 17 variables. Conclusion: Results indicate that webRDS could be implemented at a low cost among Internet-using MSM in Vietnam. WebRDS may be a promising method for sampling of Internet-using MSM and other hidden groups. [ABSTRACT FROM AUTHOR]

Published

2012

6. Biological Roles of the Podospora anserina Mitochondrial Lon Protease and the Importance of Its N-Domain.

Author

Adam, Céline, Picard, Marguerite, Déquard-Chablat, Michelle, Sellem, Carole H., Hermann-Le Denmat, Sylvie, and Contamine, Véronique

Subjects

*MITOCHONDRIA, *PODOSPORA anserina, *MITOCHONDRIAL pathology, *SERINE proteinases, *FILAMENTOUS fungi, *C-terminal binding proteins

Abstract

Mitochondria have their own ATP-dependent proteases that maintain the functional state of the organelle. All multicellular eukaryotes, including filamentous fungi, possess the same set of mitochondrial proteases, unlike in unicellular yeasts, where ClpXP, one of the two matricial proteases, is absent. Despite the presence of ClpXP in the filamentous fungus Podospora anserina, deletion of the gene encoding the other matricial protease, PaLon1, leads to lethality at high and low temperatures, indicating that PaLON1 plays a main role in protein quality control. Under normal physiological conditions, the PaLon1 deletion is viable but decreases life span. PaLon1 deletion also leads to defects in two steps during development, ascospore germination and sexual reproduction, which suggests that PaLON1 ensures important regulatory functions during fungal development. Mitochondrial Lon proteases are composed of a central ATPase domain flanked by a large non-catalytic N-domain and a C-terminal protease domain. We found that three mutations in the N-domain of PaLON1 affected fungal life cycle, PaLON1 protein expression and mitochondrial proteolytic activity, which reveals the functional importance of the N-domain of the mitochondrial Lon protease. All PaLon1 mutations affected the C-terminal part of the Ndomain. Considering that the C-terminal part is predicted to have an a helical arrangement in which the number, length and position of the helices are conserved with the solved structure of its bacterial homologs, we propose that this all-helical structure participates in Lon substrate interaction. [ABSTRACT FROM AUTHOR]

Published

2012

7. Systematic Deletion of Homeobox Genes in Podospora anserina Uncovers Their Roles in Shaping the Fruiting Body.

Author

Coppin, Evelyne, Berteaux-Lecellier, Véronique, Bidard, Frédérique, Brun, Sylvain, Ruprich-Robert, Gwenaël, Espagne, Eric, Aït-Benkhali, Jinane, Goarin, Anne, Nesseir, Audrey, Planamente, Sara, Debuchy, Robert, and Silar, Philippe

Subjects

*HOMEOBOX genes, *PODOSPORA anserina, *BASIDIOMYCETES, *ASCOMYCETES, *FUNGAL growth, *PLANT life cycles

Abstract

Higher fungi, which comprise ascomycetes and basidiomycetes, play major roles in the biosphere. Their evolutionary success may be due to the extended dikaryotic stage of their life cycle, which is the basis for their scientific name: the Dikarya. Dikaryosis is maintained by similar structures, the clamp in basidiomycetes and the crozier in ascomycetes. Homeodomain transcription factors are required for clamp formation in all basidiomycetes studied. We identified all the homeobox genes in the filamentous ascomycete fungus Podospora anserina and constructed deletion mutants for each of these genes and for a number of gene combinations. Croziers developed normally in these mutants, including those with up to six deleted homeogenes. However, some mutants had defects in maturation of the fruiting body, an effect that could be rescued by providing wild-type maternal hyphae. Analysis of mutants deficient in multiple homeogenes revealed interactions between the genes, suggesting that they operate as a complex network. Similar to their role in animals and plants, homeodomain transcription factors in ascomycetes are involved in shaping multicellular structures. [ABSTRACT FROM AUTHOR]

Published

2012

8. Genomic Clustering and Homology between HET-S and the NWD2 STAND Protein in Various Fungal Genomes.

Author

Daskalov, Asen, Paoletti, Mathieu, Ness, Frédérique, and Saupe, Sven J.

Subjects

*GENOMES, *HOMOLOGY (Biology), *PROTEINS, *PODOSPORA anserina, *CELL death, *AMYLOID

Abstract

Background: Prions are infectious proteins propagating as self-perpetuating amyloid polymers. The [Het-s] prion of Podospora anserina is involved in a cell death process associated with non-self recognition. The prion forming domain (PFD) of HET-s adopts a β-solenoid amyloid structure characterized by the two fold repetition of an elementary triangular motif. [Het-s] induces cell death when interacting with HET-S, an allelic variant of HET-s. When templated by [Het-s], HET-S undergoes a trans-conformation, relocates to the cell membrane and induces toxicity. Methodology/Principal Findings:Here, comparing HET-s homologs from different species, we devise a consensus for the HET-s elementary triangular motif. We use this motif to screen genomic databases and find a match to the N-terminus of NWD2, a STAND protein, encoded by the gene immediately adjacent to het-S. STAND proteins are signal transducing ATPases which undergo ligand-induced oligomerisation. Homology modelling predicts that the NWD2 N-terminal region adopts a HET-s-like fold. We propose that upon NWD2 oligomerisation, these N-terminal extensions adopt the b-solenoid fold and template HET-S to adopt the amyloid fold and trigger toxicity. We extend this model to a putative prion, the s infectious element in Nectria haematococca, because the s locus controlling propagation of s also encodes a STAND protein and displays analogous features. Comparative genomic analyses indicate evolutionary conservation of these STAND/prionlike gene pairs, identify a number of novel prion candidates and define, in addition to the HET-s PFD motif, two distinct, novel putative PFD-like motifs. Conclusions/Significance:We suggest the existence, in the fungal kingdom, of a widespread and evolutionarily conserved mode of signal transduction based on the transmission of an amyloid-fold from a NOD-like STAND receptor protein to an effector protein. [ABSTRACT FROM AUTHOR]

Published

2012

9. Wood Utilization Is Dependent on Catalase Activities in the Filamentous Fungus Podospora anserina.

Author

Bourdais, Anne, Bidard, Frederique, Zickler, Denise, Berteaux-Lecellier, Veronique, Silar, Philippe, and Espagne, Eric

Subjects

*WOOD, *CATALASE, *PODOSPORA anserina, *ENZYMES, *CELLS

Abstract

Catalases are enzymes that play critical roles in protecting cells against the toxic effects of hydrogen peroxide. They are implicated in various physiological and pathological conditions but some of their functions remain unclear. In order to decipher the role(s) of catalases during the life cycle of Podospora anserina, we analyzed the role of the four monofunctional catalases and one bifunctional catalase-peroxidase genes present in its genome. The five genes were deleted and the phenotypes of each single and all multiple mutants were investigated. Intriguingly, although the genes are differently expressed during the life cycle, catalase activity is dispensable during both vegetative growth and sexual reproduction in laboratory conditions. Catalases are also not essential for cellulose or fatty acid assimilation. In contrast, they are strictly required for efficient utilization of more complex biomass like wood shavings by allowing growth in the presence of lignin. The secreted CATB and cytosolic CAT2 are the major catalases implicated in peroxide resistance, while CAT2 is the major player during complex biomass assimilation. Our results suggest that P. anserina produces external H2O2 to assimilate complex biomass and that catalases are necessary to protect the cells during this process. In addition, the phenotypes of strains lacking only one catalase gene suggest that a decrease of catalase activity improves the capacity of the fungus to degrade complex biomass. [ABSTRACT FROM AUTHOR]

Published

2012

10. Origins and Evolution of the HET-s Prion-Forming Protein: Searching for Other Amyloid-Forming Solenoids.

Author

Gendoo, Deena M. A. and Harrison, Paul M.

Subjects

*PRIONS, *PROTEINS, *PODOSPORA anserina, *SOLENOIDS, *AMYLOID

Abstract

The HET-s prion-forming domain from the filamentous fungus Podospora anserina is gaining considerable interest since it yielded the first well-defined atomic structure of a functional amyloid fibril. This structure has been identified as a left-handed beta solenoid with a triangular hydrophobic core. To delineate the origins of the HET-s prion-forming protein and to discover other amyloid-forming proteins, we searched for all homologs of the HET-s protein in a database of protein domains and fungal genomes, using a combined application of HMM, psi-blast and pGenThreader techniques, and performed a comparative evolutionary analysis of the N-terminal alpha-helical domain and the C-terminal prion-forming domain of HET-s. By assessing the tandem evolution of both domains, we observed that the prion-forming domain is restricted to Sordariomycetes, with a marginal additional sequence homolog in Arthroderma otae as a likely case of horizontal transfer. This suggests innovation and rapid evolution of the solenoid fold in the Sordariomycetes clade. In contrast, the N-terminal domain evolves at a slower rate (in Sordariomycetes) and spans many diverse clades of fungi. We performed a full three-dimensional protein threading analysis on all identified HET-s homologs against the HET-s solenoid fold, and present detailed structural annotations for identified structural homologs to the prion-forming domain. An analysis of the physicochemical characteristics in our set of structural models indicates that the HET-s solenoid shape can be readily adopted in these homologs, but that they are all less optimized for fibril formation than the P. anserina HET-s sequence itself, due chiefly to the presence of fewer asparagine ladders and salt bridges. Our combined structural and evolutionary analysis suggests that the HET-s shape has ''limited scope'' for amyloidosis across the wider protein universe, compared to the 'generic' left-handed beta helix. We discuss the implications of our findings on future identification of amyloid-forming proteins sharing the solenoid fold. [ABSTRACT FROM AUTHOR]

Published

2011

11. Genome-Wide Gene Expression Profiling of Fertilization Competent Mycelium in Opposite Mating Types in the Heterothallic Fungus Podospora anserina.

Author

Bidard, Frédérique, Benkhali, Jinane Aït, Coppin, Evelyne, Imbeaud, Sandrine, Grognet, Pierre, Delacroix, Hervé, and Debuchy, Robert

Subjects

*HETEROTHALLISM in fungi, *GENE expression, *FERTILIZATION (Biology), *MYCELIUM, *PODOSPORA anserina, *SCHIZOSACCHAROMYCES pombe, *TRANSCRIPTION factors, *GENE targeting, *SEXUAL cycle, *SACCHAROMYCES cerevisiae

Abstract

Background: Mating-type loci in yeasts and ascomycotan filamentous fungi (Pezizomycotina) encode master transcriptional factors that play a critical role in sexual development. Genome-wide analyses of mating-type-specification circuits and mating-type target genes are available in Saccharomyces cerevisiae and Schizosaccharomyces pombe; however, no such analyses have been performed in heterothallic (self-incompatible) Pezizomycotina. The heterothallic fungus Podospora anserina serves as a model for understanding the basic features of mating-type control. Its mat+ and mat- mating types are determined by dissimilar allelic sequences. The mat- sequence contains three genes, designated FMR1, SMR1 and SMR2, while the mat+ sequence contains one gene, FPR1. FMR1 and FPR1 are the major regulators of fertilization, and this study presents a genome-wide view of their target genes and analyzes their target gene regulation. Methodology/Principal Findings: The transcriptomic profiles of the mat+ and mat- strains revealed 157 differentially transcribed genes, and transcriptomic analysis of fmr1- and fpr1- mutant strains was used to determine the regulatory actions exerted by FMR1 and FPR1 on these differentially transcribed genes. All possible combinations of transcription repression and/or activation by FMR1 and/or FPR1 were observed. Furthermore, 10 additional mating-type target genes were identified that were up- or down-regulated to the same level in mat+ and mat- strains. Of the 167 genes identified, 32 genes were selected for deletion, which resulted in the identification of two genes essential for the sexual cycle. Interspecies comparisons of mating-type target genes revealed significant numbers of orthologous pairs, although transcriptional profiles were not conserved between species. Conclusions/Significance: This study represents the first comprehensive genome-wide analysis of mating-type direct and indirect target genes in a heterothallic filamentous fungus. Mating-type transcription factors have many more target genes than are found in yeasts and exert a much greater diversity of regulatory actions on target genes, most of which are not directly related to mating. [ABSTRACT FROM AUTHOR]

Published

2011

12. Alternative Oxidase Dependent Respiration Leads to an Increased Mitochondrial Content in Two Long-Lived Mutants of the Ageing Model Podospora anserina.

Author

Scheckhuber, Christian Q., Houthoofd, Koen, Weil, Andrea C., Werner, Alexandra, De Vreese, Annemie, Vanfleteren, Jacques R., and Osiewacz, Heinz D.

Subjects

*PODOSPORA anserina, *OXIDASES, *PODOSPORA, *MOLECULAR chaperones, *HYDROGEN peroxide, *ORGANELLES, *REACTIVE oxygen species

Abstract

The retrograde response constitutes an important signalling pathway from mitochondria to the nucleus which induces several genes to allow compensation of mitochondrial impairments. In the filamentous ascomycete Podospora anserina, an example for such a response is the induction of a nuclear-encoded and iron-dependent alternative oxidase (AOX) occurring when cytochrome-c oxidase (COX) dependent respiration is affected. Several long-lived mutants are known which predominantly or exclusively respire via AOX. Here we show that two AOX-utilising mutants, grisea and PaCox17::ble, are able to compensate partially for lowered OXPHOS efficiency resulting from AOX-dependent respiration by increasing mitochondrial content. At the physiological level this is demonstrated by an elevated oxygen consumption and increased heat production. However, in the two mutants, ATP levels do not reach WT levels. Interestingly, mutant PaCox17::ble is characterized by a highly increased release of the reactive oxygen species (ROS) hydrogen peroxide. Both grisea and PaCox17::ble contain elevated levels of mitochondrial proteins involved in quality control, i. e. LON protease and the molecular chaperone HSP60. Taken together, our work demonstrates that AOX-dependent respiration in two mutants of the ageing model P. anserina is linked to a novel mechanism involved in the retrograde response pathway, mitochondrial biogenesis, which might also play an important role for cellular maintenance in other organisms. [ABSTRACT FROM AUTHOR]

Published

2011

13. Age-Related Cellular Copper Dynamics in the Fungal Ageing Model Podospora anserina and in Ageing Human Fibroblasts.

Author

Scheckhuber, Christian Q., Grief, Jürgen, Boilan, Emmanuelle, Luce, Karin, Debacq-Chainiaux, Florence, Rittmeyer, Claudia, Gredilla, Ricardo, Kolbesen, Bernd O., Toussaint, Olivier, and Osiewacz, Heinz D.

Subjects

*PODOSPORA anserina, *FIBROBLASTS, *AGING, *HOMEOSTASIS, *MITOCHONDRIA, *X-ray spectroscopy, *MATRICES (Mathematics), *LIFE spans, *GENES

Abstract

In previous investigations an impact of cellular copper homeostasis on ageing of the ascomycete Podospora anserina has been demonstrated. Here we provide new data indicating that mitochondria play a major role in this process. Determination of copper in the cytosolic fraction using total reflection X-ray fluorescence spectroscopy analysis and eGfp reporter gene studies indicate an age-related increase of cytosolic copper levels. We show that components of the mitochondrial matrix (i.e. eGFP targeted to mitochondria) become released from the organelle during ageing. Decreasing the accessibility of mitochondrial copper in P. anserina via targeting a copper metallothionein to the mitochondrial matrix was found to result in a switch from a copper-dependent cytochrome-c oxidase to a copper-independent alternative oxidase type of respiration and results in lifespan extension. In addition, we demonstrate that increased copper concentrations in the culture medium lead to the appearance of senescence biomarkers in human diploid fibroblasts (HDFs). Significantly, expression of copper-regulated genes is induced during in vitro ageing in medium devoid of excess copper suggesting that cytosolic copper levels also increase during senescence of HDFs. These data suggest that the identified molecular pathway of age-dependent copper dynamics may not be restricted to P. anserina but may be conserved from lower eukaryotes to humans. [ABSTRACT FROM AUTHOR]

Published

2009

14. Correction: A Genome-Wide Longitudinal Transcriptome Analysis of the Aging Model Podospora anserina

Author

Jörg Servos, Ina Koch, Oliver Philipp, Alexandra Werner, Andrea Hamann, and Heinz D. Osiewacz

Subjects

Gerontology, Genetics, Multidisciplinary, Species name, biology, Science, Correction, biology.organism_classification, Genome, Podospora anserina, Transcriptome, Medicine

Abstract

The species name "Podospora anserina" is spelled incorrectly in the article title. The correct title is: "A Genome-Wide Longitudinal Transcriptome Analysis of the Aging Model Podospora anserina." The correct Citation is: Philipp O, Hamann A, Servos J, Werner A, Koch I, et al. (2013) A Genome-Wide Longitudinal Transcriptome Analysis of the Aging Model Podospora anserina. PLoS ONE 8(12): e83109. doi:10.1371/journal.pone.0083109

Published

2013

15. Rab-GDI Complex Dissociation Factor Expressed through Translational Frameshifting in Filamentous Ascomycetes

Author

Olivier Namy, Philippe Silar, Magali Prigent, Jean-Pierre Rousset, Céline Fabret, Fabienne Malagnac, Institut de génétique et microbiologie [Orsay] (IGM), and Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Science, Saccharomyces cerevisiae, Podospora anserina, General Biochemistry, Genetics and Molecular Biology, Frameshift mutation, Fungal Proteins, 03 medical and health sciences, 0302 clinical medicine, Ascomycota, Podospora, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, Mycelium, 030304 developmental biology, Genetics, 0303 health sciences, Translational frameshift, Multidisciplinary, biology, fungi, Frameshifting, Ribosomal, General Medicine, biology.organism_classification, Cell biology, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Medicine, Rab, General Agricultural and Biological Sciences, 030217 neurology & neurosurgery, Pezizomycotina, Research Article

Abstract

International audience; In the model fungus Podospora anserina, the PaYIP3 gene encoding the orthologue of the Saccharomyces cerevisiae YIP3 Rab-GDI complex dissociation factor expresses two polypeptides, one of which, the long form, is produced through a programmed translation frameshift. Inactivation of PaYIP3 results in slightly delayed growth associated with modification in repartition of fruiting body on the thallus, along with reduced ascospore production on wood. Long and short forms of PaYIP3 are expressed in the mycelium, while only the short form appears expressed in the maturing fruiting body (perithecium). The frameshift has been conserved over the evolution of the Pezizomycotina, lasting for over 400 million years, suggesting that it has an important role in the wild.

Published

2013

16. A Differential Genome-Wide Transcriptome Analysis: Impact of Cellular Copper on Complex Biological Processes like Aging and Development

Author

Carolin Grimm, Jörg Servos, Heinz D. Osiewacz, and Andrea Hamann

Subjects

Alternative respiration, Fungal Physiology, Iron, Mutant, Genes, Fungal, lcsh:Medicine, Siderophores, Mycology, Plant Science, Genome, Microbiology, Podospora anserina, Transcriptomes, Transcriptome, Fungal Proteins, Genome Analysis Tools, Podospora, ddc:570, Gene Expression Regulation, Fungal, RNA, Messenger, lcsh:Science, Fungal Biochemistry, Gene, Biology, Biological Phenomena, Genetics, Multidisciplinary, biology, Systems Biology, Gene Expression Profiling, lcsh:R, Fungi, Botany, Computational Biology, Genomics, biology.organism_classification, Phenotype, Gene expression profiling, lcsh:Q, Genome, Fungal, Energy Metabolism, Reactive Oxygen Species, Copper, Research Article

Abstract

The regulation of cellular copper homeostasis is crucial in biology. Impairments lead to severe dysfunctions and are known to affect aging and development. Previously, a loss-of-function mutation in the gene encoding the copper-sensing and copper-regulated transcription factor GRISEA of the filamentous fungus Podospora anserina was reported to lead to cellular copper depletion and a pleiotropic phenotype with hypopigmentation of the mycelium and the ascospores, affected fertility and increased lifespan by approximately 60% when compared to the wild type. This phenotype is linked to a switch from a copper-dependent standard to an alternative respiration leading to both a reduced generation of reactive oxygen species (ROS) and of adenosine triphosphate (ATP). We performed a genome-wide comparative transcriptome analysis of a wild-type strain and the copper-depleted grisea mutant. We unambiguously assigned 9,700 sequences of the transcriptome in both strains to the more than 10,600 predicted and annotated open reading frames of the P. anserina genome indicating 90% coverage of the transcriptome. 4,752 of the transcripts differed significantly in abundance with 1,156 transcripts differing at least 3-fold. Selected genes were investigated by qRT-PCR analyses. Apart from this general characterization we analyzed the data with special emphasis on molecular pathways related to the grisea mutation taking advantage of the available complete genomic sequence of P. anserina. This analysis verified but also corrected conclusions from earlier data obtained by single gene analysis, identified new candidates of factors as part of the cellular copper homeostasis system including target genes of transcription factor GRISEA, and provides a rich reference source of quantitative data for further in detail investigations. Overall, the present study demonstrates the importance of systems biology approaches also in cases were mutations in single genes are analyzed to explain the underlying mechanisms controlling complex biological processes like aging and development.

Published

2012

17. Biological Roles of the Podospora anserina Mitochondrial Lon Protease and the Importance of Its N-Domain

Author

Céline Adam, Sylvie Hermann-Le Denmat, Marguerite Picard, Véronique Contamine, Carole H. Sellem, Michelle Dequard-Chablat, Institut de génétique et microbiologie [Orsay] (IGM), and Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Aging, Protease La, medicine.medical_treatment, Fungal Physiology, Gene Identification and Analysis, lcsh:Medicine, Yeast and Fungal Models, MESH: Amino Acid Sequence, Mitochondrion, Podospora anserina, MESH: Protein Structure, Tertiary, Molecular Cell Biology, lcsh:Science, MESH: Stress, Physiological, Cellular Stress Responses, 0303 health sciences, Podospora, Multidisciplinary, biology, 030302 biochemistry & molecular biology, Cellular Structures, Mitochondria, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Phenotype, Biochemistry, MESH: Protease La, Research Article, Mitochondrial DNA, Proteases, MESH: Mitochondria, Saccharomyces cerevisiae, Molecular Sequence Data, MESH: Proteolysis, Mycology, MESH: Phenotype, Microbiology, Molecular Genetics, 03 medical and health sciences, Model Organisms, Stress, Physiological, MESH: Podospora, medicine, Genetics, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, Amino Acid Sequence, RNA, Messenger, Gene, Biology, Alleles, 030304 developmental biology, MESH: RNA, Messenger, Protease, MESH: Molecular Sequence Data, MESH: Alleles, lcsh:R, biology.organism_classification, Protein Structure, Tertiary, Subcellular Organelles, MESH: Gene Deletion, Proteolysis, lcsh:Q, Organism Development, Gene Deletion, Developmental Biology

Abstract

International audience; Mitochondria have their own ATP-dependent proteases that maintain the functional state of the organelle. All multicellular eukaryotes, including filamentous fungi, possess the same set of mitochondrial proteases, unlike in unicellular yeasts, where ClpXP, one of the two matricial proteases, is absent. Despite the presence of ClpXP in the filamentous fungus Podospora anserina, deletion of the gene encoding the other matricial protease, PaLon1, leads to lethality at high and low temperatures, indicating that PaLON1 plays a main role in protein quality control. Under normal physiological conditions, the PaLon1 deletion is viable but decreases life span. PaLon1 deletion also leads to defects in two steps during development, ascospore germination and sexual reproduction, which suggests that PaLON1 ensures important regulatory functions during fungal development. Mitochondrial Lon proteases are composed of a central ATPase domain flanked by a large non-catalytic N-domain and a C-terminal protease domain. We found that three mutations in the N-domain of PaLON1 affected fungal life cycle, PaLON1 protein expression and mitochondrial proteolytic activity, which reveals the functional importance of the N-domain of the mitochondrial Lon protease. All PaLon1 mutations affected the C-terminal part of the N-domain. Considering that the C-terminal part is predicted to have an α helical arrangement in which the number, length and position of the helices are conserved with the solved structure of its bacterial homologs, we propose that this all-helical structure participates in Lon substrate interaction.

Published

2012

18. Origins and evolution of the HET-s prion-forming protein: searching for other amyloid-forming solenoids

Author

Deena M.A. Gendoo and Paul M. Harrison

Subjects

Amyloid, Protein Structure, animal structures, Gene Transfer, Horizontal, Proteome, Prions, Protein domain, Beta helix, lcsh:Medicine, Sequence alignment, Computational biology, Biochemistry, Podospora anserina, Prion Diseases, Evolution, Molecular, Fungal Proteins, 03 medical and health sciences, Protein structure, Phylogenetics, Podospora, Evolutionary Modeling, Macromolecular Structure Analysis, lcsh:Science, Biology, Phylogeny, 030304 developmental biology, Genetics, 0303 health sciences, Fungal protein, Evolutionary Biology, Multidisciplinary, biology, 030302 biochemistry & molecular biology, lcsh:R, Proteins, Computational Biology, Sordariomycetes, biology.organism_classification, Protein Structure, Tertiary, Infectious Diseases, Medicine, lcsh:Q, Research Article

Abstract

The HET-s prion-forming domain from the filamentous fungus Podospora anserina is gaining considerable interest since it yielded the first well-defined atomic structure of a functional amyloid fibril. This structure has been identified as a left-handed beta solenoid with a triangular hydrophobic core. To delineate the origins of the HET-s prion-forming protein and to discover other amyloid-forming proteins, we searched for all homologs of the HET-s protein in a database of protein domains and fungal genomes, using a combined application of HMM, psi-blast and pGenThreader techniques, and performed a comparative evolutionary analysis of the N-terminal alpha-helical domain and the C-terminal prion-forming domain of HET-s. By assessing the tandem evolution of both domains, we observed that the prion-forming domain is restricted to Sordariomycetes, with a marginal additional sequence homolog in Arthroderma otae as a likely case of horizontal transfer. This suggests innovation and rapid evolution of the solenoid fold in the Sordariomycetes clade. In contrast, the N-terminal domain evolves at a slower rate (in Sordariomycetes) and spans many diverse clades of fungi. We performed a full three-dimensional protein threading analysis on all identified HET-s homologs against the HET-s solenoid fold, and present detailed structural annotations for identified structural homologs to the prion-forming domain. An analysis of the physicochemical characteristics in our set of structural models indicates that the HET-s solenoid shape can be readily adopted in these homologs, but that they are all less optimized for fibril formation than the P. anserina HET-s sequence itself, due chiefly to the presence of fewer asparagine ladders and salt bridges. Our combined structural and evolutionary analysis suggests that the HET-s shape has “limited scope” for amyloidosis across the wider protein universe, compared to the ‘generic’ left-handed beta helix. We discuss the implications of our findings on future identification of amyloid-forming proteins sharing the solenoid fold.

Published

2011

19. Genome-wide gene expression profiling of fertilization competent mycelium in opposite mating types in the heterothallic fungus Podospora anserina

Author

Jinane Ait Benkhali, Hervé Delacroix, Evelyne Coppin, Pierre Grognet, Robert Debuchy, Frédérique Bidard, Sandrine Imbeaud, Institut de génétique et microbiologie [Orsay] (IGM), and Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Mating type, Fungal Physiology, DNA transcription, lcsh:Medicine, Yeast and Fungal Models, Mycology, Genome, Microbiology, Podospora anserina, Schizosaccharomyces Pombe, 03 medical and health sciences, Model Organisms, Fungal Reproduction, Podospora, Genetics, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, Heterothallic, lcsh:Science, Gene, Biology, 030304 developmental biology, 0303 health sciences, Multidisciplinary, biology, Mycelium, 030306 microbiology, Gene Expression Profiling, lcsh:R, Fungal genetics, Microbial Growth and Development, Fungi, Neurospora Crassa, Genomics, biology.organism_classification, Genes, Mating Type, Fungal, Yeast, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Schizosaccharomyces pombe, Saccharomyces Cerevisiae, lcsh:Q, Gene expression, Gene Function, Genome Expression Analysis, Pezizomycotina, Research Article, Developmental Biology

Abstract

International audience; BACKGROUND: Mating-type loci in yeasts and ascomycotan filamentous fungi (Pezizomycotina) encode master transcriptional factors that play a critical role in sexual development. Genome-wide analyses of mating-type-specification circuits and mating-type target genes are available in Saccharomyces cerevisiae and Schizosaccharomyces pombe; however, no such analyses have been performed in heterothallic (self-incompatible) Pezizomycotina. The heterothallic fungus Podospora anserina serves as a model for understanding the basic features of mating-type control. Its mat+ and mat- mating types are determined by dissimilar allelic sequences. The mat- sequence contains three genes, designated FMR1, SMR1 and SMR2, while the mat+ sequence contains one gene, FPR1. FMR1 and FPR1 are the major regulators of fertilization, and this study presents a genome-wide view of their target genes and analyzes their target gene regulation. METHODOLOGY/PRINCIPAL FINDINGS: The transcriptomic profiles of the mat+ and mat- strains revealed 157 differentially transcribed genes, and transcriptomic analysis of fmr1(-) and fpr1(-) mutant strains was used to determine the regulatory actions exerted by FMR1 and FPR1 on these differentially transcribed genes. All possible combinations of transcription repression and/or activation by FMR1 and/or FPR1 were observed. Furthermore, 10 additional mating-type target genes were identified that were up- or down-regulated to the same level in mat+ and mat- strains. Of the 167 genes identified, 32 genes were selected for deletion, which resulted in the identification of two genes essential for the sexual cycle. Interspecies comparisons of mating-type target genes revealed significant numbers of orthologous pairs, although transcriptional profiles were not conserved between species. CONCLUSIONS/SIGNIFICANCE: This study represents the first comprehensive genome-wide analysis of mating-type direct and indirect target genes in a heterothallic filamentous fungus. Mating-type transcription factors have many more target genes than are found in yeasts and exert a much greater diversity of regulatory actions on target genes, most of which are not directly related to mating.

Published

2011

20. Age-related cellular copper dynamics in the fungal ageing model Podospora anserina and in ageing human fibroblasts

Author

Heinz D. Osiewacz, Bernd O. Kolbesen, Emmanuelle Boilan, Olivier Toussaint, Christian Q. Scheckhuber, Jürgen Grief, Florence Debacq-Chainiaux, Karin Luce, Claudia Rittmeyer, and Ricardo Gredilla

Subjects

Senescence, Aging, Alternative oxidase, Longevity, lcsh:Medicine, Mitochondrion, Podospora anserina, Podospora, ddc:570, Humans, Metallothionein, lcsh:Science, Molecular Biology, Cells, Cultured, Cellular Senescence, Cell Biology/Gene Expression, Multidisciplinary, biology, lcsh:R, Genetics and Genomics, Fibroblasts, Developmental Biology/Aging, biology.organism_classification, Mitochondria, Gene Expression Regulation, Biochemistry, Ageing, lcsh:Q, Reactive Oxygen Species, Cell aging, Biomarkers, Copper, Research Article

Abstract

In previous investigations an impact of cellular copper homeostasis on ageing of the ascomycete Podospora anserina has been demonstrated. Here we provide new data indicating that mitochondria play a major role in this process. Determination of copper in the cytosolic fraction using total reflection X-ray fluorescence spectroscopy analysis and eGfp reporter gene studies indicate an age-related increase of cytosolic copper levels. We show that components of the mitochondrial matrix (i.e. eGFP targeted to mitochondria) become released from the organelle during ageing. Decreasing the accessibility of mitochondrial copper in P. anserina via targeting a copper metallothionein to the mitochondrial matrix was found to result in a switch from a copper-dependent cytochrome-c oxidase to a copper-independent alternative oxidase type of respiration and results in lifespan extension. In addition, we demonstrate that increased copper concentrations in the culture medium lead to the appearance of senescence biomarkers in human diploid fibroblasts (HDFs). Significantly, expression of copper-regulated genes is induced during in vitro ageing in medium devoid of excess copper suggesting that cytosolic copper levels also increase during senescence of HDFs. These data suggest that the identified molecular pathway of age-dependent copper dynamics may not be restricted to P. anserina but may be conserved from lower eukaryotes to humans. © 2009 Scheckhuber et al.

Published

2009

21. Systematic Deletion of Homeobox Genes in Podospora anserina Uncovers Their Roles in Shaping the Fruiting Body

Author

Jinane Aït-Benkhali, Véronique Berteaux-Lecellier, Eric Espagne, Audrey Nesseir, Gwenaël Ruprich-Robert, Anne Goarin, Evelyne Coppin, Sara Planamente, Robert Debuchy, Philippe Silar, Sylvain Brun, Frédérique Bidard, Institut de génétique et microbiologie [Orsay] (IGM), and Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Fungal Structure, Fungal Physiology, Mutant, lcsh:Medicine, Yeast and Fungal Models, medicine.disease_cause, Podospora anserina, 030308 mycology & parasitology, Fungal Reproduction, Fungal Evolution, lcsh:Science, Dikaryon, Genetics, 0303 health sciences, Mutation, Podospora, Multidisciplinary, biology, Genes, Homeobox, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Phenotype, Research Article, Genotype, Molecular Sequence Data, Mycology, Microbiology, Evolution, Molecular, 03 medical and health sciences, Model Organisms, medicine, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, Amino Acid Sequence, Fruiting Bodies, Fungal, Biology, Gene, Transcription factor, 030304 developmental biology, lcsh:R, Fungi, Computational Biology, biology.organism_classification, Fertility, Homeobox, lcsh:Q, Sequence Alignment, Gene Deletion, Population Genetics, Transcription Factors

Abstract

International audience; Higher fungi, which comprise ascomycetes and basidiomycetes, play major roles in the biosphere. Their evolutionary success may be due to the extended dikaryotic stage of their life cycle, which is the basis for their scientific name: the Dikarya. Dikaryosis is maintained by similar structures, the clamp in basidiomycetes and the crozier in ascomycetes. Homeodomain transcription factors are required for clamp formation in all basidiomycetes studied. We identified all the homeobox genes in the filamentous ascomycete fungus Podospora anserina and constructed deletion mutants for each of these genes and for a number of gene combinations. Croziers developed normally in these mutants, including those with up to six deleted homeogenes. However, some mutants had defects in maturation of the fruiting body, an effect that could be rescued by providing wild-type maternal hyphae. Analysis of mutants deficient in multiple homeogenes revealed interactions between the genes, suggesting that they operate as a complex network. Similar to their role in animals and plants, homeodomain transcription factors in ascomycetes are involved in shaping multicellular structures.

Published

2012

22. Genomic Clustering and Homology between HET-S and the NWD2 STAND Protein in Various Fungal Genomes

Author

Frédérique Ness, Mathieu Paoletti, Sven J. Saupe, and Asen Daskalov

Subjects

Models, Molecular, Fungal Physiology, Amino Acid Motifs, lcsh:Medicine, Plant Science, Biochemistry, Homology (biology), Podospora anserina, Prion Diseases, Conserved sequence, Protein structure, Fungal Evolution, Protein Isoforms, lcsh:Science, Peptide sequence, Conserved Sequence, Genetics, Multidisciplinary, biology, Fungal genetics, Genomics, Infectious Diseases, Multigene Family, Medicine, Genome, Fungal, Signal Transduction, Research Article, Amyloid, Protein Structure, animal structures, Prions, Molecular Sequence Data, Protein domain, Sequence alignment, Mycology, Microbiology, Fungal Proteins, Podospora, Amino Acid Sequence, Biology, Nectria, Sequence Homology, Amino Acid, lcsh:R, Botany, Proteins, Comparative Genomics, biology.organism_classification, Protein Structure, Tertiary, lcsh:Q, Protein Multimerization, Gene Function

Abstract

BACKGROUND: Prions are infectious proteins propagating as self-perpetuating amyloid polymers. The [Het-s] prion of Podospora anserina is involved in a cell death process associated with non-self recognition. The prion forming domain (PFD) of HET-s adopts a β-solenoid amyloid structure characterized by the two fold repetition of an elementary triangular motif. [Het-s] induces cell death when interacting with HET-S, an allelic variant of HET-s. When templated by [Het-s], HET-S undergoes a trans-conformation, relocates to the cell membrane and induces toxicity. METHODOLOGY/PRINCIPAL FINDINGS: Here, comparing HET-s homologs from different species, we devise a consensus for the HET-s elementary triangular motif. We use this motif to screen genomic databases and find a match to the N-terminus of NWD2, a STAND protein, encoded by the gene immediately adjacent to het-S. STAND proteins are signal transducing ATPases which undergo ligand-induced oligomerisation. Homology modelling predicts that the NWD2 N-terminal region adopts a HET-s-like fold. We propose that upon NWD2 oligomerisation, these N-terminal extensions adopt the β-solenoid fold and template HET-S to adopt the amyloid fold and trigger toxicity. We extend this model to a putative prion, the σ infectious element in Nectria haematococca, because the s locus controlling propagation of σ also encodes a STAND protein and displays analogous features. Comparative genomic analyses indicate evolutionary conservation of these STAND/prion-like gene pairs, identify a number of novel prion candidates and define, in addition to the HET-s PFD motif, two distinct, novel putative PFD-like motifs. CONCLUSIONS/SIGNIFICANCE: We suggest the existence, in the fungal kingdom, of a widespread and evolutionarily conserved mode of signal transduction based on the transmission of an amyloid-fold from a NOD-like STAND receptor protein to an effector protein.

Published

2012

23. Alternative Oxidase Dependent Respiration Leads to an Increased Mitochondrial Content in Two Long-Lived Mutants of the Ageing Model Podospora anserina

Author

Koen Houthoofd, Jacques R. Vanfleteren, Heinz D. Osiewacz, Christian Q. Scheckhuber, Annemie De Vreese, Andrea C. Weil, and Alexandra Werner

Subjects

Aging, Alternative oxidase, Science, Fungal Physiology, Mycology, Plant Science, Oxidative phosphorylation, Mitochondrion, Biology, Microbiology, Podospora anserina, Mitochondrial Proteins, Adenosine Triphosphate, Oxygen Consumption, Podospora, ddc:570, Molecular Cell Biology, Plant Proteins, Oxidase test, Multidisciplinary, Botany, biology.organism_classification, Mitochondria, Biochemistry, Mitochondrial biogenesis, Medicine, HSP60, Energy Metabolism, Oxidoreductases, Reactive Oxygen Species, Organism Development, Research Article, Developmental Biology

Abstract

The retrograde response constitutes an important signalling pathway from mitochondria to the nucleus which induces several genes to allow compensation of mitochondrial impairments. In the filamentous ascomycete Podospora anserina, an example for such a response is the induction of a nuclear-encoded and iron-dependent alternative oxidase (AOX) occurring when cytochrome-c oxidase (COX) dependent respiration is affected. Several long-lived mutants are known which predominantly or exclusively respire via AOX. Here we show that two AOX-utilising mutants, grisea and PaCox17::ble, are able to compensate partially for lowered OXPHOS efficiency resulting from AOX-dependent respiration by increasing mitochondrial content. At the physiological level this is demonstrated by an elevated oxygen consumption and increased heat production. However, in the two mutants, ATP levels do not reach WT levels. Interestingly, mutant PaCox17::ble is characterized by a highly increased release of the reactive oxygen species (ROS) hydrogen peroxide. Both grisea and PaCox17::ble contain elevated levels of mitochondrial proteins involved in quality control, i. e. LON protease and the molecular chaperone HSP60. Taken together, our work demonstrates that AOX-dependent respiration in two mutants of the ageing model P. anserina is linked to a novel mechanism involved in the retrograde response pathway, mitochondrial biogenesis, which might also play an important role for cellular maintenance in other organisms.

Published

2011

24. Correction: A Genome-Wide Longitudinal Transcriptome Analysis of the Aging Model Podospora anserina.

Subjects

*PODOSPORA anserina, *GENETIC transcription, *FUNGAL aging, *LITERARY errors & blunders, *FUNGAL genetics research, *PUBLISHING, *FUNGI

Published

2014

25. Correction: A Genome-Wide Longitudinal Transcriptome Analysis of the Aging Model Podospora anserina.

Subjects

PODOSPORA anserina, GENETIC transcription, FUNGAL aging, LITERARY errors & blunders, FUNGAL genetics research, PUBLISHING, FUNGI

Published

2014