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Klappentext Yeasts and filamentous fungi need to cope with stress! whether growing in the laboratory or in the natural environment! whether victims or offenders in interactions with other organisms. These considerations are discussed in this volume that coveres stress in the broad sense! within the context of mycology. * Includes discussions of the stresses associated with organism-organism interactions and stress under controlled conditions* Anthropogenic stress towards fungi in the environment and the impacts that such stressors may have on different organisms and communities in the wild are explained* Encompasses a breadth of information from the bigger picture of stress effects on fungi in their natural habitats! to the recent advances in underlying molecular-level understanding Zusammenfassung Yeasts and filamentous fungi need to cope with stress! whether growing in the laboratory or in the natural environment! whether victims or offenders in interactions with other organisms. This work discusses these considerations and covers stress in the broad sense! within the context of mycology. Inhaltsverzeichnis Interactions between Agaricus bisporus and the pathogen Verticillium fungicola Environmental fluxes and fungal interactions: maintaining a competitive edge Intracellular mycoparasites in action: interactions between powdery mildew fungi and Ampelomyces The population dynamical consequences of density-dependence in fungal plant pathogens Differences in stress response between model and pathogenic fungi. The remarkably diverse pathogenicity effectors of the obligate oomycete Hyaloperonospora parasitica Ace2 and fungal virulence Integrative analysis of yeast osmoregulation Oxidative stress, fragmentation and cell death during bioreactor growth of filamentous fung Weak organic acid resistance of spoilage yeasts Heavy metal pollution and genetic adaptations in ectomycorrhizal fungi Lichens and Metals Responses of Mycorrhizal Fungi to Stress Regulation of protein synthesis in yeast by oxidative stress Cell differentiation as a response to oxidative stress. Signalling and defences against oxidative stress in Candida albicans Oxidant-specific Protein Folding During Fungal Oxidative Stress: Activation and Function of the Yap1p Transcription Factor in Saccharomyces cerevisiae...
List of contents
Interactions between Agaricus bisporus and the pathogen Verticillium fungicola
Environmental fluxes and fungal interactions: maintaining a competitive edge
Intracellular mycoparasites in action: interactions between powdery mildew fungi and Ampelomyces
The population dynamical consequences of density-dependence in fungal plant pathogens
Differences in stress response between model and pathogenic fungi.
The remarkably diverse pathogenicity effectors of the obligate oomycete Hyaloperonospora parasitica
Ace2 and fungal virulence
Integrative analysis of yeast osmoregulation
Oxidative stress, fragmentation and cell death during bioreactor growth of filamentous fung
Weak organic acid resistance of spoilage yeasts
Heavy metal pollution and genetic adaptations in ectomycorrhizal fungi
Lichens and Metals
Responses of Mycorrhizal Fungi to Stress
Regulation of protein synthesis in yeast by oxidative stress
Cell differentiation as a response to oxidative stress.
Signalling and defences against oxidative stress in Candida albicans
Oxidant-specific Protein Folding During Fungal Oxidative Stress: Activation and Function of the Yap1p Transcription Factor in Saccharomyces cerevisiae
