UID:
almahu_9948026561802882
Format:
1 online resource (325 p.)
Edition:
1st ed.
ISBN:
1-281-03830-X
,
9786611038304
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0-08-055127-0
Series Statement:
British Mycological Society symposium series ; v.27
Content:
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
Note:
Description based upon print version of record.
,
Cover; Contents; List of contributors; Preface; Chapter 1. Interactions Between Agaricus bisporus and the Pathogen Verticillium fungicola; 1. Introduction; 2. Pathogen Variability; 3. Extra-Cellular Enzyme Production; 4. Screening for Resistance; 5. Fungal Transformation; 6. Molecular Interactions of Verticillium and Agaricus; 7. Functional Characterisation of Host-Pathogen Response Genes; 8. Future Work; Acknowledgements; References; Chapter 2. Environmental Fluxes and Fungal Interactions: Maintaining a Competitive Edge; 1. Introduction
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2. Environmental Factors and Competitiveness Based on Mycelial Interactions3. Niche Overlap, Environmental Factors and Competitiveness; 4. Role of Secondary Metabolites in Maintaining a Competitive Edge; 5. Conclusions; References; Chapter 3. Intracellular Mycoparasites in Action: Interactions Between Powdery Mildew Fungi and Ampelomyces; 1. Introduction; 2. Details of the Mycoparasitic Interaction; 3. Mycoparasitism as a Biotic Stress for the Parasitized Fungi; 4. Other Fungal Antagonists of Powdery Mildew Fungi; 5. Conclusions; Acknowledgement; References
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Chapter 4. The Population Dynamical Consequences of Density Dependence in Fungal Plant Pathogens1. Biotic Stress; 2. Competition; 3. Synergism; 4. Multi-Trophic Interactions; 5. Population Stress; References; Chapter 5. Differences in Stress Responses Between Model and Pathogenic Fungi; 1. Introduction; 2. Stress Responses and Virulence; 3. Stress Responses in the Host; 4. Stress Responses In Vitro; 5. Regulation of Stress-Induced Gene Expression; 6. Stress Responses in C. Glabrata; 7. Conclusions: Specialised Stress Responses in Candida; Acknowledgements; References
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Chapter 6. The Remarkably Diverse Pathogenicity Effectors of the Obligate Oomycete Hyaloperonospora parasitica1. Plants have Several Layers of Resistance Mechanisms; 2. Oomycete and Malarial Pathogencity Effectors Reveal a Conserved Motif; 3. Oomycete Genomics will Revolutionise Analysis of Plant Immune Systems; Acknowledgements; References; Chapter 7. Ace2 and Fungal Virulence; 1. Introduction to Ace2; 2. Mitotic Exit and Regulation of Ace2; 3. Ram: Regulation of ACE2 and Cellular Morphogenesis; 4. Ace2 and Fungal Virulence; 5. Concluding Remarks; Acknowledgements; References
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Chapter 8. Integrative Analysis of Yeast Osmoregulation1. Osmoregulation: Maintaining the Water Balance; 2. Time Line: Response to Osmotic Shock; 3. The HOG Signalling System; 4. Cytosolic Responses; 5. Fps1; 6. Transcriptional Responses; 7. Feedback Control; 8. Perspectives; Acknowledgements; References; Chapter 9. Oxidative Stress, Fragmentation and Cell Death During Bioreactor Growth of Filamentous Fungi; 1. Introduction; 2. Fragmentation of Fungal Hyphae in Submerged Culture; 3. Oxidative Stress in Fungal Fermentations; 4. Cell Death During Fed-Batch Cultivation of A. Niger and T. Reesei
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5. Differences in the Patterns of Cell Death and Fragmentation Between A. Niger and T. Reesei During Fed-Batch Cultivation
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English
Additional Edition:
ISBN 0-12-374184-X
Language:
English
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