Details
Plant Relationships
Fungal-Plant InteractionsThe Mycota, Band 5 3rd ed. 2023
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234,33 € |
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| Verlag: | Springer |
| Format: | |
| Veröffentl.: | 08.12.2022 |
| ISBN/EAN: | 9783031165030 |
| Sprache: | englisch |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
<p>This fully revised 3rd edition provides a comprehensive overview of the biology of fungi associated with plants. Since the publication of the 2nd Edition in 2009, tremendous new knowledge has been gained in the field of fungal-plant interactions, which is reflected in the contributions of this book. <br></p><p></p><p>World-leading scientists in the field provide authoritative insights into fungal-plant interactions covering the following main topics:<br></p><p></p><ul><li>Mutualistic and pathogenic fungal-plant interactions in natural and agricultural ecosystems</li><li>Sensing and signalling in fungus-plant interactions</li><li>Regulation of fungal gene expression and development</li><li>Fungal genomes and evolution</li><li>Global pandemics caused by fungal pathogens and their implications for food security</li></ul><p></p><p>This volume will be of great interest to both specialists and generalists. It is an indispensable resource for researchers, lecturers and students in microbiology, mycology, and plant sciences, as well as agriculture and biotechnology.</p>
<b>Part I. Pathogenic Fungus – Plant Interactions</b>.- Modulation of Host Immunity and Development by <i>Ustilago Maydis</i>.- RNA Dialogues in Fungal-Plant Relationships.- The Role of Tox Effector Proteins in the Parastagonospora Nodorum-Wheat Interaction.- <b>Part II. Mutualistic Fungus – Plant Interactions.- </b>Genomes of Arbuscular Mycorrhizal Fungi.- Diversity of Seed Endophytes: Causes and Implications.- Lichens and Their Allies Past and Present.- Lichen Fungal Secondary Metabolites: Progress in the Genomic Era Towards Ecological Roles in the Interaction.- <b>Part III. Sensing and Signalling in Fungus-Plant Interactions.- </b>Regulation of Plant Infection Processes by MAP Kinase Pathways in Ascomycetous Pathogens.- Role of pH in the Control of Fungal MAPK Signalling and Pathogenicity.- Role of Volatile Organic Compounds in Establishment of the <i>Trichoderma</i>-Plant Interaction.- <b>Part IV. Regulation of Fungal Gene Expression and Development.- </b>Epigenetic Regulation of Fungal Genes Involved in Plant Colonization.- Toward Understanding the Role of Chromatin in Secondary Metabolite Gene Regulation in the Rice Pathogen <i>Fusarium</i> <i>Fujikuroi</i>.- The Rice Blast Fungus <i>Magnaporthe Oryzae</i> Uses a Turgor-Dependent, Septin-Mediated Mechanism to Invade Rice.- Role of Light in the Life Cycle of <i>Botrytis Cinerea</i>.- <b>Part V. Genomes and Evolution.- </b>Species of <i>Zymoseptoria</i> (Dothideomycetes) as a Model System to Study Plant Pathogen Genome Evolution.- Accessory Chromosomes of the <i>Fusarium Oxysporum</i> Species Complex and Their Contribution to Host Niche Adaptation.- <b>Part VI. Global Pandemics and Food Security.- </b>Global Landscape of Rust Epidemics by Puccinia Species: Current and Future Perspectives.- <i>Magnaporthe oryzae</i> and Its Pathotypes: A Potential Plant Pandemic Threat to Global Food Security.
<div><p><b>Barry Scott</b> was appointed the inaugural Professor of Molecular Genetics at Massey University in 1985. He was head of the Institute of Molecular Biosciences from 2008 to 2012. Early in his career, he made landmark contributions to the understanding of Rhizobium-legume symbiosis, reported in a seminal Nature paper in 1979. He then turned his attention to the fungal endophyte-grass symbiosis, which is economically important to New Zealand agriculture. His team was responsible for identifying the endophyte genes responsible for the biosynthesis of lolitrems and peramine, secondary metabolites unique to the symbiosis. The other major advance made by Professor Scott and his group was the demonstration that fungal synthesis of reactive oxygen species is essential for stable maintenance of the symbiosis. The results of this work were reported in two landmark papers published in Plant Cell in 2006. This discovery has led to a new and general framework for the studyof fungal-plant interactions. Professor Scott is an Emeritus Investigator in the BioProtection Research Centre, a National Centre of Research Excellence. He was elected a fellow of the Royal Society of New Zealand in 2010 and awarded a Humboldt Research Award in 2014.</p>
<p><b>Carl H. Mesarich</b> was conferred his PhD in Biological Sciences from the University of Auckland, New Zealand, in 2012. Upon completion of his PhD, he spent four years as a postdoctoral scientist in the laboratories of Professor Pierre de Wit at Wageningen University in the Netherlands (2012–2014) and Associate Professor Matthew Templeton at the New Zealand Institute for Plant and Food Research (2015). Major highlights from his postdoctoral research included the identification of <i>Avr5</i>, an avirulence effector gene from the tomato leaf mold fungus, <i>Cladosporium fulvum</i>, as well as the characterization of an apoplastic effectorome for this fungus (published in Molecular Plant Microbe Interactions in 2014 and 2018, respectively). Since 2016, Dr. Mesarich has lead a research team at Massey University, New Zealand, where he is currently a Senior Lecturer in Plant Pathology, as well as an Associate Investigator for Bioprotection Aotearoa, a national Centre of Research Excellence. Much of his team’s research focuses on understanding how the fungal pathogens <i>C. fulvum</i> and <i>Venturia inaequalis</i> (scab disease of apple), as well as the oomycete <i>Phytophthora agathidicida</i> (dieback disease of kauri), cause disease and/or trigger host immunity through the deployment of effector proteins, with the goal of informing disease resistance breeding or selection programs. </p>
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<p><b>Carl H. Mesarich</b> was conferred his PhD in Biological Sciences from the University of Auckland, New Zealand, in 2012. Upon completion of his PhD, he spent four years as a postdoctoral scientist in the laboratories of Professor Pierre de Wit at Wageningen University in the Netherlands (2012–2014) and Associate Professor Matthew Templeton at the New Zealand Institute for Plant and Food Research (2015). Major highlights from his postdoctoral research included the identification of <i>Avr5</i>, an avirulence effector gene from the tomato leaf mold fungus, <i>Cladosporium fulvum</i>, as well as the characterization of an apoplastic effectorome for this fungus (published in Molecular Plant Microbe Interactions in 2014 and 2018, respectively). Since 2016, Dr. Mesarich has lead a research team at Massey University, New Zealand, where he is currently a Senior Lecturer in Plant Pathology, as well as an Associate Investigator for Bioprotection Aotearoa, a national Centre of Research Excellence. Much of his team’s research focuses on understanding how the fungal pathogens <i>C. fulvum</i> and <i>Venturia inaequalis</i> (scab disease of apple), as well as the oomycete <i>Phytophthora agathidicida</i> (dieback disease of kauri), cause disease and/or trigger host immunity through the deployment of effector proteins, with the goal of informing disease resistance breeding or selection programs. </p>
<p></p><br></div>
<p>This fully revised 3rd edition provides a comprehensive overview of the biology of fungi associated with plants. Since the publication of the 2nd Edition in 2009, tremendous new knowledge has been gained in the field of fungal-plant interactions, which is reflected in the contributions of this book. <br></p><p></p><p>World-leading scientists in the field provide authoritative insights into fungal-plant interactions covering the following main topics:<br></p><p></p><ul><li>Mutualistic and pathogenic fungal-plant interactions in natural and agricultural ecosystems</li><li>Sensing and signalling in fungus-plant interactions</li><li>Regulation of fungal gene expression and development</li><li>Fungal genomes and evolution</li><li>Global pandemics caused by fungal pathogens and their implications for food security</li></ul><p></p>This volume will be of great interest to both specialists and generalists. It is an indispensable resource for researchers, lecturers and students in microbiology, mycology, and plant sciences, as well as agriculture and biotechnology.
Comprehensive overview of the biology of fungi associated with plants Authoritative insights into fungal-plant interactions Completely revised and updated new edition
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