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With one volume each year, this series keeps scientists and advanced students informed of the latest developments and results in all areas of the plant sciences. The present volume includes reviews on genetics, cell biology, and vegetation science.
In the last few decades, DNA-based tools for the investigation of fungal taxonomy, signal transduction and regulation, differentiation processes and biosynthetic potential have accelerated advances in our understanding of the Mycota. This completely updated and revised second edition presents a selection of exciting issues involving basic and applied aspects of fungal physiology and genetics. In 14 chapters, respected experts provide an overview of traditional, topical and future aspects of basic fungal principles and potential applications in biotechnology. The contributions will bring scientists up-to-date on the latest developments, and help students familiarize themselves with the different topics.
This volume provides technical insight on how genomics-oriented studies may be used to bring new understanding to established models of fungal development. The book helps to assess and solve problems associated with multiple copies of genes and proteins with seemingly identical functions and depicts various industrial applications. To bridge the information gap resulting from this field's explosive growth, Genomics of Plants and Fungi addresses the implementation of workflow applications with the METEOR Workflow Management System, and discusses clinical manifestations of Aspergillus infection, stunted and medusa genes, hyphal mating and fertilization, and vegetative incompatibility.
The purpose of this volume is to highlight wide-ranging applications of genomics in the area of applied mycology and biotechnology.The volume covers: a brief overview on fungal genomics; meiotic recombination in fungi; molecular genetics of circadian rhythms; genome sequencing; transposable elements; mitochondrial genomes; ribosome biogenesis; pathogenicity genes; genetic improvement of yeasts; microarrays: techniques and applications; fungal germplasm and data bases. Although it is difficult to develop a comprehensive volume on fungal genomics because of the range and complexity of the emerging knowledge, an attempt has been made to bring together pertinent information that will serve the needs of the reader, provide a quick reference to material that might otherwise be difficult to locate, and furnish a starting point for further study.
With one volume each year, this series keeps scientists and advanced students informed of the latest developments and results in all areas of the plant sciences. The present volume includes reviews on genetics, cell biology, physiology, comparative morphology, systematics, ecology, and vegetation science.
This volume covers the high relevance of fungi for agriculture. It is a completely updated and revised second edition with fourteen excellent chapters by leading scientists in their fields and offers a comprehensive review of the latest achievements and developments. Topics include: Food and fodder; fungal secondary metabolites and detoxification; biology, disease control and management; symbiontic fungi and mycorrhiza; and phytopathogenicity.
From the time when humans first learned to harness fire, cultivate crops, and domesticate livestock, they have altered their environment as a means of survival. In the modern era, however, natural resources have been devoured and defiled in the wake of a consumerism that goes beyond mere subsistence. In this volume, an international group of environmental historians documents the significant ways in which humans have impacted their surroundings throughout history. John McNeill introduces the collection with an overarching account of the history of human environmental impact. Other contributors explore the use and abuse of the earth's land in the development of agriculture, commercial forestr...
In this volume the relevance of fungi for agriculture is discussed in four sections. The first one 'Food and Fodder Production' concerns the application and potential of mushrooms, straw enrichment, and food or crop spoilage. The next section 'Mycotoxins and Detoxification' deals with the biosynthesis of mycotoxins and the use of fungi in organopollutant degradation. A large section entitled 'Disease Control, Diagnostic, and Management' covers various aspects of biological control (fungi, insects, and weeds), diagnostics with emphasis on the example of Magnaporthe grisea, and disease management with focus on the important fungal pathogens Phoma, Fusarium, rusts and powdery mildew. The last section 'Update on Host-Parasite Interactions' discusses signal transduction, avirulence determinants, phytotoxins, cell wall degradation, and the coevolution of pathogenic fungi and grass hosts.
Fungi are an economic very important class of microbes. Not only do they host a range of versatile enzymes used in industrial applications (biofuels, laundry, food processing), as well do they produce several very important pharmaceutical drugs (statins and penicillins). Moreover, fungal pathogens can cause great damage in agricultural production (Phytophthora and Botrytis) and during mammalian infections (Penicillium marneffei and Candida). Transformation of DNA is used to understand the genetic basis behind these traits. Several different techniques have been developed over the years and readily shown to be decisive methods to improve fungal biotechnology. This book will cover the basics behind the most commonly used transformation methods, as well as associated tools and techniques. Each chapter will provide protocols along with examples to be used in laboratories worldwide.
With one volume each year, this series keeps scientists and advanced students informed of the latest developments and results in all areas of the plant sciences. The present volume includes reviews on genetics, cell biology, physiology, comparative morphology, systematics, ecology and vegetation science.