Plant Pathogenesis and Resistance: Biochemistry and Physiology of Plant-Microbe Interactions by Jeng-Sheng HuangPlant Pathogenesis and Resistance: Biochemistry and Physiology of Plant-Microbe Interactions by Jeng-Sheng Huang

Plant Pathogenesis and Resistance: Biochemistry and Physiology of Plant-Microbe Interactions

byJeng-Sheng Huang

Paperback | December 1, 2010

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Each plant-pathogen interaction involves a two-way molecular communication. On one hand, the pathogen perceives signals from the plant, secretes chemical arsenals to establish infection courts, and produces metabolites that disrupt structural integrity, alter cellular function, and circumvent host defenses. On the other hand, the plant senses the signals from the pathogen, reinforces its cell walls, and accumulates phytoalexins and pathogenesis-related proteins in an attempt to defend itself. The production of pathogenicity and virulence factors by the pathogen, the elicitation of defense mechanisms by the plant, and the dynamic interaction of the two are the focal points of this book. The book will be of interest to researchers and advanced undergraduate and graduate students in the areas of plant pathology, plant physiology, and plant biochemistry.
Title:Plant Pathogenesis and Resistance: Biochemistry and Physiology of Plant-Microbe InteractionsFormat:PaperbackDimensions:704 pagesPublished:December 1, 2010Publisher:Springer NetherlandsLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:9048157501

ISBN - 13:9789048157501

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Table of Contents

Preface. Abbreviations. Section I: Infection Processes. 1. Penetration of Cuticles by Plant Pathogens. Section II: Plant Pathogenesis. 2. Degradation of Cell Walls by Plant Pathogens. 3. Bioenergetics in Plant-pathogen Interactions. 4. Rhizobium-Legume Symbiosis and the Effects of Diseases on Nodulation and Nitrogen Fixation. 5. Growth Regulators and Plant Tumorigenesis. 6. Phytotoxins and Plant Pathogenesis. Section III: Signal Transduction. 7. Signal Transduction in Plant-Microbe Interactions. 8. Fortification of Plant Cell Walls as a Resistance Mechanism. Section IV: Dynamics of Plant Defense. 9. Accumulation of Phytoalexins as a Resistance Mechanism. 10. Pathogenesis-related Proteins and Disease Resistance. Index.