Mechanisms of resistance to plant viruses are diverse, and probably involve different types of recognition events. Often, a cascade of changes affecting broader aspects of defence and metabolism is switched on progressively after the initial recognition event. Virulence, i.e. resistence-breaking behaviour of the virus, involves a failure or alteration of recognition or subsequent signalling. Consequences of these recognition events are the ways in which the pathogenic effects on the host are exerted: formation of visible symptoms and control of plant growth. This volume offers a comprehensive coverage of the recognition and signalling events between plants and viruses whereby the particular attraction of viruses (and viroids) is that they can now be completely defined in molecular terms: they offer excellent opportunities for studying the molecular biology of signalling, and may even provide useful guidelines on how plants and cellular pathogens interact.

The book offers an integrated overview of plant–pathogen interactions. It discusses all the steps in the pathway, from the microbe–host-cell interface and the plant’s recognition of the microbe to the plant’s defense response and biochemical alterations to achieve tolerance / resistance. It also sheds light on the classes of pathogens (bacteria, fungus and viruses); effector molecules, such as PAMPs; receptor molecules like PRRs and NBS-LRR proteins; signaling components like MAPKs; regulatory molecules, such as phytohormones and miRNA; transcription factors, such as WRKY; defense-related proteins such as PR-proteins; and defensive metabolites like secondary metabolites. In addition, it examines the role of post-genomics, high-throughput technology (transcriptomics and proteomics) in studying pathogen outbreaks causing crop losses in a number of plants. Providing a comprehensive picture of plant-pathogen interaction, the updated information included in this book is valuable for all those involved in crop improvement.

Compatible host-pathogen interactions; Host-parasite incompatibility; New directions in development of plants resistance to disease.

Annual Plant Reviews, Volume 34 Molecular Aspects of Plant Disease Resistance Edited by Jane Parker In recent years, our understanding of the mechanisms involved in plant resistance to disease has seen major advances. This important new volume in Wiley-Blackwell’s Annual Plant Reviews provides cutting edge reviews on major aspects of plant immunity from many of the world's leading researchers in the area. Coverage includes: • Establishment of disease by microbial pathogens • Genomic approaches to understanding host-pathogen interactions • Local and systemic resistance signalling • Activities of small bioactive molecules • Plant-insect ecology This exciting volume is essential reading for all those studying plant-pathogen interactions including plant and agricultural scientists, molecular biologists, geneticists and microbiologists. Libraries in all universities and research establishments where biological and agricultural sciences are studied and taught should have copies of this important volume on their shelves. About the Editor Dr Jane Parker is a Group Leader in the Department of Plant-Microbe Interactions at The Max-Planck Institute of Plant Breeding Research, Cologne and Associate Professor at The Institute of Genetics, University of Cologne, Germany. Also Available Annual Plant Reviews, Volume 33 Intracellular Signaling in Plants Edited by Zhenbiao Yang Print: 9781405160025 Annual Plant Reviews, Volume 32 Cell Cycle Control and Plant Development Edited by Dirk Inzé Print: 9781405150439 Online: 9780470988923 Annual Plant Reviews, Volume 31 Plant Mitochondria Edited by David Logan Print: 9781405149396 Online: 9780470986592 Annual Plant Reviews, Volume 30 Light and Plant Development Edited by Garry C. Whitelam and Karen J. Halliday Print: 9781405145381 Online: 9780470988893

Concern about the environmental consequences of the widespread use of pesticides has increased, and evidence of pesticide-resistant virus vectors have continued to emerge. This volume presents a timely survey of the mechanisms of plant resistance and examines current developments in breeding for resistance, with particular emphasis on advances in genetic engineering which allow for the incorporation of viral genetic material into plants. Discusses the mechanisms of innate resistance in strains of tobacco, tomato, and cowpea; various aspects of induced resistance, including the characterization and roles of the pathogenesis-related proteins; antiviral substances and their comparison with interferon; and cross-protection between plant virus strains. Also presents several papers which evaluate the status of genetic engineering as it relates to breeding resistant plants. Among these are discussions of the potential use of plant viruses as gene vectors, gene coding for viral coat protein, satellite RNA, and antisense RNA, and practical issues such as the durability of resistant crop plants in the field.