Amsterdam, : Boston, : Elsevier Academic Press, c2004

1-281-00554-1

9786611005542

0-08-049208-8

1 online resource (419 p.)

NoodénLarry D

571.9/36

Plant physiology

Cell death

Inglese

Includes bibliographical references and index.

Front Cover; Plant Cell Death Processes; Copyright Page; Contents; Contributors; Foreword-Aging and Death; Preface; Chapter 1. Introduction; I. What this Book Covers; II. The Processes-Senescence, Aging, Programmed Cell Death, Apoptosis, etc.-Evolving Concepts; III. Apoptosis in Animals; IV. Apoptosis in Plants; V. The Senescence Syndrome; VI. Hormonal Controls; VII. Evolution; References; Chapter 2. Plant Cell Death and Cell Differentiation; I. Introduction; II. The Scope of PCD in Plants; III. Prereproductive Cell Death; IV. Reproductive Cell Death; V. Conclusions; References

Chapter 3. Cell Death in Plant Disease: Mechanisms and Molecular Markers I. Introduction; II. Role of Cell Death during Plant-Pathogen Interactions; III. Structural and Biochemical Changes Accompanying Cell Death during Plant Disease; IV. Definition of Steps Involved in the Signaling Process of Cell Death Induction during Plant-Pathogen Interactions; V. Molecular Components for Cell Death Control during Plant-Pathogen Interactions; VI. Global Analyses of Markers for Cell Death Induction by Plant Pathogens; References; Chapter 4. Changes in Gene Expression during Senescence; I. Introduction

II. Changes in Patterns of Nucleic Acids and Proteins during Senescence III. Similarities between Senescing and Ripening Tissues; IV. Identification and Classification of Senescence-related Genes; V.

Senescence-related Genes; VI. Function of SR Genes in Senescence; VII. Summary; References; Chapter 5. Genes that Alter Senescence; I. Introduction; II. Senescence as a Genetically Programmed Process; III. Genes Involved in Execution of Senescence; IV. Genes Affecting Senescence through Action on the Hormonal Controls; V. Genes that Alter Senescence in Response to Environmental Factors

VI. Genes Controlling Vegetative Growth (Regeneration) and Monocarpic Senescence VII. Regulatory Genes and Intracellular Signaling; VIII. Conclusions; References; Chapter 6. Senescence and Genetic Engineering; I. Introduction; II. The Relationship of Cytokinins and Senescence; III. The Relationship of Ethylene and Senescence; IV. Concluding Remarks; References; Chapter 7. Proteolysis; I. Introduction; II. Selective Hydrolysis of Peptide Bonds; III. Proteolytic Activities in Plants; IV. Proteolysis in Relation to Cell Death; V. Regulation of Protein Catabolism; VI. Conclusions; References

Chapter 8. Ethylene Signaling in Plant Cell Death I. Introduction; II. Ethylene Biosynthesis Pathways; III. Temporal and Spatial Regulation of Ethylene Biosynthesis; IV. Ethylene Signal Transduction Pathway; V. Ethylene Cross Talk with Other Plant Hormones; VI. Protease Involvement and Ethylene Biosynthesis in PCD; VII. Hormonal Regulation of Plant PCD; VIII. Perspective; References; Chapter 9. Jasmonates - Biosynthesis and Role in Stress Responses and Developmental Processes; I. Introduction; II. Jasmonates and Related Compounds

III. LOX-derived Compounds and the Biosynthesis of Octadecanoids and Jasmonates

Programmed cell death is a common pattern of growth and development in both animals and plants. However, programmed cell death and related processes are not as generally recognized as central to plant growth. This is changing fast and is becoming more of a focus of intensive research. This edited work will bring under one cover recent reviews of programmed cell death, apoptosis and senescence.Summaries of the myriad aspects of cell death in plants Discussion of the broadest implications of these disparate results A unification of fields where there has been no cross talk