The formation, dispersal and germination of seeds are crucial stages in the life cycles of gymnosperm and angiosperm plants. The unique properties of seeds, particularly their tolerance to desiccation, their mobility, and their ability to schedule their germination to coincide with times when environmental conditions are favorable to their survival as seedlings, have no doubt contributed significantly to the success of seed-bearing plants. Humans are also dependent upon seeds, which constitute the majority of the world's staple foods (e.g., cereals and legumes). Seeds are an excellent system…mehr
The formation, dispersal and germination of seeds are crucial stages in the life cycles of gymnosperm and angiosperm plants. The unique properties of seeds, particularly their tolerance to desiccation, their mobility, and their ability to schedule their germination to coincide with times when environmental conditions are favorable to their survival as seedlings, have no doubt contributed significantly to the success of seed-bearing plants. Humans are also dependent upon seeds, which constitute the majority of the world's staple foods (e.g., cereals and legumes). Seeds are an excellent system for studying fundamental developmental processes in plant biology, as they develop from a single fertilized zygote into an embryo and endosperm, in association with the surrounding maternal tissues. As genetic and molecular approaches have become increasingly powerful tools for biological research, seeds have become an attractive system in which to study a wide array of metabolic processes and regulatory systems. Seed Development, Dormancy and Germination provides a comprehensive overview of seed biology from the point of view of the developmental and regulatory processes that are involved in the transition from a developing seed through dormancy and into germination and seedling growth. It examines the complexity of the environmental, physiological, molecular and genetic interactions that occur through the life cycle of seeds, along with the concepts and approaches used to analyze seed dormancy and germination behavior. It also identifies the current challenges and remaining questions for future research. The book is directed at plant developmental biologists, geneticists, plant breeders, seed biologists and graduate students.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Professor Kent Bradford, Director, Seed Biotechnology Center, University of California, Davis, USA. Dr Hiroyuki Nonogaki, Department of Horticulture, Oregon State University, Corvallis, Oregon, USA.
Inhaltsangabe
Chapter 1. Genetic Control of Seed Development and Seed Mass. Masa-aki Ohto1 Sandra L. Stone2 and John J. Harada2. 1Department of Plant Sciences College of Agricultural and Environmental Sciences and 2Section of Plant Biology College of Biological Sciences University of California One Shields Avenue Davis CA 95616 USA . Chapter 2. Seed Coat Development and Dormancy. Isabelle Debeaujon Loïc Lepiniec Lucille Pourcel and Jean-Marc Routaboul. Laboratoire de Biologie des Semences Unité Mixte de Recherche 204 Institut National de la Recherche Agronomique/Institut National Agronomique Paris-Grignon 78026 Versailles France. Chapter 3. Definitions and Hypotheses of Seed Dormancy. Henk W.M. Hilhorst. Laboratory of Plant Physiology Wageningen University Arboretumlaan 4 6703 BD Wageningen The Netherlands . Chapter 4. Modeling of Seed Dormancy. Phil S. Allen1 Roberto L. Benech-Arnold2 Diego Batlla2 and Kent J. Bradford3. 1Department of Plant & Animal Sciences Brigham Young University 275 WIDB Provo UT 84602-5253 USA; 2IFEVA-Cátedra de Cerealicultura Facultad de Agronomía Universidad de Buenos Aires/CONICET Av. San Martín 4453 1417 Buenos Aires Argentina; 3Seed Biotechnology Center University of California One Shields Avenue Davis CA 95616-8780 USA . Chapter 5. Genetic Aspects of Seed Dormancy. Leonie Bentsink1 Wim Soppe2 and Maarten Koornneef2 3. 1Department of Molecular Plant Physiology Utrecht University Padualaan 8 3584 CH Utrecht The Netherlands; 2 Max Planck Institute for Plant Breeding Research Carl-von-Linné-Weg 10 50829 Cologne Germany; and 3Laboratory of Genetics Wageningen University Arboretumlaan 4 6703 BD Wageningen The Netherlands. Chapter 6. Lipid Metabolism in Seed Dormancy. Steven Penfield Helen Pinfield-Wells and Ian A. Graham. Centre for Novel Agricultural Products Department of Biology University of York PO Box 373 York YO10 5YW UK. . Chapter 7. Nitric Oxide in in Seed Dormancy and Germination. Paul C. Bethke1 Igor G.L. Libourel2 and Russell L. Jones1. 1Department of Plant and Microbial Biology University of California Berkeley CA 94720-3102 USA and 2Department of Plant Biology Michigan State University East Lansing MI 48824 USA. Chapter 8. A Merging of Paths: Abscisic Acid and Hormonal Cross-talk in the Control of Seed Dormancy Maintenance and Alleviation. J. Allan Feurtado and Allison R. Kermode. Department of Biological Sciences Simon Fraser University Burnaby BC Canada V5A 1S6. Chapter 9. Regulation of ABA and GA Levels during Seed Development and Germination in Arabidopsis. Shinjiro Yamaguchi Yuji Kamiya and Eiji Nambara. Plant Science Center RIKEN Growth Physiology Group Laboratory for Cellular Growth & Development 1-7-22 Suehirocho Tsurumi-ku Yokohama 230-0045 Japan. Chapter 10. De-repression of Seed Germination by GA Signaling. Camille M. Steber. U.S. Department of Agriculture-Agricultural Research Service and Department of Crop and Soil Science and Graduate Program in Molecular Plant Sciences Washington State University Pullman WA 99164-6420 USA. Chapter 11. Mechanisms and Genes Involved in Germination Sensu Stricto. Hiroyuki Nonogaki1 Feng Chen2 and Kent J. Bradford3. 1Department of Horticulture Oregon State University Corvallis OR 97331 USA; 2Department of Plant Sciences University of Tennessee Knoxville TN 37996-4561 USA; 3Seed Biotechnology Center University of California One Shields Avenue Davis CA 95616-8780 USA. Chapter 12. Sugar and Abscisic Acid Regulation of Germination and Transition to Seedling Growth. Bas J.W. Dekkers and Sjef C.M. Smeekens. Department of Molecular Plant Physiology University of Utrecht Padualaan 8 3584 CH Utrecht The Netherlands.
Chapter 1. Genetic Control of Seed Development and Seed Mass. Masa-aki Ohto1 Sandra L. Stone2 and John J. Harada2. 1Department of Plant Sciences College of Agricultural and Environmental Sciences and 2Section of Plant Biology College of Biological Sciences University of California One Shields Avenue Davis CA 95616 USA . Chapter 2. Seed Coat Development and Dormancy. Isabelle Debeaujon Loïc Lepiniec Lucille Pourcel and Jean-Marc Routaboul. Laboratoire de Biologie des Semences Unité Mixte de Recherche 204 Institut National de la Recherche Agronomique/Institut National Agronomique Paris-Grignon 78026 Versailles France. Chapter 3. Definitions and Hypotheses of Seed Dormancy. Henk W.M. Hilhorst. Laboratory of Plant Physiology Wageningen University Arboretumlaan 4 6703 BD Wageningen The Netherlands . Chapter 4. Modeling of Seed Dormancy. Phil S. Allen1 Roberto L. Benech-Arnold2 Diego Batlla2 and Kent J. Bradford3. 1Department of Plant & Animal Sciences Brigham Young University 275 WIDB Provo UT 84602-5253 USA; 2IFEVA-Cátedra de Cerealicultura Facultad de Agronomía Universidad de Buenos Aires/CONICET Av. San Martín 4453 1417 Buenos Aires Argentina; 3Seed Biotechnology Center University of California One Shields Avenue Davis CA 95616-8780 USA . Chapter 5. Genetic Aspects of Seed Dormancy. Leonie Bentsink1 Wim Soppe2 and Maarten Koornneef2 3. 1Department of Molecular Plant Physiology Utrecht University Padualaan 8 3584 CH Utrecht The Netherlands; 2 Max Planck Institute for Plant Breeding Research Carl-von-Linné-Weg 10 50829 Cologne Germany; and 3Laboratory of Genetics Wageningen University Arboretumlaan 4 6703 BD Wageningen The Netherlands. Chapter 6. Lipid Metabolism in Seed Dormancy. Steven Penfield Helen Pinfield-Wells and Ian A. Graham. Centre for Novel Agricultural Products Department of Biology University of York PO Box 373 York YO10 5YW UK. . Chapter 7. Nitric Oxide in in Seed Dormancy and Germination. Paul C. Bethke1 Igor G.L. Libourel2 and Russell L. Jones1. 1Department of Plant and Microbial Biology University of California Berkeley CA 94720-3102 USA and 2Department of Plant Biology Michigan State University East Lansing MI 48824 USA. Chapter 8. A Merging of Paths: Abscisic Acid and Hormonal Cross-talk in the Control of Seed Dormancy Maintenance and Alleviation. J. Allan Feurtado and Allison R. Kermode. Department of Biological Sciences Simon Fraser University Burnaby BC Canada V5A 1S6. Chapter 9. Regulation of ABA and GA Levels during Seed Development and Germination in Arabidopsis. Shinjiro Yamaguchi Yuji Kamiya and Eiji Nambara. Plant Science Center RIKEN Growth Physiology Group Laboratory for Cellular Growth & Development 1-7-22 Suehirocho Tsurumi-ku Yokohama 230-0045 Japan. Chapter 10. De-repression of Seed Germination by GA Signaling. Camille M. Steber. U.S. Department of Agriculture-Agricultural Research Service and Department of Crop and Soil Science and Graduate Program in Molecular Plant Sciences Washington State University Pullman WA 99164-6420 USA. Chapter 11. Mechanisms and Genes Involved in Germination Sensu Stricto. Hiroyuki Nonogaki1 Feng Chen2 and Kent J. Bradford3. 1Department of Horticulture Oregon State University Corvallis OR 97331 USA; 2Department of Plant Sciences University of Tennessee Knoxville TN 37996-4561 USA; 3Seed Biotechnology Center University of California One Shields Avenue Davis CA 95616-8780 USA. Chapter 12. Sugar and Abscisic Acid Regulation of Germination and Transition to Seedling Growth. Bas J.W. Dekkers and Sjef C.M. Smeekens. Department of Molecular Plant Physiology University of Utrecht Padualaan 8 3584 CH Utrecht The Netherlands.
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