HOME :: CHAPTER 23
Chapter 23: Abscisic Acid: A Seed Maturation and Stress-Response Hormone
Topics
- Topic 23.1, The Structure Of Lunularic Acid from Liverworts
- Topic 23.2, ABA May Be an Ancient Stress Signal
- Topic 23.3, Structural Requirements for Biological Activity of Abscisic Acid
- Topic 23.4, The Bioassay of ABA
- Topic 23.5, Evidence for Both Extracellular and Intracellular ABA Receptors
- Topic 23.6, The Existence of G Protein-Coupled ABA Receptors Is Still Unresolved
- Topic 23.7, The Yeast Two-Hybrid System
- Topic 23.8, Yellow Cameleon: A Noninvasive Tool for Measuring Intracellular Calcium
- Topic 23.9, Phosphatidic Acid May Stimulate Sphingosine-1-Phosphate Production
- Topic 23.10, The ABA Signal Transduction Pathway Includes Several Protein Kinases
- Topic 23.11, The ERA1 and ABH Genes Code for Negative Regulators of the The ABA Response
- Topic 23.12, Promoter Elements That Regulate ABA Induction of Gene Expression
- Topic 23.13, Regulatory Proteins Implicated in ABA-Stimulated Gene Transcription
- Topic 23.14, ABA Gene Expression Can Also Be Regulated by mRNA Processing and Stability
- Topic 23.15, ABA May Play a Role in Plant Pathogen Responses
- Topic 23.16, Proteins Required for Desiccation Tolerance
- Topic 23.17, The Types of Coat-Imposed Seed Dormancy
- Topic 23.18, Types of Seed Dormancy and the Roles of Environmental Factors
- Topic 23.19, The Longevity of Seeds
- Topic 23.20, Genetic Mapping Of Dormancy: Quantitative Trait Locus (QTL) Scoring of Vegetative Dormancy Combined with a Candidate Gene Approach
- Topic 23.21, ABA-Induced Senescence and Ethylene
- Topic 23.22, Chapter Twenty-Three References
Essays
- Essay 23.1, Heterophylly in Aquatic Plants - Bai-Ling Lin (August 2002)
- Essay 23.2, Hope for Humpty Dumpty: Systems Biology of Cellular Signaling - Sally Assmann, Biology Department, Pennsylvania State University, University Park, Pennsylvania, USA (August 2010)