Plant Receptors in Cellular Signaling provides a comprehensive account of how plants perceive and respond to internal and external cues through receptor-mediated pathways. The volume integrates structural, functional, and mechanistic perspectives to examine the diverse spectrum of plant receptors-including phytohormone receptors, growth regulator receptors, receptor-like kinases, and multiprotein complexes-that orchestrate growth, development, and survival under changing conditions.
The book explains receptor functions in auxin, gibberellin, cytokinin, abscisic acid, ethylene, jasmonate, salicylic acid, brassinosteroid, strigolactone, and karrikin signaling, while also addressing membranebound and cytoplasmic kinases, glutamate-like receptors, and other critical signaling components. By linking structural biology with functional outcomes, it shows how protein conformation and ligand recognition determine specificity and regulatory control.
Emphasizing the interplay and crosstalk among receptor-mediated pathways, the text demonstrates how plants translate complex signals into precise cellular responses that regulate gene expression, coordinate development, and enable adaptation to biotic and abiotic stresses.
Rich in mechanistic detail and conceptual breadth, Plant Receptors in Cellular Signaling is an essential reference for researchers and academics in plant biology, molecular signaling, stress physiology, and related fields seeking to understand how plants transform signals into adaptive strategies.
Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.
Table of Contents
1. Introduction to the molecular basis and analysis of ligand-receptor interactions2. Cell signaling mediated by plasma membrane-bound receptors in plants
3. Histidine kinase receptors and two-component signaling in driving developmental and environmental stress responses in plants
4. Auxin receptors: Pivotal regulators of plant development
5. Gibberellin receptors regulating cell signaling in plants
6. Signal transduction pathways mediated by membrane-bound and endoplasmic reticulum-localized cytokinin receptors
7. Membrane-bound and endoplasmic reticulum-mediated cytokinin signaling: An update on abiotic stress responses
8. Regulations and functions of multiple ethylene receptors in plant development and stress response
9. Structure and function of diverse abscisic acid receptors and coreceptors in modulating developmental and stress responses
10. Jasmonic acid receptors: Gatekeepers of plant defense and development
11. Receptor dynamics of salicylic acid and jasmonic acid in plant signal transduction
12. Brassinosteroid receptors as multidimensional regulators in brassinosteroid perception, plant growth, and stress adaptation
13. The dual role of karrikin and strigolactone receptors in plant growth
14. Glutamate receptors in plants: Roles in cell signaling, growth, and differentiation
15. CLAVATA signaling pathway receptors and co-receptor complexes in plant development and immunity
16. Regulation and role of somatic embryogenesis receptor kinase (SERK) families in plant development and defense responses
17. Decoding receptor-like protein kinases: Insights into embryogenesis and floral morphogenesis
18. Plant photoreceptors as sensory proteins in driving cell signaling network
19. Regulation of receptors and receptor-like kinases in nitrogen fixation by plants
20. Calcium-sensing receptors and signaling cascades in plants
21. Decoding abiotic stress in plants: Signal reception and transduction pathways
22. Pattern recognition receptors and cell signaling in plant immunity against microbial pathogens
23. Leucine-rich repeat receptor kinase in mediating signaling and defense responses in plants
24. Receptor-mediated endocytosis and autophagy in plants
25. Crosstalk among plant receptors and diverse signaling pathways in development and stress tolerance
26. Mechanoperception and mechanoreceptors in plant systems
