The Chemical Dialogue Between Plants and Beneficial Microorganisms
- 365 pages
- English
- ePUB (mobile friendly)
- Only available on web
The Chemical Dialogue Between Plants and Beneficial Microorganisms
About This Book
The Chemical Dialogue Between Plants and Beneficial Microorganisms provides foundational insights on plant beneficial microorganisms and their impact on the health and productivity of plants. Providing in-depth and recent updates about unexplored aspects of plant microbes interactions, the book includes the biological repertoire of arbuscular mycorrhizal association, molecular architecture of Rhizobium-plant symbiosis, and endophytes in transcriptional plasticity during host colonization by endophytes. The book also includes details about the mechanism of different plant beneficial microorganisms, how these differ, and their cross signaling. This book will be an important reference for researchers working on different plant beneficial microorganisms and their molecular arsenal.
- Includes coverage of oxylipins?and sterols in inducing systemic responses
- Explores the role of microbes in transcriptional plasticity of host plants
- Highlights the biology of vegetative cells, N2-fixing vesicles, and microbial volatiles in plant growth
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Table of contents
- Cover image
- Title page
- Table of Contents
- Copyright
- Contributors
- Chapter 1. Trichoderma-derived elicitor-like molecules and their role in plant immunity
- Chapter 2. Microbial volatiles-mediated plant growth promotion and stress management in plants
- Chapter 3. Bacterial cyclodipeptides in triggers plant immunity potential
- Chapter 4. Plantâmicrobe interaction in alleviating drought stress
- Chapter 5. Molecular genetics of arbuscular mycorrhizal symbiosis
- Chapter 6. The chemical dialogue between plants and beneficial arbuscular fungi in disease resistance
- Chapter 7. Signaling in mycorrhizal symbioses
- Chapter 8. Signaling in arbuscular mycorrhizal association
- Chapter 9. The molecular architecture of rhizobiumâplant symbiosis in nitrogen fixation
- Chapter 10. Nitrogen fixation in nonlegume plants and genomics of nitrogen-fixing nonrhizobium symbioses
- Chapter 11. The genus Trichoderma as biocontrol agent of plant pathogens
- Chapter 12. Insight of plantâendophytes interactions
- Chapter 13. The role of Trichoderma fungi in inducing defense mechanisms in plants
- Chapter 14. Histone acetyltransferases and histone deacetylases of trichoderma: their role in plant microbe interactions
- Chapter 15. Microbial secondary metabolites in plant health
- Chapter 16. Rhizoctonia spp.: as beneficial and mycorrhizal fungi
- Chapter 17. Microbial volatile compounds in plant health
- Chapter 18. Metabolic and genomic traits of PGPR in salinity stress
- Chapter 19. Insights into the mechanisms of plant growth promotion by halotolerant rhizobacteria in saline-stressed plants
- Chapter 20. Biology of nitrogen fixation in Frankia
- Chapter 21. Role of root-associated fungal microbiota and its contribution to plant phosphorus nutrition
- Chapter 22. Role of phytohormones in modulating plant microbe interaction
- Chapter 23. Plant beneficial microbes and their role in planthealth
- Index