Plant Proteomics
Implications in Growth, Quality Improvement, and Stress Resilience
Format:Hardback
Publisher:Taylor & Francis Ltd
Published:3rd Jun '24
£175.00
Supplier delay - available to order, but may take longer than usual.
This hardback is available in another edition too:
- Paperback£43.99(9781032395920)
There have been several advancements made in high-throughput protein technologies creating immense possibilities for studying proteomics on a large scale. Researchers are exploring various proteomic techniques to unravel the mystery of plant stress tolerance mechanisms. Plant Proteomics: Implications in Growth, Quality Improvement, and Stress Resilience introduces readers to techniques and methodologies of proteomics and explains different physiological phenomena in plants and their responses to various environmental cues and defense mechanisms against pathogens. The main emphasis is on research involving applications of proteomics to understand different aspects of the life cycle of plant species including dormancy, flowering, photosynthetic efficiency, nitrogen assimilation, accumulation of nutritional parameters, secondary metabolite production, reproduction and grain yield as well as signalling responses during abiotic and biotic stresses. The book takes a unique approach, encompassing high throughput and sophisticated proteomic techniques while integrating proteomics with other “omics.”
Features:
- Integrates the branch of proteomics with other “omics” approaches including genomics and metabolomics, giving a holistic view of the overall “omics” approaches
- Covers various proteomics approaches for the identification of biological processes, future perspectives, and upcoming applications to identify diverse genes in plants
- Presents readers with various proteomics tools for the improvement of plant growth, quality, and resilience against climate change, and pathogen infection
- Enables researchers in identifying novel proteins that could be used as target to generate plants with improved traits <
ISBN: 9781032395852
Dimensions: unknown
Weight: 453g
296 pages