Applied Plant Biotechnology for Improving Resistance to Biotic Stress
Editat de Palmiro Poltronieri, Yiguo Hongen Limba Engleză Paperback – 17 sep 2019
- Applies biotechnology insights towards improving plant genomes, achieving higher resistance and optimizing hormone signaling to increase crop yield
- Presents the most modern techniques, investigations, diagnostic tools and assays to monitor and detect contaminating agents in crops, such as grape, tomato, coffee and stone fruit
- Provides encyclopedic coverage of genes, proteins, interaction networks and mechanisms by which plants and hosts seek survival
- Discusses the methods available to make crops resistant and tolerant to disease without decreased yield or food production
- Provides insights for policymakers into the difficulties faced by scientific researchers in the use of biotechnology intervention, transgenes and genetically modified sequences
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Specificații
ISBN-13: 9780128160305
ISBN-10: 0128160306
Pagini: 371
Dimensiuni: 191 x 235 mm
Greutate: 0.64 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128160306
Pagini: 371
Dimensiuni: 191 x 235 mm
Greutate: 0.64 kg
Editura: ELSEVIER SCIENCE
Public țintă
Postgraduate and graduate researchers in molecular biology, genetics, molecular breeding, systems biology, agriculture, crops for human foods, biological sciences, plant science, biotechnology, plant physiology and genetics, plant functional genomics, sustainable growth and economy, agrochemical and biological applications for crop protection; Private companies, spin-offs etc. in plant production; Policymakers, stakeholders, associations of plant growers (e.g. European Plant Science Organization).Cuprins
1. Engineering Plant Leucine Rich Repeat- Receptors for Enhanced Pattern Triggered Immunity (PTI) and Effector Triggered Immunity (ETI) 2.Virus Induced Gene Silencing for Functional Genomics in Plants
3. Bringing PTI into the Field 4. NBS-LRR Genes -- Plant Health Sentinels: Structure, Roles Evolution and Biotechnological Applications 5. Informatic Tools and Platforms for Enhancing Plant R-Gene Discovery Processes 6. Spatial Transcriptional Response of Plants Induced by Compatible Pathogens and its Potential Use in Biosensor Plants 7. Grapevine; Resistance Genes, sRNAs and Immunity 8. Using Genomics Tools to Understand Plant Resistance Against Pathogens: A Case Study of Magnaporthe-Rice Interactions 9. Microbial Products and Secondary Metabolites in Plant Health 10. Molecular Tools to Investigate Sharka Disease in Prunus Species 11. Plant Viruses Against RNA Silencing-Based Defenses: Strategies and Solutions 12. Criniviruses Infecting Vegetable Crops 13. Role of Methylation During Geminivirus Infection 14. Foresight on Nanovesicles in Plant-Pathogen Interactions 15. The Role of Phytohormones in Plant-Viroid Interactions
3. Bringing PTI into the Field 4. NBS-LRR Genes -- Plant Health Sentinels: Structure, Roles Evolution and Biotechnological Applications 5. Informatic Tools and Platforms for Enhancing Plant R-Gene Discovery Processes 6. Spatial Transcriptional Response of Plants Induced by Compatible Pathogens and its Potential Use in Biosensor Plants 7. Grapevine; Resistance Genes, sRNAs and Immunity 8. Using Genomics Tools to Understand Plant Resistance Against Pathogens: A Case Study of Magnaporthe-Rice Interactions 9. Microbial Products and Secondary Metabolites in Plant Health 10. Molecular Tools to Investigate Sharka Disease in Prunus Species 11. Plant Viruses Against RNA Silencing-Based Defenses: Strategies and Solutions 12. Criniviruses Infecting Vegetable Crops 13. Role of Methylation During Geminivirus Infection 14. Foresight on Nanovesicles in Plant-Pathogen Interactions 15. The Role of Phytohormones in Plant-Viroid Interactions