APPLIED PLANT BIOTECHNOLOGY FOR IMPROVING RESISTANCE TO BIOTIC STRESS /
Applied Plant Biotechnology for Improvement of Resistance to Biotic Stress applies biotechnology insights that seek to improve plant genomes, thus helping them achieve higher resistance and optimal hormone signaling to increase crop yield. The book provides an analysis of the current state-of-the-ar...
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| Format: | text |
| Language: | eng |
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London, United Kingdom ; San Diego, CA, United States : Academic Press,
2020
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| _version_ | 1796762645528838144 |
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| author | Poltronieri, Palmiro, editor 564239 Hong, Yiguo, editor 636560 |
| author_facet | Poltronieri, Palmiro, editor 564239 Hong, Yiguo, editor 636560 |
| author_sort | Poltronieri, Palmiro, editor 564239 |
| collection | OCEAN |
| description | Applied Plant Biotechnology for Improvement of Resistance to Biotic Stress applies biotechnology insights that seek to improve plant genomes, thus helping them achieve higher resistance and optimal hormone signaling to increase crop yield. The book provides an analysis of the current state-of-the-art in plant biotechnology as applied to improving resistance to biotic stress. In recent years, significant progress has been made towards understanding the interplay between plants and their hosts, particularly the role of plant immunity in regulating, attenuating or neutralizing invading pathogens. As a result, there is a great need to integrate these insights with methods from biotechnology |
| first_indexed | 2024-03-05T16:43:54Z |
| format | text |
| id | KOHA-OAI-TEST:592795 |
| institution | Universiti Teknologi Malaysia - OCEAN |
| language | eng |
| last_indexed | 2024-03-05T16:43:54Z |
| publishDate | 2020 |
| publisher | London, United Kingdom ; San Diego, CA, United States : Academic Press, |
| record_format | dspace |
| spelling | KOHA-OAI-TEST:5927952021-11-10T04:17:30ZAPPLIED PLANT BIOTECHNOLOGY FOR IMPROVING RESISTANCE TO BIOTIC STRESS / Poltronieri, Palmiro, editor 564239 Hong, Yiguo, editor 636560 textLondon, United Kingdom ; San Diego, CA, United States : Academic Press,2020©2020engApplied Plant Biotechnology for Improvement of Resistance to Biotic Stress applies biotechnology insights that seek to improve plant genomes, thus helping them achieve higher resistance and optimal hormone signaling to increase crop yield. The book provides an analysis of the current state-of-the-art in plant biotechnology as applied to improving resistance to biotic stress. In recent years, significant progress has been made towards understanding the interplay between plants and their hosts, particularly the role of plant immunity in regulating, attenuating or neutralizing invading pathogens. As a result, there is a great need to integrate these insights with methods from biotechnologyIncludes bibliographical references and index1. 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.Applied Plant Biotechnology for Improvement of Resistance to Biotic Stress applies biotechnology insights that seek to improve plant genomes, thus helping them achieve higher resistance and optimal hormone signaling to increase crop yield. The book provides an analysis of the current state-of-the-art in plant biotechnology as applied to improving resistance to biotic stress. In recent years, significant progress has been made towards understanding the interplay between plants and their hosts, particularly the role of plant immunity in regulating, attenuating or neutralizing invading pathogens. As a result, there is a great need to integrate these insights with methods from biotechnologyPlant biotechnologyPlantsPlant ecologyURN:ISBN:9780128160305 |
| spellingShingle | Plant biotechnology Plants Plant ecology Poltronieri, Palmiro, editor 564239 Hong, Yiguo, editor 636560 APPLIED PLANT BIOTECHNOLOGY FOR IMPROVING RESISTANCE TO BIOTIC STRESS / |
| title | APPLIED PLANT BIOTECHNOLOGY FOR IMPROVING RESISTANCE TO BIOTIC STRESS / |
| title_full | APPLIED PLANT BIOTECHNOLOGY FOR IMPROVING RESISTANCE TO BIOTIC STRESS / |
| title_fullStr | APPLIED PLANT BIOTECHNOLOGY FOR IMPROVING RESISTANCE TO BIOTIC STRESS / |
| title_full_unstemmed | APPLIED PLANT BIOTECHNOLOGY FOR IMPROVING RESISTANCE TO BIOTIC STRESS / |
| title_short | APPLIED PLANT BIOTECHNOLOGY FOR IMPROVING RESISTANCE TO BIOTIC STRESS / |
| title_sort | applied plant biotechnology for improving resistance to biotic stress |
| topic | Plant biotechnology Plants Plant ecology |
| work_keys_str_mv | AT poltronieripalmiroeditor564239 appliedplantbiotechnologyforimprovingresistancetobioticstress AT hongyiguoeditor636560 appliedplantbiotechnologyforimprovingresistancetobioticstress |