CRISPRized Horticultural Crops: Genome Modified Plants and Microbes in Food and Agriculture summarizes applications of CRISPR/Cas systems and its advanced variants e.g., CRISPR/Cpf1, base editing and prime editing, for precise editing of horticultural crops. The book discusses vector transformations methods, epi-genome, deep learning, synthetic biology, and precision breeding for improving yield and quality related attributes in horticultural crops. With coverage of the relevant technologies and their applications, the book also includes bioinformatics and large-scale databases and their potential application in fruits, vegetables and ornamental plants and sections on regulatory concerns related to CRISPR edited crops.
Horticultural crops, including fruit, vegetable and ornamental plants are an important component of agriculture production systems and play an important role in sustaining human life.
- Reviews CRISPR for editing horticultural crops
- Discusses vector transformation methods, epigenome, deep learning, synthetic biology and precision breeding
- Includes bioinformatics and large-scale databases
- Contributes engineering approaches for crop improvement programs
Sprache
Verlagsort
Verlagsgruppe
Elsevier Science & Techn.
Dateigröße
ISBN-13
978-0-443-13230-8 (9780443132308)
Schweitzer Klassifikation
Part 1: The CRISPR/Cas toolkit for Horticultural Crops1. Horticultural Crops: Genomic Approaches: A note from Editors2. Evolution of genome editing technologies3. CRISPR / Cas: Effectors, mechanism, and classification4. Bioinformatics tools and databases in genome editing for plants5. Genome editing reagents and their delivery tools6. CRISPR Techniques and their applications in plants7. Base editing and Prime Editing in Horticulture Crops: Potential Applications, Challenges and Prospects8. Multiplex Genome Editing in plants through CRISPR/Cas9. CRISPR Edited Crops: The Future of Food and environment Sustainability
Part 2: CRISPR Mediated Genome Editing in Horticultural Crops10. The CRISPRized Horticultural Crops: How they can transform our food supply11. Precision breeding techniques for horticultural crops12. Deep learning for genomics and epi-genomics in horticulture crops improvement13. Transformation methods in horticulture crops and DNA free genome editing in plants14. CRISPR vegetables: Challenges and opportunities15. CRISPR-Cas9-mediated genome editing in tomato, and Potato16. A CRISPR/Cas Based Improvement of Root and Tuber crops17. Improvement of ornamental¿plants through CRISPR/Cas18. CRISPR approaches for synthetic biology and metabolic engineering in vegetables and fruits19. CRISPR Cas systems for the improvement of Solanaceous vegetable crops20. Engineering biotic stress resistance in horticultural plants through CRISPR/Cas21. Genome editing for abiotic stress resistance in horticultural crops22. CRISPR/Cas technology for enhancement Genetic Amelioration of Fruits in horticulture crops23. CRISPR-Cas9-mediated genome editing in Banana, apple and grapevine24. CRISPR Applications in Medicinal plants25. CRISPR Edited Floriculture Crops: A Revolutionary Technique to Improve Flower Production, their Color and Longevity26. CRISPR based improvement of Grasses in horticulture27. CRISPR genome editing of woody trees: current status and future Trends
Part 3: Regulation and Commercialization of CRISPR edited crops28. Regulatory, ethical, social, and biosafety concerns in genome edited horticultural crops29. Social, Ethical and Policy issues in CRISPR Edited Crops30. Commercialization of CRISPR edited crops: Opportunities and Challenges31. Global Patent Landscape in CRISPR/Cas
