Global Regulatory Outlook for CRISPRized Plants Genome Modified Plants and Microbes in Food and Agriculture Series
Coordonnateurs : A Abd-Elsalam Kamel, Ahmad Aftab
Global Regulatory Outlook of CRISPRized Plants summarizes CRISPR/Cas systems and applications for precise editing of plant genomes and discusses global regulatory frameworks for CRISPR edited crops. While CRISPR technology has become a routine, cheap, and efficient method to generate edited crops with superior traits, how these crops are regulated determines the future of this technology. Understanding the current state of regulation, concerns, issues, and foundations for future decisions are key in determining how this technology is used going forward. This important summary will be vital to the successful commercialization of CRISPR technology and biosafety concerns associated with this technology. The book highlights regulatory classification of CRISPR modifications such as SDN1, SDN2 and SDN3 and their global regulation and discusses the social, ethical, governance, and policy issues related to CRISPR edited crops.
1. Genome-edited plants regulations: Notes from editors 2. Online tools to track gene editing regulations in Agri-Food Sector 3. CRISPR/Cas Systems and Techniques 4. Applications of CRISPR/Cas in Plants 5. Reagents and their delivery systems in CRISPR/Cas 6. Regulatory Triggers of CRISPR edited crops 7. Tracking Footprints of CRISPR based genome editing 8. GMOs and Their Regulatory Frameworks 9. Regulatory Framework of CRISPR Edited Crops in USA 10. Regulation of CRISPR Edited Plants in Latin America 11. Regulatory outlook of CRISPR edited plants in Canada 12. Regulatory Aspects of CRISPR Edited Plants in EU 13. Regulation of CRISPR Edited Plants in Australia and New Zealand 14. Regulatory Overview of CRISPR Edited Plants in Asian Countries 15. Regulatory landscape of genome edited crops: A Japanese Perspective 16. Regulatory Status of CRISPR Edited Crops in Africa 17. Regulation of CRISPRized Plants in Eastern Europe and Central Asia 18. Gene Editing Regulation in Argentina 19. Food and feed safety considerations for genetically modified crops, in particular gene-edited ones, from a European perspective 20. CRISPR/cas genome editing and applications in forest tree breeding 21. Social, Ethical, Policy and Governance Issue of CRISPR Edited Plants
Dr Aftab Ahmad is currently working as Assistant Professor at Department of Biochemistry/ US-Pakistan Center for Advanced Studies in Agriculture and Food Security (CAS-AFS), University of Agriculture, Faisalabad (UAF), Pakistan. Dr Aftab’s research interests include developing virus resistant and salt tolerant plants using CRISPR/Cas technology. He has published more than 15 research articles in international peer reviewed journals including Journal of Biomedical Sciences, Scientific Reports-Nature, PLOS One, Journal of Translational Medicine, Plant Molecular Biology Reporter, Molecules, Journal of Cereal Science, and Genetic Resources and Crop Evolution. Dr Aftab pursued his PhD and postdocs in Plant Molecular Biology from University of Shizuoka, Japan under Center of Excellence (COE, 21st Century) program. Dr Aftab also served as visiting scientist in department of plant sciences, University of California, Davis, USA. Dr Aftab has been teaching biochemistry and molecular biology at UAF and his research focuses in the area of CRISPR/Cas based
- Presents regulatory frameworks for CRISPR edited crops in the USA, Canada, Australia and New Zealand, Japan, EU, Africa, and Asia
- Includes a specific chapter on global regulation of genetically engineered crops
- Addresses public perception, social aspects, and ethical concerns that are impacting the commercialization of CRISPR edited crops
Date de parution : 11-2023
Ouvrage de 570 p.
19x23.4 cm
Thèmes de Global Regulatory Outlook for CRISPRized Plants :
Mots-clés :
?Abiotic stress; Africanization; Agricultural products; Argentina; Asia; Australia; Bioengineering; Biosafety; Biosafety regulation; Biosecurity; Biosensors; Biotechnology; Biotic stress; CRISPR; CRISPR crops; CRISPR patent; CRISPR system; CRISPR-Cas; CRISPR-Cas9; CRISPR-edited crops; CRISPR-edited plants; CRISPR/Cas; CRISPR/Cas9; CRISPRized plants; Cartagena Protocol; Cartagena protocol; Cisgenics; Climate change; Commercialization; Consulting in advance and notification; Crop improvement; Delivery; Detection methods; EU; Economic effects; FSANZ; Food security; Food technology; Forestry; GMO; GMO labeling; GMO regulation; Gene drives; Gene editing; Gene-edited; Gene-edited organisms; Genetically modified organisms; Genome editing; Genome editing technology; Genome engineering; Governance; Innovation; International harmonization; Japan; Latin America; Modern biotechnology; Multiplex genome editing; New Zealand; New breeding techniques; New gene technology (NGT); Novel trait-based triggers; Nucleotide base editing; OGTR; PCR-based detection methods; Plant breeding; Plant genome editing; Plant improvement; Plants with novel traits; Policy; Process-based triggers; Product-based triggers; Public awareness; Recombinant technology; Regulation; Regulation European Union; Regulations; Regulations framework; Regulatory approaches; Regulatory regime; Regulatory status of CRISPR; Regulatory system; Regulatory triggers; Risk assessment; Risks; SDN; Safety assessment; Single-guide RNA; Site-directed nucleases; Social and ethical issues; Tracking tools; Transgene-free crops
