基因组编辑创造水稻抗性基因新等位基因的潜力

IF 4.9 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Pankaj Kumar Singh, B. N. Devanna, Himanshu Dubey, Prabhakar Singh, Gaurav Joshi, Roshan Kumar
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引用次数: 0

摘要

水稻作为全球大部分人口的主食,长期面临各种病原体和虫害的威胁,因此有必要开发抗病性强的作物品种。在水稻中部署抗病基因是通过减少农用化学品的使用来控制病害和减少环境破坏的最佳做法。CRISPR-Cas 等基因组编辑技术为分子生物学领域带来了革命性的变化,为在水稻基因组中进行有针对性的修改提供了精确而高效的工具。本研究深入探讨了这些工具在水稻抗性基因等位基因工程中的应用,旨在提高植物对抗不断变化的威胁的内在能力。通过利用基因组编辑的力量,研究人员可以引入量身定制的基因修饰,在不损害植物基本特性的情况下增强植物的防御机制。在本研究中,我们总结了适用于水稻的基因组编辑方法的最新进展,并讨论了创建转基因作物的伦理考虑因素和监管框架。此外,本研究还探讨了在农业景观中部署经过编辑的水稻品种所面临的潜在挑战和未来前景。总之,本研究强调了基因组编辑在重塑水稻基因景观以应对新出现的挑战方面的前景,从而为全球粮食安全和可持续农业实践做出贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The potential of genome editing to create novel alleles of resistance genes in rice
Rice, a staple food for a significant portion of the global population, faces persistent threats from various pathogens and pests, necessitating the development of resilient crop varieties. Deployment of resistance genes in rice is the best practice to manage diseases and reduce environmental damage by reducing the application of agro-chemicals. Genome editing technologies, such as CRISPR-Cas, have revolutionized the field of molecular biology, offering precise and efficient tools for targeted modifications within the rice genome. This study delves into the application of these tools to engineer novel alleles of resistance genes in rice, aiming to enhance the plant’s innate ability to combat evolving threats. By harnessing the power of genome editing, researchers can introduce tailored genetic modifications that bolster the plant’s defense mechanisms without compromising its essential characteristics. In this study, we synthesize recent advancements in genome editing methodologies applicable to rice and discuss the ethical considerations and regulatory frameworks surrounding the creation of genetically modified crops. Additionally, it explores potential challenges and future prospects for deploying edited rice varieties in agricultural landscapes. In summary, this study highlights the promise of genome editing in reshaping the genetic landscape of rice to confront emerging challenges, contributing to global food security and sustainable agriculture practices.
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CiteScore
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