Gene and RNA Editing: Methods, Enabling Technologies, Applications, and Future Directions

Mohammed Aledhari, Mohamed Rahouti
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Abstract

Gene and RNA editing methods, technologies, and applications are emerging as innovative forms of therapy and medicine, offering more efficient implementation compared to traditional pharmaceutical treatments. Current trends emphasize the urgent need for advanced methods and technologies to detect public health threats, including diseases and viral agents. Gene and RNA editing techniques enhance the ability to identify, modify, and ameliorate the effects of genetic diseases, disorders, and disabilities. Viral detection and identification methods present numerous opportunities for enabling technologies, such as CRISPR, applicable to both RNA and gene editing through the use of specific Cas proteins. This article explores the distinctions and benefits of RNA and gene editing processes, emphasizing their contributions to the future of medical treatment. CRISPR technology, particularly its adaptation via the Cas13 protein for RNA editing, is a significant advancement in gene editing. The article will delve into RNA and gene editing methodologies, focusing on techniques that alter and modify genetic coding. A-to-I and C-to-U editing are currently the most predominant methods of RNA modification. CRISPR stands out as the most cost-effective and customizable technology for both RNA and gene editing. Unlike permanent changes induced by cutting an individual's DNA genetic code, RNA editing offers temporary modifications by altering nucleoside bases in RNA strands, which can then attach to DNA strands as temporary modifiers.
基因和 RNA 编辑:方法、赋能技术、应用和未来方向
基因和 RNA 编辑方法、技术和应用正在成为一种创新的治疗和医学形式,与传统的药物治疗相比,其实施效率更高。当前的趋势强调迫切需要先进的方法和技术来检测公共卫生威胁,包括疾病和病毒病原体。基因和 RNA 编辑技术提高了识别、改变和改善遗传疾病、失调和残疾影响的能力。病毒检测和识别方法为 CRISPR 等赋能技术提供了大量机会,这些技术通过使用特异性 Cas 蛋白适用于 RNA 和基因编辑。本文探讨了 RNA 和基因编辑过程的区别和优势,强调了它们对未来医疗的贡献。CRISPR 技术,尤其是通过 Cas13 蛋白进行 RNA 编辑的技术,是基因编辑领域的一大进步。本文将深入探讨 RNA 和基因编辑方法,重点是改变和修改基因编码的技术。A-to-I和C-to-U编辑是目前最主要的RNA修饰方法。CRISPR 是 RNA 和基因编辑中最具成本效益和可定制的技术。与切割个体 DNA 遗传密码所引起的永久性改变不同,RNA 编辑通过改变 RNA 链中的核苷酸碱基来提供临时性修饰,然后将其附着到 DNA 链上,成为一个临时修饰系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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