使用 CRISPR Cas9 进行基因编辑:近期的生物医学和生物技术应用

Q2 Multidisciplinary Universitas Scientiarum Pub Date : 2024-03-01 DOI:10.11144/javeriana.sc291.gewc
Fabián Andrés Garzón Posse, Angie Kathleen Pinilla Peña, Cesar Augusto Rivas Velásquez, María Camila Murillo Virgüez, Jorge Alberto Gutiérrez Méndez
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引用次数: 0

摘要

一种可以精确编辑各种生物遗传物质的新颖而强大的技术正在得到广泛应用。这种技术源自细菌和古细菌的防御机制,被称为 CRISPR Cas9。与其他完全依赖蛋白质的基因编辑工具不同,CRISPR Cas9 利用目标 DNA 和 RNA 序列之间的相互作用,引导 Cas9 酶改变目标基因的结构。由于不同的引导 RNA 序列易于编程,因此可以对不同的基因组位置进行编辑,从而促进了它的使用和实施。此外,Cas9 蛋白的非活性版本在其相应 RNA 的引导下,可用于遗传物质的可视化过程,或最近用于转录过程的调节。考虑到生物医学和生物技术研究的最新进展和可能性,我们必须明白,对这项技术的探索才刚刚开始,其最终应用将在多个层面上影响我们周围的世界。在这篇综述中,我们将介绍 Cas9 核酸酶功能的生物学基础,以及它在编辑和调节各种生物遗传物质特定部分中的部分应用。我们还讨论了围绕这一主题的一些生物伦理问题。
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Genetic Editing with CRISPR Cas9: recent Biomedical and Biotechnological Applications
The use of a novel and powerful technology that allows for the precise editing of the genetic material of various organisms is becoming widespread. This technology derives from bacterial and archaeal defense machinery and is called CRISPR Cas9. Unlike other gene editing tools that exclusively rely on proteins, CRISPR Cas9 utilizes interactions between the target DNA and an RNA sequence that guides the Cas9 enzyme to alter the structure of a target gene. Various genome locations can be edited thanks to the ease of programming different guide RNA sequences, facilitating its use and implementation. Furthermore, the non-active version of the Cas9 protein, guided by its corresponding RNA, can be utilized for visualization processes of genetic material or, more recently, for the regulation of the transcription process. Considering the recent advances and possibilities in biomedical and biotechnological research, we must understand that the exploration of this technology is just beginning, and its eventual applications will influence the world around us on multiple levels. In this review, we describe the biological foundations of the functioning of the Cas9 nuclease, together with selected applications of its use in editing and regulating specific sections of the genetic material of various organisms. We also discuss some bioethical issues surrounding this subject.
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来源期刊
Universitas Scientiarum
Universitas Scientiarum Multidisciplinary-Multidisciplinary
CiteScore
1.20
自引率
0.00%
发文量
9
审稿时长
15 weeks
期刊最新文献
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