利用CRISPR‐Cas系统进行治疗性基因组工程

Ana M. Moreno, P. Mali
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引用次数: 23

摘要

基因组差异是大多数生物体多样性的基础,基因组畸变是许多疾病状态的基础。随着对人类疾病的遗传和致病基础知识的不断增长,安全有效的基因组和表观基因组工程平台的发展将改变我们治疗人类疾病的能力,也有可能改造疾病抗性。在这方面,最近出现的聚集规律间隔短回文重复序列(CRISPR) -CRISPR相关(Cas) RNA引导核酸酶系统已经改变了我们靶向核酸的能力。在这里,我们回顾了治疗性基因组工程的应用,特别关注CRISPR‐Cas工具集。我们总结了过去和当前的工作,并概述了主要挑战和未来的方向。中国生物医学工程学报,2017,32(1):444 - 444。doi: 10.1002 / wsbm.1380
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Therapeutic genome engineering via CRISPR‐Cas systems
Differences in genomes underlie most organismal diversity, and aberrations in genomes underlie many disease states. With the growing knowledge of the genetic and pathogenic basis of human disease, development of safe and efficient platforms for genome and epigenome engineering will transform our ability to therapeutically target human diseases and also potentially engineer disease resistance. In this regard, the recent advent of clustered regularly interspaced short palindromic repeats (CRISPR)–CRISPR‐associated (Cas) RNA‐guided nuclease systems have transformed our ability to target nucleic acids. Here we review therapeutic genome engineering applications with a specific focus on the CRISPR‐Cas toolsets. We summarize past and current work, and also outline key challenges and future directions. WIREs Syst Biol Med 2017, 9:e1380. doi: 10.1002/wsbm.1380
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来源期刊
CiteScore
18.40
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Journal Name:Wiley Interdisciplinary Reviews-Systems Biology and Medicine Focus: Strong interdisciplinary focus Serves as an encyclopedic reference for systems biology research Conceptual Framework: Systems biology asserts the study of organisms as hierarchical systems or networks Individual biological components interact in complex ways within these systems Article Coverage: Discusses biology, methods, and models Spans systems from a few molecules to whole species Topical Coverage: Developmental Biology Physiology Biological Mechanisms Models of Systems, Properties, and Processes Laboratory Methods and Technologies Translational, Genomic, and Systems Medicine
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