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引用次数: 5
摘要
基因-环境相互作用影响环境暴露于毒物对健康的不利影响。识别调节机体和细胞对环境毒物反应的遗传因素可以为风险评估提供信息。基于CRISPR的全基因组集群规则间隔短回文重复序列(clustered regularly interspaced short palindromic repeats,简称CRISPR)基因扰动筛选最近成为一种阐明复杂细胞过程(包括调节化学毒性的机制)的有力方法。在这里,我们回顾了证明CRISPR筛选在破译对有毒物质敏感性和耐受性的分子决定因素方面的效用的关键研究。我们反思了在毒理学中实施CRISPR筛选的关键考虑因素。我们还讨论了用于分析CRISPR筛选和验证筛选结果的策略的计算方法。最后,我们强调了潜在的未来方向,以解决CRISPR筛选方法应用于毒理学的局限性。
Gene–environment interactions impact the adverse health effects of environmental exposure to toxicants. Identification of genetic factors modulating organismal and cellular response to environmental toxicants can inform risk assessment. Genome-wide clustered regularly interspaced short palindromic repeats (CRISPR)–based genetic perturbation screening has recently emerged as a powerful approach to illuminate complex cellular processes including mechanisms modulating chemical toxicity. Here, we review key studies that demonstrate the utility of CRISPR screens in deciphering the molecular determinants of sensitivity and tolerance to toxic substances. We reflect on key considerations for implementing a CRISPR screen in toxicology. We also discuss computational methods used for analyzing CRISPR screens and strategies for validating screening results. Finally, we highlight potential future directions to address limitations in CRISPR screening approaches as applied to toxicology.
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