Digenome-seq：在人类细胞中对 CRISPR-Cas9 脱靶效应进行全基因组分析。

Digenome-seq: genome-wide profiling of CRISPR-Cas9 off-target effects in human cells.

机构信息

1] Center for Genome Engineering, Institute for Basic Science, Seoul, South Korea. [2] Department of Chemistry, Seoul National University, Seoul, South Korea.

Department of Chemistry, Seoul National University, Seoul, South Korea.

出版信息

Nat Methods. 2015 Mar;12(3):237-43, 1 p following 243. doi: 10.1038/nmeth.3284. Epub 2015 Feb 9.

DOI:10.1038/nmeth.3284

PMID:25664545

Abstract

Although RNA-guided genome editing via the CRISPR-Cas9 system is now widely used in biomedical research, genome-wide target specificities of Cas9 nucleases remain controversial. Here we present Digenome-seq, in vitro Cas9-digested whole-genome sequencing, to profile genome-wide Cas9 off-target effects in human cells. This in vitro digest yields sequence reads with the same 5' ends at cleavage sites that can be computationally identified. We validated off-target sites at which insertions or deletions were induced with frequencies below 0.1%, near the detection limit of targeted deep sequencing. We also showed that Cas9 nucleases can be highly specific, inducing off-target mutations at merely several, rather than thousands of, sites in the entire genome and that Cas9 off-target effects can be avoided by replacing 'promiscuous' single guide RNAs (sgRNAs) with modified sgRNAs. Digenome-seq is a robust, sensitive, unbiased and cost-effective method for profiling genome-wide off-target effects of programmable nucleases including Cas9.

摘要

虽然基于 CRISPR-Cas9 系统的 RNA 引导基因组编辑现在已被广泛应用于生物医学研究，但 Cas9 核酸酶的全基因组靶向特异性仍存在争议。在这里，我们提出了 Digenome-seq，即体外 Cas9 消化全基因组测序，以分析人细胞中 Cas9 的全基因组脱靶效应。这种体外消化会产生在切割位点具有相同 5' 端的序列读取，可以通过计算来识别。我们验证了在靶向深度测序的检测限以下的低频（低于 0.1%）诱导插入或缺失的脱靶位点。我们还表明，Cas9 核酸酶可以高度特异性，在整个基因组中仅仅几个而非数千个位点诱导脱靶突变，并且通过用修饰的 sgRNA 替换“混杂”的 sgRNA 可以避免 Cas9 的脱靶效应。Digenome-seq 是一种强大、敏感、无偏和具有成本效益的方法，可用于分析包括 Cas9 在内的可编程核酸酶的全基因组脱靶效应。

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Digenome-seq：在人类细胞中对 CRISPR-Cas9 脱靶效应进行全基因组分析。

Digenome-seq: genome-wide profiling of CRISPR-Cas9 off-target effects in human cells.

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