Genome editing using type I-E CRISPR-Cas3 in mice and rat zygotes.

IF 4.3 Q1 BIOCHEMICAL RESEARCH METHODS Cell Reports Methods Pub Date : 2024-08-19 Epub Date: 2024-08-08 DOI:10.1016/j.crmeth.2024.100833

Kazuto Yoshimi, Akihiro Kuno, Yuko Yamauchi, Kosuke Hattori, Hiromi Taniguchi, Kouya Mikamo, Ryuya Iida, Saeko Ishida, Motohito Goto, Kohei Takeshita, Ryoji Ito, Riichi Takahashi, Satoru Takahashi, Tomoji Mashimo

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Abstract

The type I CRISPR system has recently emerged as a promising tool, especially for large-scale genomic modification, but its application to generate model animals by editing zygotes had not been established. In this study, we demonstrate genome editing in zygotes using the type I-E CRISPR-Cas3 system, which efficiently generates deletions of several thousand base pairs at targeted loci in mice with 40%-70% editing efficiency without off-target mutations. To overcome the difficulties associated with detecting the variable deletions, we used a newly long-read sequencing-based multiplex genotyping approach. Demonstrating remarkable versatility, our Cas3-based technique was successfully extended to rats as well as mice, even by zygote electroporation methods. Knockin for SNP exchange and genomic replacement with a donor plasmid were also achieved in mice. This pioneering work with the type I CRISPR zygote editing system offers increased flexibility and broader applications in genetic engineering across different species.

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利用 I-E 型 CRISPR-Cas3 在小鼠和大鼠子代中进行基因组编辑。

I 型 CRISPR 系统近来已成为一种前景广阔的工具，尤其是在大规模基因组改造方面，但其通过编辑子代产生模式动物的应用尚未确立。在这项研究中，我们展示了利用 I-E 型 CRISPR-Cas3 系统在子代中进行基因组编辑的方法，它能在小鼠的目标位点上有效地产生数千个碱基对的缺失，编辑效率高达 40%-70% 而不会产生脱靶突变。为了克服检测可变缺失的困难，我们采用了一种新的基于长线程测序的多重基因分型方法。我们以 Cas3 为基础的技术成功地扩展到了大鼠和小鼠，甚至还采用了子代电穿孔方法，这显示了我们卓越的多功能性。我们还在小鼠体内实现了SNP交换的基因敲除和供体质粒的基因组替换。这项关于 I 型 CRISPR 子代编辑系统的开创性工作为不同物种的基因工程提供了更大的灵活性和更广泛的应用。

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