在DNA修复过程中，碱基编辑器和引导编辑器导致的大DNA缺失发生频率比Cas9核酸酶低20倍。

Large DNA deletions occur during DNA repair at 20-fold lower frequency for base editors and prime editors than for Cas9 nucleases.

作者信息

Hwang Gue-Ho, Lee Seok-Hoon, Oh Minsik, Kim Segi, Habib Omer, Jang Hyeon-Ki, Kim Heon Seok, Kim Youngkuk, Kim Chan Hyuk, Kim Sun, Bae Sangsu

机构信息

Medical Research Center of Genomic Medicine Institute, Seoul National University College of Medicine, Seoul, Republic of Korea.

Department of Biomedical Sciences, Seoul National University College of Medicine, Seoul, Republic of Korea.

出版信息

Nat Biomed Eng. 2025 Jan;9(1):79-92. doi: 10.1038/s41551-024-01277-5. Epub 2024 Nov 4.

DOI:10.1038/s41551-024-01277-5

PMID:39496933

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11754094/

Abstract

When used to edit genomes, Cas9 nucleases produce targeted double-strand breaks in DNA. Subsequent DNA-repair pathways can induce large genomic deletions (larger than 100 bp), which constrains the applicability of genome editing. Here we show that Cas9-mediated double-strand breaks induce large deletions at varying frequencies in cancer cell lines, human embryonic stem cells and human primary T cells, and that most deletions are produced by two repair pathways: end resection and DNA-polymerase theta-mediated end joining. These findings required the optimization of long-range amplicon sequencing, the development of a k-mer alignment algorithm for the simultaneous analysis of large DNA deletions and small DNA alterations, and the use of CRISPR-interference screening. Despite leveraging mutated Cas9 nickases that produce single-strand breaks, base editors and prime editors also generated large deletions, yet at approximately 20-fold lower frequency than Cas9. We provide strategies for the mitigation of such deletions.

摘要

当用于编辑基因组时，Cas9核酸酶会在DNA中产生靶向双链断裂。随后的DNA修复途径可诱导大片段基因组缺失（大于100 bp），这限制了基因组编辑的适用性。在此，我们表明，Cas9介导的双链断裂在癌细胞系、人类胚胎干细胞和人类原代T细胞中以不同频率诱导大片段缺失，并且大多数缺失是由两种修复途径产生的：末端切除和DNA聚合酶θ介导的末端连接。这些发现需要优化长距离扩增子测序、开发用于同时分析大片段DNA缺失和小片段DNA改变的k-mer比对算法以及使用CRISPR干扰筛选。尽管利用了产生单链断裂的突变Cas9切口酶，但碱基编辑器和引导编辑器也会产生大片段缺失，不过其频率比Cas9低约20倍。我们提供了减轻此类缺失的策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c5e6/11754094/d141abe425e1/41551_2024_1277_Fig1_HTML.jpg

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在DNA修复过程中，碱基编辑器和引导编辑器导致的大DNA缺失发生频率比Cas9核酸酶低20倍。

Large DNA deletions occur during DNA repair at 20-fold lower frequency for base editors and prime editors than for Cas9 nucleases.

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