Prime Editing Exhibits Limited Genome-Wide Off-Target Effects in Cellular and Embryonic Gene Editing
Jitan Zheng, Mingdi Wu, Xueyan Wang, Zhenrui Zuo, Chikai Zhou, Erwei Zuo, Yangqing Lu
Journal:Cells
IF:6
DOI:10.3390/cells15050438
PMID:41827871
Published:2026-02-28
research field:基因组编辑分子生物学生物医学工程遗传学
Abstract
Prime editing (PE) is a precise genome-editing technology that avoids double-strand breaks, holding great promise for clinical and agricultural applications. However, its genome-wide off-target effects are not fully understood, raising safety concerns. Here, we systematically compared the safety profiles of four prime editor variants (PE2max, PE3max, PE4max, and PE5max) using PEM-seq and RNA-seq. We further applied an ultra-sensitive method, Genome-wide Off-target analysis by Two-cell embryo Injection (GOTI), to assess PE5max. Our results show that PE5max did not produce detectable sgRNA-dependent off-target single-nucleotide variants (SNVs) in the GOTI assay and induced only limited large deletions and chromosomal translocations. Collectively, this side-by-side benchmarking under matched conditions demonstrates that PE5max achieves an improved specificity profile, with no detectable increase in genome-wide off-target SNVs, advancing its potential for safer therapeutic use.
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