核酸酶
计算生物学
同源重组
计算机科学
HEK 293细胞
DNA
基因组编辑
转录激活物样效应核酸酶
化学
生物
遗传学
细胞培养
基因组
基因
作者
Xiangyang Li,Guiquan Zhang,Shisheng Huang,Yao Liu,Jin Tang,Mingtian Zhong,Xin Wang,Wenjun Sun,Yuan Yao,Quanjiang Ji,Xiaolong Wang,Jianghuai Liu,Shiqiang Zhu,Xingxu Huang
标识
DOI:10.1038/s41467-023-35870-0
摘要
The applicability of nuclease-based form of prime editor (PEn) has been hindered by its complexed editing outcomes. A chemical inhibitor against DNA-PK, which mediates the nonhomologous end joining (NHEJ) pathway, was recently shown to promote precise insertions by PEn. Nevertheless, the intrinsic issues of specificity and toxicity for such a chemical approach necessitate development of alternative strategies. Here, we find that co-introduction of PEn and a NHEJ-restraining, 53BP1-inhibitory ubiquitin variant potently drives precise edits via mitigation of unintended edits, framing a high-activity editing platform (uPEn) apparently complementing the canonical PE. Further developments involve exploring the effective configuration of a homologous region-containing pegRNA (HR-pegRNA). Overall, uPEn can empower high-efficiency installation of insertions (38%), deletions (43%) and replacements (52%) in HEK293T cells. When compared with PE3/5max, uPEn demonstrates superior activities for typically refractory base substitutions, and for small-block edits. Collectively, this work establishes a highly efficient PE platform with broad application potential.
科研通智能强力驱动
Strongly Powered by AbleSci AI