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Glycosylase-based base editors for efficient T-to-G and C-to-G editing in mammalian cells

Nat Biotechnol .. 2024-01; 
Lijun Ye , Dongdong Zhao , Ju Li , Yiran Wang , Bo Li , Yuanzhao Yang , Xueting Hou , Huibin Wang , Zhandong Wei , Xiaoqi Liu , Yaqiu Li, Siwei Li , Yajing Liu , Xueli Zhang , Changhao Bi
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摘要

Base editors show promise for treating human genetic diseases, but most current systems use deaminases, which cause off-target effects and are limited in editing type. In this study, we constructed deaminase-free base editors for cytosine (DAF-CBE) and thymine (DAF-TBE), which contain only a cytosine-DNA or a thymine-DNA glycosylase (CDG/TDG) variant, respectively, tethered to a Cas9 nickase. Multiple rounds of mutagenesis by directed evolution in Escherichia coli generated two variants with enhanced base-converting activity-CDG-nCas9 and TDG-nCas9-with efficiencies of up to 58.7% for C-to-A and 54.3% for T-to-A. DAF-BEs achieve C-to-G/T-to-G editing in mammalian cells with minimal Cas9-dependent and Cas9-indep... More

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