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. 2024 Oct;42(10):1538-1547.
doi: 10.1038/s41587-023-02050-w. Epub 2024 Jan 2.

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

Lijun Ye #  1   2   3 Dongdong Zhao #  1   2   3 Ju Li #  4 Yiran Wang  1   3   4 Bo Li  1   2   3 Yuanzhao Yang  1   3   5 Xueting Hou  1   3 Huibin Wang  1   3   5 Zhandong Wei  1   3 Xiaoqi Liu  1   3 Yaqiu Li  1   3 Siwei Li  1   3 Yajing Liu  1   3 Xueli Zhang  6   7   8 Changhao Bi  9   10   11
Affiliations

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

Lijun Ye et al. Nat Biotechnol. 2024 Oct.

Abstract

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-independent off-target effects as well as minimal RNA off-target effects. Additional engineering resulted in DAF-CBE2/DAF-TBE2, which exhibit altered editing windows from the 5' end to the middle of the protospacer and increased C-to-G/T-to-G editing efficiency of 3.5-fold and 1.2-fold, respectively. Compared to prime editing or CGBEs, DAF-BEs expand conversion types of base editors with similar efficiencies, smaller sizes and lower off-target effects.

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References

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