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Adenine transversion editors enable precise, efficient A•T-to-C•G base editing in mammalian cells and embryos

Nat Biotechnol. 2023-06; 
Liang Chen, Mengjia Hong, Changming Luan, Hongyi Gao, Gaomeng Ru, Xinyuan Guo, Dujuan Zhang, Shun Zhang, Changwei Li, Jun Wu, Peyton B Randolph, Alexander A Sousa, Chao Qu, Yifan Zhu, Yuting Guan, Liren Wang, Mingyao Liu, Bo Feng, Gaojie Song, David R Liu, Dali Li
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摘要

Base editors have substantial promise in basic research and as therapeutic agents for the correction of pathogenic mutations. The development of adenine transversion editors has posed a particular challenge. Here we report a class of base editors that enable efficient adenine transversion, including precise A•T-to-C•G editing. We found that a fusion of mouse alkyladenine DNA glycosylase (mAAG) with nickase Cas9 and deaminase TadA-8e catalyzed adenosine transversion in specific sequence contexts. Laboratory evolution of mAAG significantly increased A-to-C/T conversion efficiency up to 73% and expanded the targeting scope. Further engineering yielded adenine-to-cytosine base editors (ACBEs), including a high-... More

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