Researchers develop rationally designed APOBEC3B cytosine base editors with improved specificity

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  • Published: 2020-07-30
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Cytosine base editors (CBEs) generate C-to-T nucleotide substitutions in genomic target sites without inducing double-strand breaks. However, CBEs such as BE3 can cause genome-wide off-target changes via sgRNA-independent DNA deamination. By leveraging the orthogonal R-loops generated by SaCas9 nickase to mimic actively transcribed genomic loci that are more susceptible to cytidine deaminase, a research team led by Prof. GAO Caixia at Institute of Genetics and Developmental Biology of Chinese Academy of Sciences set up a high-throughput assay for assessing sgRNA-independent off-target effects of CBEs in rice protoplasts. The reliability of this assay was confirmed by the whole-genome sequencing (WGS) of 10 base editors in regenerated rice plants. The R-loop assay was used to screen a series of rationally designed A3Bctd-BE3 variants for improved specificity. We obtained 2 efficient CBE variants, A3Bctd-VHM-BE3 and A3Bctd-KKR-BE3, and the WGS analysis revealed that these new CBEs eliminated sgRNA-independent DNA off-target edits in rice plants. Moreover, these 2 base editor variants were more precise at their target sites by producing fewer multiple C edits.

This work was published in Molecular Cell on July 27. PhD students JIN Shuai, FEI Hongyuan, ZHU Zixu at University of Chinese Academy of Sciences, and Dr. LUO Yingfeng at Institute of Microbiology of Chinese Academy of Sciences, contributed equally to this work.