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Structure-guided engineering of adenine base editor with minimized RNA off-targeting activity

Jianan Li, Wenxia Yu, Shisheng Huang, Susu Wu, Liping Li, Jiankui Zhou, Yu Cao, Xingxu Huang, Yunbo Qiao

2021Nature Communications69 citationsDOIOpen Access PDF

Abstract

Both adenine base editors (ABEs) and cytosine base editors (CBEs) have been recently revealed to induce transcriptome-wide RNA off-target editing in a guide RNA-independent manner. Here we construct a reporter system containing E.coli Hokb gene with a tRNA-like motif for robust detection of RNA editing activities as the optimized ABE, ABEmax, induces highly efficient A-to-I (inosine) editing within an E.coli tRNA-like structure. Then, we design mutations to disrupt the potential interaction between TadA and tRNAs in structure-guided principles and find that Arginine 153 (R153) within TadA is essential for deaminating RNAs with core tRNA-like structures. Two ABEmax or mini ABEmax variants (TadA* fused with Cas9n) with deletion of R153 within TadA and/or TadA* (named as del153/del153* and mini del153) are successfully engineered, showing minimized RNA off-targeting, but comparable DNA on-targeting activities. Moreover, R153 deletion in recently reported ABE8e or ABE8s can also largely reduce their RNA off-targeting activities. Taken together, we develop a strategy to generate engineered ABEs (eABEs) with minimized RNA off-targeting activities.

Topics & Concepts

RNATransfer RNAComputational biologyBase pairNucleic acid structureRNA editingDNABiologyGeneGeneticsCRISPR and Genetic EngineeringRNA and protein synthesis mechanismsRNA regulation and disease