Creating RNA Specific C-to-U Editase from APOBEC3A by Separation of Its Activities on DNA and RNA Substrates

核糖核酸 胞苷脱氨酶 DNA RNA编辑 生物 脱氨基 突变 生物化学 突变体 分子生物学 化学 基因
作者
Guiyue Tang,Bingran Xie,Xiangna Hong,Hang Qin,Jingfang Wang,Hai Huang,Pei Hao,Xuan Li
出处
期刊:ACS Synthetic Biology [American Chemical Society]
卷期号:10 (5): 1106-1115 被引量:17
标识
DOI:10.1021/acssynbio.0c00627
摘要

APOBEC3A (A3A) is a cytidine deaminase involved in innate immune response and is able to catalyze deamination on both DNA and RNA substrates. It was used in creating the CRISPR-mediated base editor, but has since been held back due to its dual activities. On the other hand, it has been a challenge to separate A3A's dual activities in order to enable it for single-base RNA editors. Here we developed the reporter system for C-to-U RNA editing and employed rational design for mutagenesis to differentiate deaminase activities on RNA and DNA substrates to obtain an RNA-specific editase. Generation and examination of 23 previous A3A mutants showed their deamination activity on RNA was mostly abolished when their activity on DNA was impaired, with the exception of mutant N57Q that displayed an inverse change. We designed new mutations on Loops 1 and 7 based on A3A's crystal structure and found mutants H29R and Y132G had differential effects on catalytic activity on RNA and DNA substrates. In order to engineer an A3A with RNA-specific deaminase activity, we combined Y132G with mutations in Loop 1 or helix 6 by rational design. Two multipoint mutants, Y132G/K30R and Y132G/G188A/R189A/L190A, were successful in retaining high deaminase activity on RNA substrate while eliminating deaminase activity on DNA. We, for the first time, created novel human A3A variants with RNA-specific cytidine deaminase activity, providing insight into A3A's mechanism on substrate recognition and a new addition of a toolset to the creation of a RNA-specific C-to-U base editor.
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