A bacterial cytidine deaminase toxin enables CRISPR-free mitochondrial base editing

胞苷脱氨酶 清脆的 线粒体DNA DNA DNA糖基化酶 基因组编辑 胞嘧啶 引导RNA Cas9 生物 遗传学 RNA编辑 胞苷 核糖核酸 基因 生物化学 DNA修复
作者
Beverly Mok,Marcos H. de Moraes,Jun Zeng,Dustin E. Bosch,Anna V. Kotrys,Aditya Raguram,FoSheng Hsu,Matthew C. Radey,S. Brook Peterson,Vamsi K. Mootha,Joseph D. Mougous,David R. Liu
出处
期刊:Nature [Nature Portfolio]
卷期号:583 (7817): 631-637 被引量:703
标识
DOI:10.1038/s41586-020-2477-4
摘要

Bacterial toxins represent a vast reservoir of biochemical diversity that can be repurposed for biomedical applications. Such proteins include a group of predicted interbacterial toxins of the deaminase superfamily, members of which have found application in gene-editing techniques1,2. Because previously described cytidine deaminases operate on single-stranded nucleic acids3, their use in base editing requires the unwinding of double-stranded DNA (dsDNA)—for example by a CRISPR–Cas9 system. Base editing within mitochondrial DNA (mtDNA), however, has thus far been hindered by challenges associated with the delivery of guide RNA into the mitochondria4. As a consequence, manipulation of mtDNA to date has been limited to the targeted destruction of the mitochondrial genome by designer nucleases9,10.Here we describe an interbacterial toxin, which we name DddA, that catalyses the deamination of cytidines within dsDNA. We engineered split-DddA halves that are non-toxic and inactive until brought together on target DNA by adjacently bound programmable DNA-binding proteins. Fusions of the split-DddA halves, transcription activator-like effector array proteins, and a uracil glycosylase inhibitor resulted in RNA-free DddA-derived cytosine base editors (DdCBEs) that catalyse C•G-to-T•A conversions in human mtDNA with high target specificity and product purity. We used DdCBEs to model a disease-associated mtDNA mutation in human cells, resulting in changes in respiration rates and oxidative phosphorylation. CRISPR-free DdCBEs enable the precise manipulation of mtDNA, rather than the elimination of mtDNA copies that results from its cleavage by targeted nucleases, with broad implications for the study and potential treatment of mitochondrial disorders. An interbacterial toxin that catalyses the deamination of cytidines within double-stranded DNA forms part of a CRISPR-free, RNA-free base editing system that enables manipulation of human mitochondrial DNA.
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