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RNA targeting with CRISPR–Cas13

基因敲除 RNA干扰 清脆的 核糖核酸 效应器 Cas9 计算生物学 生物 CRISPR干扰 细胞生物学 基因 遗传学
作者
Omar O. Abudayyeh,Jonathan S. Gootenberg,Patrick Essletzbichler,Shuo Han,Julia Joung,Joseph J. Belanto,Vanessa K. Verdine,David Cox,Max J. Kellner,Aviv Regev,Eric S. Lander,Daniel F. Voytas,Alice Y. Ting,Feng Zhang
出处
期刊:Nature [Nature Portfolio]
卷期号:550 (7675): 280-284 被引量:2098
标识
DOI:10.1038/nature24049
摘要

The class 2 type VI RNA-guided RNA-targeting CRISPR–Cas effector Cas13 can be engineered for RNA knockdown and binding, expanding the CRISPR toolset with a flexible platform for studying RNA in mammalian cells and therapeutic development. CRISPR–Cas prokaryotic defence systems have provided versatile tools for DNA editing. Here, the authors demonstrate that the class 2 type VI RNA-guided RNA-targeting CRISPR–Cas effector Cas13a (previously known as C2c2) can be engineered for RNA knockdown and binding in mammalian cells. This addition to the CRISPR toolbox expands its potential uses to transcript tracking and knockdown. RNA has important and diverse roles in biology, but molecular tools to manipulate and measure it are limited. For example, RNA interference1,2,3 can efficiently knockdown RNAs, but it is prone to off-target effects4, and visualizing RNAs typically relies on the introduction of exogenous tags5. Here we demonstrate that the class 2 type VI6,7 RNA-guided RNA-targeting CRISPR–Cas effector Cas13a8 (previously known as C2c2) can be engineered for mammalian cell RNA knockdown and binding. After initial screening of 15 orthologues, we identified Cas13a from Leptotrichia wadei (LwaCas13a) as the most effective in an interference assay in Escherichia coli. LwaCas13a can be heterologously expressed in mammalian and plant cells for targeted knockdown of either reporter or endogenous transcripts with comparable levels of knockdown as RNA interference and improved specificity. Catalytically inactive LwaCas13a maintains targeted RNA binding activity, which we leveraged for programmable tracking of transcripts in live cells. Our results establish CRISPR–Cas13a as a flexible platform for studying RNA in mammalian cells and therapeutic development.
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