利用向导 RNA 链置换电路切换 Cas12a 的活性。
Switching the activity of Cas12a using guide RNA strand displacement circuits.
机构信息
Physics Department E14, Technical University Munich, 85748, Garching, Germany.
出版信息
Nat Commun. 2019 May 7;10(1):2092. doi: 10.1038/s41467-019-09953-w.
The CRISPR effector protein Cas12a has been used for a wide variety of applications such as in vivo gene editing and regulation or in vitro DNA sensing. Here, we add programmability to Cas12a-based DNA processing by combining it with strand displacement-based reaction circuits. We first establish a viable strategy for augmenting Cas12a guide RNAs (gRNAs) at their 5' end and then use such 5' extensions to construct strand displacement gRNAs (SD gRNAs) that can be activated by single-stranded RNA trigger molecules. These SD gRNAs are further engineered to exhibit a digital and orthogonal response to different trigger RNA inputs-including full length mRNAs-and to function as multi-input logic gates. We also demonstrate that SD gRNAs can be designed to work inside bacterial cells. Using such in vivo SD gRNAs and a DNase inactive version of Cas12a (dCas12a), we demonstrate logic gated transcriptional control of gene expression in E. coli.
CRISPR 效应蛋白 Cas12a 已被广泛应用于各种领域,如体内基因编辑和调控,或体外 DNA 传感。在这里,我们通过将 Cas12a 与基于链置换的反应回路相结合,为 Cas12a 为基础的 DNA 处理添加可编程性。我们首先建立了一种可行的策略,在 Cas12a 引导 RNA(gRNA)的 5'端进行扩增,然后使用这种 5'延伸来构建可以被单链 RNA 触发分子激活的链置换 gRNA(SD gRNA)。这些 SD gRNAs 进一步被设计为对不同触发 RNA 输入(包括全长 mRNA)表现出数字和正交响应,并作为多输入逻辑门发挥作用。我们还证明了 SD gRNAs 可以被设计用于在细菌细胞内发挥作用。使用这种体内 SD gRNAs 和无 DNA 酶活性的 Cas12a(dCas12a),我们在大肠杆菌中展示了基于逻辑门的基因表达转录控制。
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