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Tunable translation-level CRISPR interference by dCas13 and engineered gRNA in bacteria

Giho Kim, Ho Joon Kim, Keonwoo Kim, Hyeon‐Jin Kim, Jina Yang, Sang Woo Seo

2024Nature Communications24 citationsDOIOpen Access PDF

Abstract

Although CRISPR-dCas13, the RNA-guided RNA-binding protein, was recently exploited as a translation-level gene expression modulator, it has still been difficult to precisely control the level due to the lack of detailed characterization. Here, we develop a synthetic tunable translation-level CRISPR interference (Tl-CRISPRi) system based on the engineered guide RNAs that enable precise and predictable down-regulation of mRNA translation. First, we optimize the Tl-CRISPRi system for specific and multiplexed repression of genes at the translation level. We also show that the Tl-CRISPRi system is more suitable for independently regulating each gene in a polycistronic operon than the transcription-level CRISPRi (Tx-CRISPRi) system. We further engineer the handle structure of guide RNA for tunable and predictable repression of various genes in Escherichia coli and Vibrio natriegens. This tunable Tl-CRISPRi system is applied to increase the production of 3-hydroxypropionic acid (3-HP) by 14.2-fold via redirecting the metabolic flux, indicating the usefulness of this system for the flux optimization in the microbial cell factories based on the RNA-targeting machinery.

Topics & Concepts

CRISPRTranslation (biology)Guide RNABacteriaComputational biologyBacterial proteinComputer scienceBiologyGenome editingGeneticsGeneMessenger RNACRISPR and Genetic EngineeringRNA and protein synthesis mechanismsBacterial Genetics and Biotechnology
Tunable translation-level CRISPR interference by dCas13 and engineered gRNA in bacteria | Litcius