Cas9 off-target binding to the promoter of bacterial genes leads to silencing and toxicity [RNA-Seq]
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ABSTRACT: Over the last decade, gene-silencing mediated by dCas9 binding to transcribed regions or their promoters, a strategy referred to as CRISPRi, has emerged as a powerful tool in bacterial genetics. While this strategy has already been broadly adopted, several studies have reported experimental setups in which dCas9 expression was toxic. In particular, guide RNAs that share specific PAM-proximal sequence motifs were shown to be toxic to E. coli. Here we demonstrate that this toxicity is caused by off-target binding of dCas9 to the promoter of essential genes. Silencing of off-target genes can occur with as little as 4nt of identity between the PAM-proximal sequence and the off-target position. This phenomenon only occurs in some promoter sequences but does not appear to be constrained to any specific PAM-proximal sequence. Accordingly, screens performed in various strains of E. coli and related species shows that the nature of toxic guide RNAs changes together with the evolution of the sequence of off-target positions. These results highlight the importance of relying on several guide RNAs targeting the same gene when performing CRISPRi experiments in bacteria in order to avoid any possible confounding results due to off-target binding.
ORGANISM(S): Escherichia coli
PROVIDER: GSE216032 | GEO | 2022/10/25
REPOSITORIES: GEO
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