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A transferrable and integrative type I-F Cascade for heterologous genome editing and transcription modulation

Zeling Xu, Yanran Li, Huiluo Cao, Meiru Si, Guangming Zhang, Patrick C. Y. Woo, Aixin Yan

2021Nucleic Acids Research31 citationsDOIOpen Access PDF

Abstract

The Class 1 type I CRISPR-Cas systems represent the most abundant and diverse CRISPR systems in nature. However, their applications for generic genome editing have been hindered due to difficulties of introducing the class-specific, multi-component effectors (Cascade) in heterologous hosts for functioning. Here we established a transferrable Cascade system that enables stable integration and expression of a highly active type I-F Cascade in heterologous bacterial hosts for various genetic exploitations. Using the genetically recalcitrant Pseudomonas species as a paradigm, we show that the transferred Cascade displayed substantially higher DNA interference activity and greater editing capacity than both the integrative and plasmid-borne Cas9 systems, and enabled deletion of large fragments such as the 21-kb integrated cassette with efficiency and simplicity. An advanced I-F-λred system was further developed to enable editing in genotypes with poor homologous recombination capacity, clinical isolates lacking sequence information, and cells containing anti-CRISPR elements Acrs. Lastly, an 'all-in-one' I-F Cascade-mediated CRISPRi platform was developed for transcription modulation by simultaneous introduction of the Cascade and the programmed mini-CRISPR array in one-step. This study provides a framework for expanding the diverse type I Cascades for widespread, heterologous genome editing and establishment of editing techniques in 'non-model' bacterial species.

Topics & Concepts

BiologyCRISPRGenome editingHeterologousPlasmidEffectorComputational biologyCas9GenomeGeneticsCascadeSynthetic biologyDNAGeneCell biologyChemistryChromatographyCRISPR and Genetic EngineeringBacterial Genetics and BiotechnologyAdvanced biosensing and bioanalysis techniques