An inducible CRISPRi system for phenotypic analysis of essential genes in Pseudomonas aeruginosa
Jaryd R. Sullivan, Kristina M. Ferrara, Rebecca Barrick, Keith P. Romano, Thulasi Warrier, Deborah T. Hung

TL;DR
A new CRISPRi system allows precise control of essential genes in Pseudomonas aeruginosa, helping to study gene function and antibiotic resistance.
Contribution
A tightly regulated, inducible CRISPRi system for modifiable repression of essential genes in Pseudomonas aeruginosa is developed.
Findings
The CRISPRi system enables tunable repression of 16 essential genes in Pseudomonas aeruginosa.
The system supports pooled mutant libraries for genome-wide analysis of gene vulnerabilities.
Phenotypic analysis reveals novel gene functions and small-molecule mechanisms of action.
Abstract
Precise and tunable genetic tools are essential for high-throughput functional genomics. To address this need in the important gram-negative pathogen Pseudomonas aeruginosa, we developed and characterized a tightly regulated CRISPR-interference (CRISPRi) system that enables precise and tunable repression of essential genes. The system utilizes a rhamnose-inducible promoter to control both the Streptococcus pasteurianus-derived dCas9 and gene-specific sgRNAs, each encoded on separate plasmids for modularity and efficiency. The combination of tight regulation and high conjugation efficiency facilitated the rapid and facile construction of strains with regulated depletion of 16 essential genes spanning diverse pathways. Comparison of phenotypes across the different genetically depleted strains, including growth rate, susceptibility to antibiotics, and changes in transcriptional programs,…
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Taxonomy
TopicsCRISPR and Genetic Engineering · Bacterial Genetics and Biotechnology · Bacterial biofilms and quorum sensing
