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Multiplex CRISPRi System Enables the Study of Stage-Specific Biofilm Genetic Requirements in Enterococcus faecalis

Irina Afonina, June C. Ong, Jerome Chua, Timothy K. Lu, Kimberly A. Kline

2020mBio36 citationsDOIOpen Access PDF

Abstract

Enterococcus faecalis causes multidrug-resistant life-threatening infections and is often coisolated with other pathogenic bacteria from polymicrobial biofilm-associated infections. Genetic tools to dissect complex interactions in mixed microbial communities are largely limited to transposon mutagenesis and traditional time- and labor-intensive allelic-exchange methods. Built upon streptococcal dCas9, we developed an easily modifiable, inducible CRISPRi system for E. faecalis that can efficiently silence single and multiple genes. This system can silence genes involved in biofilm formation and antibiotic resistance and can be used to interrogate gene essentiality. Uniquely, this tool is optimized to study genes important for biofilm initiation, maturation, and maintenance and can be used to perturb preformed biofilms. This system will be valuable to rapidly and efficiently investigate a wide range of aspects of complex enterococcal biology.

Topics & Concepts

Enterococcus faecalisBiofilmBiologyTransposable elementGeneTransposon mutagenesisMicrobiologyMicrobial geneticsComputational biologyMutagenesisGeneticsBacteriaMutationMutantEscherichia coliCRISPR and Genetic EngineeringBacterial biofilms and quorum sensingBacterial Genetics and Biotechnology