Repurposing the Streptococcus mutans CRISPR-Cas9 System to Understand Essential Gene Function.
Robert C ShieldsAlejandro Riveros WalkerNatalie MaricicBrinta ChakrabortySimon A M UnderhillRobert A BurnePublished in: PLoS pathogens (2020)
A recent genome-wide screen identified ~300 essential or growth-supporting genes in the dental caries pathogen Streptococcus mutans. To be able to study these genes, we built a CRISPR interference tool around the Cas9 nuclease (Cas9Smu) encoded in the S. mutans UA159 genome. Using a xylose-inducible dead Cas9Smu with a constitutively active single-guide RNA (sgRNA), we observed titratable repression of GFP fluorescence that compared favorably to that of Streptococcus pyogenes dCas9 (Cas9Spy). We then investigated sgRNA specificity and proto-spacer adjacent motif (PAM) requirements. Interference by sgRNAs did not occur with double or triple base-pair mutations, or if single base-pair mutations were in the 3' end of the sgRNA. Bioinformatic analysis of >450 S. mutans genomes allied with in vivo assays revealed a similar PAM recognition sequence as Cas9Spy. Next, we created a comprehensive library of sgRNA plasmids that were directed at essential and growth-supporting genes. We discovered growth defects for 77% of the CRISPRi strains expressing sgRNAs. Phenotypes of CRISPRi strains, across several biological pathways, were assessed using fluorescence microscopy. A variety of cell structure anomalies were observed, including segregational instability of the chromosome, enlarged cells, and ovococci-to-rod shape transitions. CRISPRi was also employed to observe how silencing of cell wall glycopolysaccharide biosynthesis (rhamnose-glucose polysaccharide, RGP) affected both cell division and pathogenesis in a wax worm model. The CRISPRi tool and sgRNA library are valuable resources for characterizing essential genes in S. mutans, some of which could prove to be promising therapeutic targets.
Keyphrases
- crispr cas
- genome wide
- candida albicans
- genome editing
- biofilm formation
- escherichia coli
- dna methylation
- pseudomonas aeruginosa
- cell wall
- copy number
- single cell
- staphylococcus aureus
- genome wide identification
- high throughput
- bioinformatics analysis
- single molecule
- induced apoptosis
- genome wide analysis
- metabolic syndrome
- cell therapy
- signaling pathway
- high resolution
- mesenchymal stem cells
- cell death
- energy transfer
- multidrug resistant
- blood glucose
- skeletal muscle
- klebsiella pneumoniae
- high speed
- stem cells
- nucleic acid
- optical coherence tomography
- dna binding
- cell proliferation