2012
DOI: 10.1371/journal.pone.0036995
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CRISPR Typing and Subtyping for Improved Laboratory Surveillance of Salmonella Infections

Abstract: Laboratory surveillance systems for salmonellosis should ideally be based on the rapid serotyping and subtyping of isolates. However, current typing methods are limited in both speed and precision. Using 783 strains and isolates belonging to 130 serotypes, we show here that a new family of DNA repeats named CRISPR (clustered regularly interspaced short palindromic repeats) is highly polymorphic in Salmonella. We found that CRISPR polymorphism was strongly correlated with both serotype and multilocus sequence t… Show more

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Cited by 209 publications
(285 citation statements)
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“…Variations in the numbers and compositions of spacers within different CRISPR alleles result in different-sized CRISPR PCR products. By virtue of this observation, it has been suggested and shown by Weill and colleagues that size determination by simple gel electrophoresis of CRISPR amplicons can provide rapid initial typing of S. Typhimurium isolates (27). This screening approach would be particularly valuable during the midst of an outbreak and in public health laboratories in developing countries where the resources for PFGE or other in-depth subtyping techniques do not exist.…”
Section: Resultsmentioning
confidence: 99%
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“…Variations in the numbers and compositions of spacers within different CRISPR alleles result in different-sized CRISPR PCR products. By virtue of this observation, it has been suggested and shown by Weill and colleagues that size determination by simple gel electrophoresis of CRISPR amplicons can provide rapid initial typing of S. Typhimurium isolates (27). This screening approach would be particularly valuable during the midst of an outbreak and in public health laboratories in developing countries where the resources for PFGE or other in-depth subtyping techniques do not exist.…”
Section: Resultsmentioning
confidence: 99%
“…Due to both acquisition and loss of these spacer elements, CRISPRs arguably represent the most rapidly evolving prokaryotic loci (19)(20)(21). Although originally used for spacer oligonucleotide typing, or spoligotyping, for Mycobacterium tuberculosis (22,23), we and others have successfully exploited CRISPR spacer sequence differences for subtyping several different pathogens, including group A Streptococcus (24), Campylobacter species (25), Salmonella (15,(26)(27)(28), and Shiga toxin-producing Escherichia coli (29,30). In Salmonella, CRISPR spacer compositions are highly conserved at the serovar level, suggesting that CRISPR sequence typing alone may be sufficient to detect, identify, and distinguish serotypes (27).…”
mentioning
confidence: 99%
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“…Consequently, spacer arrays can be used as alternative targets for molecular subtyping and may offer higher strain resolution than MLST and PFGE. Subtyping protocols based on CRISPR-cas systems have been proposed for Salmonella and these have included combined analysis with multi-virulence-locus sequence typing and PFGE [28][29][30]. In contrast, CRISPR typing cannot be used for all E. coli strains as it is absent from the extra intestinal phylogenetic group B2 but can be used for specific identification of enterohemorrhagic and Shiga toxin producing E. coli serotypes [27,31,32].…”
Section: Introductionmentioning
confidence: 99%