Conservation of Genomic Localization and Sequence Content of Sau3AI-Like Restriction-Modification Gene Cassettes among Listeria monocytogenes Epidemic Clone I and Selected Strains of Serotype 1/2a

Listeria monocytogenes is a food-borne pathogen with a clonal population structure and apparently limited gene flow between strains of different lineages. Strains of epidemic clone I (ECI) have been responsible for numerous outbreaks and invariably have DNA that is resistant to digestion by Sau3AI, suggesting methylation of cytosine at GATC sites. A putative restriction-modification (RM) gene cassette has been identified in the genome of the ECI strain F2365 and all other tested ECI strains but is absent from other strains of the same serotype (4b). Homologous RM cassettes have not been reported among L. monocytogenes isolates of other serotypes. Furthermore, conclusive evidence for the involvement of this RM cassette in the Sau3AI resistance phenotype of ECI strains has been lacking. In this study, we describe a highly conserved RM cassette in certain strains of serotypes 1/2a and 4a that have Sau3AI-resistant DNA. In these strains the RM cassette was in the same genomic location as in the ECI reference strain F2365. The cassette included a gene encoding a putative recombinase, suggesting insertion via site-specific recombination. Deletion of the RM cassette in the ECI strain F2365 and the serotype 1/2a strain A7 rendered the DNA of both strains susceptible to Sau3AI digestion, providing conclusive evidence that the cassette includes a gene required for methylation of cytosine at GATC sites in both strains. The findings suggest that, in addition to its presence in ECI strains, this RM cassette and the accompanying genomic DNA methylation is also encountered among selected strains of other lineages.Listeria monocytogenes is a Gram-positive, facultative intracellular food-borne pathogen capable of causing severe disease (listeriosis) in animals and humans. Listeriosis most often affects pregnant women and their fetuses, neonates, the elderly, and immunocompromised individuals. The disease is predominantly transmitted via the consumption of contaminated foods and has a ca. 20% fatality rate (12, 27). Application of numerous genotyping methods has consistently shown that the organism has a clonal population structure with three major phylogenetic lineages: lineage I consists of strains of serotypes 1/2b, 3b, and 4b, while those of serotypes 1/2a, 1/2c, 3a, and 3c are clustered in lineage II; strains of serotypes 4a and 4c, along with certain serotype 4b strains, constitute lineage III (37, 38).Most epidemics of human listeriosis have involved a small number of closely related strains (epidemic clones), predominantly of serotype 4b (7, 35). The earliest identified clone, epidemic clone I (ECI), has been responsible for several major outbreaks in Europe and North America. In addition, strains of this clonal group are frequently encountered in sporadic illness (10, 28, 29). ECI strains have also been found to comprise a significant portion of the serotype 4b strains from foods and from the environments of food processing plants (10, 11, 40).Genomic DNA of ECI strains has been long known to resist digestion with Sau3AI, suggesting methylation of cytosine at GATC sites (41). Genome sequencing of the ECI strain F2365, implicated in the 1985 California outbreak of listeriosis, revealed a putative restriction-modification (RM) gene cassette with specificity for GATC sites (25). This RM cassette was harbored by all tested serotype 4b strains with Sau3AI-resistant DNA and was absent from those with DNA that could be digested with Sau3AI (40). These findings were in agreement with previous evidence that a fragment of the putative methyltransferase gene was specific to ECI and absent from other strains (14).In spite of extensive documentation for the presence of this putative RM cassette in ECI strains, and its apparent absence among other serotype 4b strains, limited information is available about the possible presence of the cassette among other lineages of L. monocytogenes. Furthermore, conclusive evidence for involvement of the cassette in the resistance of the DNA of ECI strains to Sau3AI digestion has been lacking. In this study, we investigated a panel of food-derived serotype 1/2a strains with Sau3AI-resistant DNA and characterized the genetic content and genomic localization of the RM cassette harbored by these strains. Furthermore, we employed deletion mutagenesis to assess the involvement of the RM cassette in Sau3AI resistance of the DNA of the ECI strain F2365, as well as of a serotype 1/2a strain harboring the cassette.