Conserved genomic sequences distinctive of Staphylococcus aureus phage types 3A, 11, 77, 187 and Twort, representative of phage serogroups A, B, F, L and D, were identified and characterized. PCR primers designed for the above sequences were used for development of a multiplex PCR assay which enabled us not only to classify all phages of the International Typing Set plus 16 additional phages, but also to detect prophages in S. aureus genomes. One to four different prophages were unambiguously detected in experimentally lysogenized S. aureus strains, and substantial variation in prophage content was found in 176 S. aureus clinical strains of different provenance. In addition, by using a comparative genomics approach, all the prophages in the S. aureus genomes sequenced to date could be revealed and classified.
Ninety-five percent of 782 culture collection strains, as well as hospital strains of Staphylococcus aureus subsp. aureus of different provenance and 43% of 89 culture collection strains of different coagulase-negative species of the genus Staphylococcus, were found to be sensitive to the polyvalent phage phi 812 or to at least one of its host-range mutants or to the polyvalent phages SK311, phi 131, and U16. Thus sensitivity to the polyvalent staphylococcal phages seems to be one of the common features of S. aureus subsp. aureus strains. The adsorption kinetics and one-step growth characteristics of the phages phi 812 and SK311 were estimated. Restriction genomic maps of the phages phi 812 (146.5 kb) and SK311 (141.1 kb) were constructed by use of the restriction endonucleases AvaII, PstI, KpnI, SacI, SmaI, and XhoI. The host-range mutations of the phage phi 812 were localized on this map. Comparison of restriction patterns of the phages phi 812 and SK311 with those of the polyvalent phages U16 and phi 131 suggests that all these phages are closely related. Their genomes differ from each other mostly by some deletions, insertions (1-3 kb), or inversions. Evidence was given that the phage phi 812 together with SK311, phi 131, and U16 belongs in the phage species Twort, the description of which is substantially supplemented with the data on the phage phi 812 reported in this paper.
The epidemic community-associated methicillin-resistant clone Staphylococcus aureus USA300 is a major source of skin and soft tissue infections and involves strains with a diverse set of resistance genes. In this study, we report efficient transduction of penicillinase and tetracycline resistance plasmids by bacteriophages φ80α and φJB between clinical isolates belonging to the USA300 clone. High transduction frequencies (10(-5) - 10(-6) CFU/PFU) were observed using phages propagated on donor strains as well as prophages induced from donors by ultraviolet light. Quantitative real-time PCR was employed to detect penicillinase plasmids in transducing phage particles and determine the ratio of transducing particles in phage lysates to infectious phage particles (determined as approximately 1 : 1700). Successful transfer of plasmids between strains in USA300 clone proves transduction is an effective mechanism for spreading plasmids within the clone. Such events contribute to its evolution and to emergence of new multiple drug-resistant strains of this successful clone.
Given the great biological importance and high diversity of temperate Staphylococcus aureus bacteriophages, a method is needed for the description of their genomic structure. Here we have updated a multiplex PCR strategy for the complex characterization of S. aureus phages of the family Siphoviridae. Based on the comparative genomic analysis of the available phage sequences, a multilocus PCR strategy for typing the major modules of the phage genome was designed. The genomic modules were classified on the basis of the genes for integrase (10 types), anti-repressor (five types), replication proteins polA, dnaC and dnaD (four types), dUTPase (four types), portal protein (eight types), tail appendices (four types) and endolysin (four types) corresponding to the integrase locus, lysogeny control region, and modules for DNA replication, transcription regulation, packaging, tail appendices and lysis respectively. The nine PCR assays designed for the above sequences were shown to be capable to identify the bacteriophage gene pool present both in the phage and bacterial genomes and their extensive mosaic structure. The established multiplex PCR-based multilocus diagnostic scheme is convenient for rapid and reliable phage and prophage classification and for the study of bacteriophage evolution.
Staphylococcus aureus is a serious human and veterinary pathogen in which new strains with increasing virulence and antimicrobial resistance occur due to acquiring new genes by horizontal transfer. It is generally accepted that temperate bacteriophages play a major role in gene transfer. In this study, we proved the presence of various bacterial genes of the S. aureus COL strain directly within the phage particles via qPCR and quantified their packaging frequency. Non-parametric statistical analysis showed that transducing bacteriophages φ11, φ80 and φ80α of serogroup B, in contrast to serogroup A bacteriophage φ81, efficiently package selected chromosomal genes localized in 4 various loci of the chromosome and 8 genes carried on variable elements, such as staphylococcal cassette chromosome SCCmec, staphylococcal pathogenicity island SaPI1, genomic islands vSaα and vSaβ, and plasmids with various frequency. Bacterial gene copy number per ng of DNA isolated from phage particles ranged between 1.05 × 10(2) for the tetK plasmid gene and 3.86 × 10(5) for the SaPI1 integrase gene. The new and crucial finding that serogroup B bacteriophages can package concurrently ccrA1 (1.16 × 10(4)) and mecA (1.26 × 10(4)) located at SCCmec type I into their capsids indicates that generalized transduction plays an important role in the evolution and emergence of new methicillin-resistant clones.
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