Transduction of Methicillin Resistance in
            <i>Staphylococcus aureus</i>
            Dependent on an Unusual Specificity of the Recipient Strain

Cohen, Sidney; Sweeney, Helen M.

doi:10.1128/jb.104.3.1158-1167.1970

Cited by 69 publications

(53 citation statements)

References 27 publications

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“…Transfer of the SCCmec element via bacteriophages has not yet been proven, it is hypothesized that in particular the elements of size smaller than the S. aureus siphophage genome (45 kb), such as the SCCmec type I or type IV elements, can be transferred via generalized transduction. Experimental evidence for phage-mediated transduction of methicillin resistance by bacteriophages j80 and j53 from different naturally occurring MRSA strains to strain 8325 variants with low frequencies, which depended on the selected transducing systems had been described by Cohen and Sweeney (1970). Later, it was shown that this transduction is efficient only in recipient strains with a penicillinase plasmid (Cohen and Sweeney, 1973;Stewart and Rosenblum, 1980).…”

Section: Gene Locationmentioning

confidence: 99%

Bacteriophages of Staphylococcus aureus efficiently package various bacterial genes and mobile genetic elements including SCCmec with different frequencies

Mašlaňová

Doškař

Varga

et al. 2012

Environ Microbiol Rep

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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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Section: Gene Locationmentioning

confidence: 99%

Bacteriophages of Staphylococcus aureus efficiently package various bacterial genes and mobile genetic elements including SCCmec with different frequencies

Mašlaňová

Doškař

Varga

et al. 2012

Environ Microbiol Rep

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show abstract

“…The genetic locus of methicillin resistance is still uncertain. Transduction experiments with our strains have shown no linkage of this determinant with penicillinase plasmids (8). However, other workers, using different strains, have reported some co-transduction of methicillin resistance and penicillinase plasmids and have suggested that methicillin resistance may be plasmid-mediated (9,10).…”

mentioning

confidence: 51%

“…Organisms. The nomenclature and the designations of most of the organisms employed have been described (8,25). The methicillin-resistant S. aureus strain Dumas, originally described by Dornbusch et al (10), was obtained from S. J. Seligman.…”

Section: Methodsmentioning

confidence: 99%

Phenotypic Suppression of Methicillin Resistance in Staphylococcus aureus by Mutant Noninducible Penicillinase Plasmids

1972

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Methicillin (intrinsic) resistance of Staphylococcus aureus was suppressed almost completely by regulatory gene (penIl) mutations of penicillinase plasmids that made penicillinase production strictly noninducible. Methicillin resistance was restored by secondary regulatory gene mutations that altered the noninducible phenotype or by complementation with a compatible plasmid that did not bear the noninducible mutation. No evidence was obtained for genetic linkage between a penicillinase plasmid and the gene for methicillin resistance. We suggest, therefore, that the mutant noninducible repressor acted in trans by binding to a site on the methicillin resistance determinant. This hypothesis would imply an appreciable degree of homology between penicillinase plasmids and methicillin resistance genes. 682 on July 16, 2020 by guest

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“…We were also unable to transduce the mth marker into strains 62, 108, or 247. Cohen and Sweeney (6) have observed that transduction of mth is more likely to occur in S. aureus if the recipient strains contain penicillinase plasmids. For this reason, we tried to transduce mth into an additional 12 S. epidermidis strains which were penicillinase producers, although it was not known if these resistances were due to chromosomal or plasmid genes.…”

mentioning

confidence: 99%

Transduction and Plasmid Deoxyribonucleic Acid Analysis in a Multiply Antibiotic-Resistant Strain of Staphylococcus epidermidis

Rosendorf

Kayser

1974

J Bacteriol

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A genetic analysis of a multiply antibiotic-resistant strain of Staphylococcus epidermidis was performed. Experiments designed to show reversion of organisms to antibiotic susceptibility, as well as studies of the influence of ultraviolet irradiation of phage on the transduction frequencies of the resistance markers, indicated that determinants of chloramphenicol (cml), tetracycline (tet), and neomycin (neo) resistance are present on separate plasmids, but the streptomycin marker is chromosomal. In 2 to 6% of tetracycline-resistant transductants, co-transduction of cml was also observed. By using CsCl-dye density gradients followed by neutral sucrose gradients, the plasmids carrying cml, tet, and neo could be isolated and their molecular weights could be determined. The tetracycline plasmid is shown to be incompatible with one of the cryptic plasmids of a recipient strain.

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Transduction of Methicillin Resistance in Staphylococcus aureus Dependent on an Unusual Specificity of the Recipient Strain

Cited by 69 publications

References 27 publications

Bacteriophages of Staphylococcus aureus efficiently package various bacterial genes and mobile genetic elements including SCCmec with different frequencies

Bacteriophages of Staphylococcus aureus efficiently package various bacterial genes and mobile genetic elements including SCCmec with different frequencies

Phenotypic Suppression of Methicillin Resistance in Staphylococcus aureus by Mutant Noninducible Penicillinase Plasmids

Transduction and Plasmid Deoxyribonucleic Acid Analysis in a Multiply Antibiotic-Resistant Strain of Staphylococcus epidermidis

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