Journal Article


Cormac G M Gahan
Colin Hill
Rosemarie Rea



mice drug effects repressor proteins gene deletion bacillus subtilis dna bacterial bacterial proteins listeriosis listeria monocytogenes genetics mutagenesis phenotype growth development pathogenicity transcription factors peroxide repressor proteins virulence pharmacology hydrogen peroxide kinetics dna primers base sequence microbiology consensus sequence animals

Listeria monocytogenes PerR mutants display a small-colony phenotype, increased sensitivity to hydrogen peroxide, and significantly reduced murine virulence. (2005)

Abstract Deletion of perR in Listeria monocytogenes results in a small-colony phenotype (DeltaperRsm) that is slow growing and exhibits increased sensitivity to H2O2. At a relatively high frequency, large-colony variants (DeltaperRlg) arise, which are more resistant to H2O2 than the wild-type and ultimately dominate the culture. Transcriptional analysis revealed that the kat gene (catalase) is up-regulated in both types of mutants and that the highest level is apparent in DeltaperRsm mutants, demonstrating PerR regulation of this gene. Overexpression of the catalase gene in the wild-type background resulted in a slower-growing strain with a smaller colony size similar to that of DeltaperRsm. By combining a bioinformatic approach with experimental evidence, other PerR-regulated genes were identified, including fur, lmo0641, fri, lmo1604, hemA, and trxB. The transcriptional profile of these genes in both mutant backgrounds was similar to that of catalase in that a higher level of expression was observed in DeltaperRsm than in the wild type or DeltaperRlg. Murine studies revealed that the virulence potential of the DeltaperRsm mutant is substantially reduced compared to that of the wild-type and DeltaperRlg strains. Collectively, the data demonstrate that the DeltaperRsm mutant represents the true phenotype associated with the absence of PerR, which is linked to overexpression of regulated genes that negatively affect bacterial homeostasis both in vitro and in vivo. A subsequent secondary mutation occurred at a high frequency, which resulted in phenotypic reversion to a large-colony phenotype with increased fitness that may have obstructed the analysis of the role of PerR in the physiology of the bacterial cell.
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Full list of authors on original publication

Cormac G M Gahan, Colin Hill, Rosemarie Rea

Experts in our system

Cormac G M Gahan
University College Cork
Total Publications: 109
Colin Hill
University College Cork
Total Publications: 351