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Role of mutS and mutL Genes in Hypermutability and Recombination in Staphylococcus aureus

Service de Microbiologie and EA 2128 Relations hôte et microorganismes des épithéliums, Hôpital Côte de Nacre, Université de Caen, 14033 Caen cedex, France

Received 8 December 2004/ Accepted 11 February 2005

The mutator phenotype has been linked in several bacterial genera to a defect in the methyl-mismatch repair system, in which the major components are MutS and MutL. This system is involved both in mismatch repair and in prevention of recombination between homeologous fragments in Escherichia coli and has been shown to play an important role in the adaptation of bacterial populations in changing and stressful environments. In this report we describe the molecular analysis of the mutS and mutL genes of Staphylococcus aureus. A genetic analysis of the mutSL region was performed in S. aureus RN4220. Reverse transcriptase PCR experiments confirmed the operon structure already reported in other gram-positive organisms. Insertional inactivation of mutS and mutL genes and complementation showed the role of both genes in hypermutability in this species. We also designed an in vitro model to study the role of MutS and MutL in homeologous recombination in S. aureus. For this purpose, we constructed a bank of S. aureus RN4220 and mutS and mutL mutants containing the integrative thermosensitive vector pBT1 in which fragments with various levels of identity (74% to 100%) to the S. aureus sodA gene were cloned. MutS and MutL proteins seemed to have a limited effect on the control of homeologous recombination. Sequence of mutS and mutL genes was analyzed in 11 hypermutable S. aureus clinical isolates. In four of five isolates with mutated or deleted mutS or mutL genes, a relationship between alterations and mutator phenotypes could be established by negative complementation of the mutS or mutL mutants.

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