A simple method of markerless gene deletion in Staphylococcus aureus

Staphylococcus aureus is a Gram-positive pathogen that causes opportunistic infections and a wide variety of diseases. Methicillin-resistant S. aureus (MRSA) is frequently isolated as multidrug-resistant in nosocomial and community infections. Molecular genetic manipulation is an important tool for understanding the molecular mechanism of S. aureus infection. However the number of available antibiotic markers is limited due to multidrug resistance. In this study, we constructed two Escherichia coli–S. aureus shuttle vectors, pKFT and pKFC, that carry a temperature-sensitive origin of replication in S. aureus, lacZ(a) enabling a simple blue-white screening in E. coli, an ampicillin resistant gene, and either a tetracycline resistance gene or a chloramphenicol resistance gene. We report a simple technique using pKFT to construct a markerless gene deletion mutant in S. aureus by allelic replacement without the use of a counter-selection marker. Subculture twice at 25 °C was critical to promote an allelic exchange rate in S. aureus. This technique is very simple and useful to facilitate genetic research on S. aureus.

► A temperature-sensitive S. aureus plasmid carrying target site was constructed.
► The plasmid was integrated into the chromosome at the site by temperature shift.
► Plasmid was excised with interested gene by subculture twice at 25˚C.
► The correct gene deletion was checked by PCR.
► This is simple and useful method to construct markerless gene deletion in S. aureus.