The same protocol was followed for strains BCBHV017 and BCBRP002 but the incubation was performed with the membrane dye FM 5–95 (1 μg/ml, Invitrogen) and with the DNA
dye Hoechst 33342 (1 μg/ml, Invitrogen). The cultures were then centrifuged, re-suspended in PBS and 1 μl was placed on a thin layer of 1.2% agarose in PBS. Fluorescence microscopy was performed using a Zeiss Axio Observer.Z1 microscope equipped with a Photometrics CoolSNAP HQ2 camera (Roper Scientific), using Metamorph software (Molecular devices). Analysis of fluorescence images was performed using Metamorph and ImageJ Metabolism inhibitor software. Determination of mitomycin C minimum inhibitory concentration (MIC) Determination of the MIC to mitomycin C of 8325-4recUi and BCBHV008 strains was performed in liquid medium by micro-dilution. Overnight
cultures containing IPTG and chloramphenicol were washed three times with fresh TSB and added at a final cell density of 5×105 CFU/ml to wells containing 2-fold dilutions of mitomycin C in TSB supplemented or not with 0.5 mM IPTG. The 96-well plates were incubated for 24 hours at 37°C and the MIC was recorded as the lowest concentration of mitomycin C that inhibited bacterial growth. All MIC determinations were performed in triplicate. UV survival assays PRIMA-1MET mw BCBHV008 and 8325-4recUi strains were incubated overnight at 37°C with aeration, in TSB supplemented with chloramphenicol and IPTG. These cultures were washed three times with learn more TSB and then diluted 1/500 into fresh TSB, supplemented or not with IPTG and incubated at 37°C until O.D600nm 0.5. Serial dilutions (100 to 10-6) were made in TSB and 10 μl of each dilution was spotted on TSA plates containing chloramphenicol and supplemented or not with IPTG. Plates were then irradiated with UV light (Vilber Lourmat, VL-6.LC model, 254 nm) at a dose of 4 J/m2
for 0, 10, 20, 30, 40 and 60 seconds and incubated overnight at 37°C in the dark. CFUs were counted and the fraction surviving was determined with reference to an unirradiated control plate. Results S. aureus RecU is required for optimal Selleckchem VX-661 Growth In order to functionally characterize the RecU homologue in S. aureus we deleted the 5’ region of the recU gene (encoding the first 165 amino acids) in the background of NCTC8325-4 generating strain 8325-4ΔrecU. The recU gene is encoded upstream of pbp2, in the same operon (Figure 1A). This operon contains two promoters, one upstream of recU (P1) and the other contained within the recU coding sequence (P2) [19]. In order not to affect pbp2 expression in the recU mutant, the last 43 recU codons (which contain P2) were not deleted. Growth analysis of the 8325-4ΔrecU strain indicated that RecU is not essential, but it is required for optimal growth of S.