35 ± 0.42 μmol/g) and post- (7.50 ± 0.16 μmol/g) azide addition were significantly

different (P < 0.0001), consistent with efflux subsequently inhibited by azide. This observation suggests the activity of another phenanthrene efflux pump(s) present and active at 10°C but not at 28°C. A second efflux pump expressed or active at low temperature would also explain why cLP6a cells grown at 10°C accumulated www.selleckchem.com/products/dorsomorphin-2hcl.html the lowest measured concentration of cell-associated phenanthrene prior to azide addition (Figure 2a): this could result from the combined activity of EmhB plus the postulated alternate efflux pump at the low temperature. The difference in cell phenanthrene concentration in selleck chemical the presence and absence of efflux in cLP6a grown at 10°C (6.18 ± 0.002 μmol/g) was significantly greater (P < 0.002) than in cLP6a cells grown at 28°C

(5.46 ± 0.03 μmol/g). Because a putative pump was likely induced at 10°C in addition to EmhB (Figure 2b), the actual difference in cell pellet phenanthrene concentration due to the activity of EmhB in strain cLP6a grown at this temperature (3.01 ± 0.07 μmol/g) was significantly lower (P < 0.001) than in cells grown at 28°C. Similarly the difference in phenanthrene concentrations for strain cLP6a grown at 35°C (2.07 ± 0.06 μmol/g) was less than in cells grown at 28°C. These results indicate that the activity of EmhB was reduced due to sub- or supra optimal Avapritinib concentration Incubation temperature.

Therefore incubation temperature affects phenanthrene efflux by the EmhB efflux pump. Incubation temperature affects sensitivity to antibiotics The effect of incubation temperature Ketotifen on antibiotic efflux by EmhABC was investigated to confirm the phenanthrene efflux assays. The sensitivity of cLP6a and cLP6a-1 cells grown at 10°C, 28°C or 35°C to various antibiotics was measured indirectly as MICs to test the effect of temperature on efflux of known antibiotic substrates of the EmhABC pump [18, 19]. As expected, the emhB mutant strain (cLP6a-1) was more sensitive to such antibiotics than strain cLP6a grown at a comparable incubation temperature (Table 2), exhibiting a ≥ 16-fold difference in MIC for chloramphenicol, nalidixic acid and tetracycline, and a 4- to 8-fold difference for erythromycin. Both strains showed similar sensitivity to ampicillin, which is not a substrate of EmhABC [18, 19]. Smaller differences in MIC values (<8-fold, or no difference) were observed within a single strain incubated at different temperatures for some antibiotics. Table 2 Antibiotic sensitivity of P. fluorescens strains cLP6a and cLP6a-1 incubated at different temperatures     MIC (μg ml-1) * P. fluorescens strain Growth temperature AMP CHL ERY NAL TET cLP6a 10°C 512 64 128 32 2   28°C 512 32 128 32 2   35°C 256 8 64 32 1 cLP6a-1 10°C 512 4 32 2 0.125   28°C 512 1 8 <1 0.125   35°C 512 <0.5 8 <1 <0.