In contrast, the growth of YS873 is significantly impaired when the pH of LB is 6.6, with no significant increase in CFU after 6 hours (Figure 7A), whereas when the pH of LB is 7.6, YS873 grows well (Figure 7A). A loss-of-function mutation in zwf allows for YS873 to grow well in LB broth at a pH of 6.6 (Figure 7A). 5% CO2 inhibited the growth of YS873 and YS873 zwf in LB pH 6.6 and selleck products 7.6 (Figure 7B). Although zwf protects against 5% CO2 in LB broth pH 6.6 (Fig 7B), it does not significantly improve survival in the presence of 5% CO2 in LB broth pH 7.6 (Figure
7B), suggesting that an selleck compound acidic pH is a component for zwf to suppress msbB-mediated sensitivity to 5% CO2. Figure 7 zwf suppresses sensitivity to acidic pH in LB broth in air, and to 5% CO 2 in LB broth pH 6.6, but not pH 7.6. Strains were grown in LB broth buffered to pH 6.6, or pH 7.6, in either air (A and C) or 5% CO2 (B and D). β-galactosidase assays confirm cell lysis in LB broth, pH 6.6, in air MAPK Inhibitor Library To test if the loss of growth of YS873 in
LB broth pH 6.6 was the result of cell death or simply the result of inhibition or delay of cell division, β-galactosidase release was measured. As shown in Figure 8A, significant cell lysis occurs after growth of YS873 for 8 hours in LB broth, pH 6.5 but not pH 7.5 (pH shifted slightly [+/-0.1 units] during autoclaving). Furthermore, a loss-of-function mutation in zwf significantly reduces cell lysis of YS873 grown in LB broth pH 6.5. This reduction in cell lysis, as measured by release of the cytoplasmic enzyme β-galactosidase, correlates with increased CFU/ml numbers observed in YS873 zwf (as compared to YS873) grown in LB broth, pH 6.6 (Figure 7A). Figure 8 β-galactosidase release assays confirm cell lysis in LB broth, pH 6.6,
in air; zwf inhibits cell lysis in LB broth, pH 6.6, in air and in LB broth, pH 6.6, but not pH 7.6, in the presence of 5% CO 2 . Release of β-galactosidase C1GALT1 from the cytosol of the bacteria was used to test if the growth defects observed in YS873 and YS873 zwf resulted from cell lysis. Strains grown in LB broth at either pH 6.5, or pH 7.5, under either ambient air (A) or 5% CO2 (B) conditions. zwf reduces YS873 cell lysis in the presence of 5% CO2 in LB broth pH 6.6, but not pH 7.6 Since we observed that YS873 lysed when there was no net growth in LB broth pH 6.5 while maintaining a relatively constant CFU/ml, we investigated if cell lysis occurs in YS873 zwf, which also exhibits little net growth with a relatively constant CFU/ml in the presence of 5% CO2 in LB broth pH 6.6 or 7.5 (Figure 7B). Growth curves for these strains indicated that there was a decrease in CFU/ml when YS873 was grown in LB broth pH 6.6 in the presence of 5% CO2, but that CFU/ml remained relatively constant if a loss-of-function mutation in zwf was present or if the pH of LB broth was 7.