Extended incubation time enhances the formation of the

Extended incubation time enhances the formation of the Crenigacestat BLS One condition that may influence the development of the BLS

in the ASM+ is length of incubation. Since the growth of PAO1 in ASM+ appears similar to the macrocolonies reported within the lungs of CF patients with chronic P. aeruginosa infection [21], we inoculated ASM+ with PAO1/pMRP9-1 as described above and incubated the cultures in 20% EO2 at 37°C for up to 16 d. From days 2 to 6, the BLS gradually developed to resemble a complete, mature and well developed biofilm (Figure 2A). Three-dimensional (3-D) images constructed from the CLSM scans clearly show the gradual increase in the size and the thickness of the BLS (Figure 2B). Structural analysis revealed that between 2–3 and 2–6 days, the BLS significantly increased in total biovolume and mean thickness (Tables 1 and 2). In contrast, portions of the BLS that are exposed to nutrients (the surface to biovolume ratio) and roughness coefficient values were significantly reduced (Tables 1 and 2). The total surface Mocetinostat area was significantly (P < 0.0001) decreased between 2–6 days only (Table 1). For the 16-d growth experiments, we maintained the growth of the PAO1 BLS by adding fresh

ASM+ to the media remaining in the wells to maintain the original volume every 4 d to replace volume lost to evaporation. At 16 d, PAO1 BLS appears to be greater than at any time during the course of the experiment (Figure 3). Due to enhanced growth by the replacement of the medium, new microcolonies appear to have developed atop the underlying thick growth (Figure 3). Alternatively, these microcolonies may represent detached segments of the well developed biofilm (Figure 3). Such detachment may occur mechanically and would not represent the well known bacterial dispersion phenomenon. In bacterial dispersion, individual planktonic cells and not biofilm segments are released from the mature biofilm [14]. No biofilm attached G protein-coupled receptor kinase to the surface of the well of the microtiter plate at any time point throughout the experiment (data not shown). These results suggest that dynamic changes within occur PAO1 BLS during growth in ASM+ over

an extended period of time. Figure 2 PAO1 BLS vary structurally over time. Bacterial inoculation and incubation for the development of BLS were done as described in Figure 1, except incubation was continued for 6 d TEW-7197 in vivo without changing the medium. (A) CLSM micrographs of BLS at 2, 3, and 6 d post-inoculation; magnification, 10X; bars, 200.00 nm. (B) The 3-D architecture of the BLS shown in (A). Boxes, 800.00 px W x 600.00 px H; bars, 100 px. Table 2 Significance of differences in values presented in Table 1 Variable a Image stacks (#) b Total biovolume (μm3/μm2) b Mean thickness (μm) b Roughness coefficient b Total surface area × 107(μm2) b Surface to volume ratio (μm2/μm3) b Time (under 20 % EO 2 ) 3d vs. 2d 10 Increase c 0.0002 Increase <0.0001 Decrease <0.

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