These plasmids were introduced into the mobilizer strain E coli

These plasmids were introduced into the mobilizer strain E. coli S17-1 and transferred to PAO1 or ΔpqsH using conjugation to yield pqsE-xylE, Akt activity ΔpqsH pqsE-xylE and pqsH-xylE strains, as reported earlier (Maseda et al., 2004; Tashiro et al., 2008; Yawata et al., 2008). The insertion of the xylE cassette downstream of the chromosomal pqsE gene or pqsH gene was confirmed by PCR analysis. The activity of the xylE gene product catechol 2,3-dioxygenase (C23O) was measured as described earlier (Toyofuku et al., 2007). The A375 nm was recorded at 30 °C. Specific

activity was defined as the nanomoles of product formed per minute per milligram of protein (nmol min−1 mg−1 protein). Lysis of B. subtilis was examined on a Petri dish using a previously described method (Park et al., 2005). Briefly, LB plates were overlaid with 0.8% top agar containing 105–106 cells mL−1B. subtilis stationary cultures and dried for 1 h. The sterile bottomless stainless-steel cylinders (6.0 mm internal diameter, 8.0 mm outer

diameter, 10.0 mm height) were carefully placed on the agar and 5 μL of P. aeruginosa stationary cultures were spotted in a cylinder to prevent their swarming motilities. Plates were incubated at 30 °C for 24 h. At first, we examined the effect of indole on P. aeruginosa PAO1. PAO1 was cultured aerobically in LB medium in the absence or the presence of indole (0.5, 5, 50 and 500 μM and 5 mM). The growth EGFR inhibitor was notably inhibited with 5 mM, whereas the growth curve did not change significantly when indole at or <500 μM was added (Fig. 2a), suggesting that 500 μM indole is not toxic to P. aeruginosa PAO1. This concentration is similar to the extracellular concentration in the supernatant of E. coli grown in a rich medium (Wang et al., 2001). To investigate the effect of exogenous

indole on MV production, quantities of MVs in the supernatants were measured. Indole inhibited MV production in a dose-dependent manner, with 50 μM indole leading to a 52% decrease Suplatast tosilate in MVs and 500 μM indole leading to an 88% reduction of MVs in the supernatants as compared with a control culture (Fig. 2b). In addition to MV production, pyocyanin production was decreased when 500 μM indole was added (data not shown). It is well known that both MV release and pyocyanin synthesis are regulated by PQS (Mashburn & Whiteley, 2005; Xiao et al., 2006). To investigate whether indole inhibits PQS synthesis, the level of PQS in the supernatants was determined by TLC. Indole inhibited PQS synthesis in a dose-dependent manner, with 500 μM indole leading to a 99% reduction in the PQS levels compared with control cultures (Fig. 2c). These data are consistent with recent published studies showing that indole represses PQS and pyocyanin synthesis in P. aeruginosa (Lee et al., 2009). To further investigate the effect of indole on MV production, we examined the MV production of PQS depletion mutant ΔpqsR in the presence and the absence of 500 μM indole and/or 50 μM PQS. As shown in Fig.

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