Cultures were then diluted 1 : 100 with LB broth containing 10%

Cultures were then diluted 1 : 100 with LB broth containing 1.0% NaCl with or without 5 mM CaCl2 and grown with shaking at 37 °C for 3 h. After incubation, bacterial cultures were centrifuged and the bacterial pellets were solubilized with SDS sample buffer [50 mM Tris (pH 6.8), 2% SDS, 0.6% 2-mercaptoethanol, 10% glycerol,

1% bromophenol blue]. Secreted proteins were harvested by precipitation with cold trichloroacetic acid to a final concentration of 10% v/v on ice for 1 h, ABT-263 clinical trial followed by centrifugation at 48 000 g for 1 h. The pellets were rinsed in cold acetone and then solubilized in the SDS sample buffer. Samples for Western blot analysis were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The transferred membrane was blocked with 5% skimmed milk in Tris-buffered saline [20 mM Tris, 137 mM NaCl (pH 7.6)] containing 0.05% Tween 20 and probed with anti-VscC1, anti-VopD1 (Park et al., 2004), anti-VepA (VP1680) (Akeda et al., 2009), anti-ExsE and anti-TDH polyclonal antibodies diluted 1 : 10 000 in Can Get Signal Solution 1 (Toyobo) (Hiyoshi et al., 2010) and were then probed with horseradish peroxidase-conjugated goat anti-rabbit antibody (Zymed) diluted 1 : 10 000 in Can Get Signal Solution 2 (Toyobo). The blots were developed using an ECL Western blotting kit (Amersham). Vibrio parahaemolyticus strains harboring

a reporter plasmid containing the V. parahaemolyticus exsA promoter region (from −620 to +150 bp) were grown for 1 h at 37 °C in LB broth containing 1.0% NaCl. β-Galactosidase activity was assayed in Omipalisib cost cell lysates by the method of Miller (1972) using o-nitrophenyl-β-d-galactopyranoside as a substrate. As mentioned above,

there were no predicted CDS in the V. parahaemolyticus genome that corresponded to P. aeruginosa exsE. However, Farnesyltransferase we observed that a hypothetical CDS (VP1702) was encoded at the terminus region of the T3SS1 gene cluster, which contains several CDSs homologous to P. aeruginosa ExsA, ExsD and ExsC proteins (Fig. 1a). Therefore, we first constructed gene deletion mutant strains Δvp1701 (ΔexsC) and Δvp1702 in addition to ΔexsA (Δvp1699) and ΔexsD (Δvp1698) and determined the effect of gene deletion on the production of the T3SS1-related proteins (VscC1; an outer-membrane component of the type III protein secretion machinery and VepA; a T3SS1-specific effector protein involved in T3SS1-dependent cytotoxicity) (Akeda et al., 2009; Kodama et al., 2010). As reported previously, deletion of exsA (vp1699) reduced the level of VscC1 in bacterial pellets and the level of VepA in both bacterial pellets and the supernatant, whereas production of these proteins was clearly induced in the exsD (vp1698) mutant (Fig. 1b). As expected, the Δvp1701 mutant did not produce VscC1 or VepA.

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