The H+ or the Na+ channels that couple the ion flow to flagellar rotation are known as flagellar stators. Two different membrane proteins form the stator, MotA and MotB form the H+ channel and the homologous
proteins PomA and PomB form the Na+ channel. Aeromonas hydrophila has two redundant sets of stator proteins, but one of them is more sensitive to low concentrations of sodium (Wilhelms et al., 2009). The marine bacterium Vibrio shilonii (originally named V. shiloi) has been identified recently (Kushmaro et al., 2001); it was isolated in coastal areas of the Mediterranean and has been proposed as the causative agent of the bleaching disease of the coral Oculina patagonica (Banin et al., 2000; Rosenberg & Falkovitz, 2004; Rosenberg et al., 2009). When this bacterium was isolated, a single-sheathed polar flagellum was identified (Kushmaro find more et al., 1997). In this study, we analyzed the flagella-dependent motility of V. shilonii. Our results show for the first time that V. shilonii produces lateral flagella for swarming. We also show that this bacterium uses sodium-motive force to drive its polar flagellum under conditions that favor swimming.
In addition, eight proteins that conform to the polar flagellum were identified by MS, allowing us to identify the genes involved in the formation of the polar flagellum of this bacterium. All the experiments http://www.selleck.co.jp/products/Etopophos.html were performed with the wild-type strain of Vibrio shilonii ATCC BAA-91 (AK-1). Cells were grown in Marine broth (MB) OSI-744 clinical trial (Difco) at 30 °C with orbital shaking. Alternatively, cells were plated on Petri dishes containing 1.5% agar dissolved in MB at a concentration of 3.7% and incubated for 12 h at 30 °C. For motility assays, a medium consisting of tryptone 1.0%, MgSO4 35 mM, CaCl2 7 mM, KCl 7 mM and NaCl 120 mM, also known as tryptone-based seawater (TBSW) (O’Shea et al., 2005), was used with different agar concentrations. Vibrio shilonii was grown with orbital shaking at 30 °C for 12 h in MB (3.7%). For soft agar motility studies, 20 μL aliquots of approximately
equal numbers of cells were inoculated on Petri dishes containing various soft agar concentrations (0.4%. 0.5%, 0.6% and 0.7%) and incubated as indicated for 12 or 72 h at 30 °C. Soft agar was dissolved in TBSW. Images of the soft agar plates were taken using a Canon Power shot A700 zoom digital camera. Vibrio shilonii cells were grown in a liquid TBSW medium for 12 h at 30 °C with orbital shaking. Twenty microliters from the overnight culture was inoculated on 0.3% and 0.5% soft agar plates with the same growth medium. The swimming plates (0.3% agar) were incubated for 24 h at 30 °C, and for the swarming plates (0.5% agar), incubation was carried out for 72 h at the same temperature.
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