harveyi bioassay. AI-2 activity is shown as a relative bioluminescence (corrected by OD600nm of H. pylori) in the presence of H. pylori GSK621 cost culture supernatants over the negative control (Brucella broth alone). A diluted in vitro synthesised AI-2 sample was utilised as a qualitative

positive control [8]. Bioluminescence induced by wild-type, ΔmccB Hp, and ΔmccA Hp strains was significantly greater selleck kinase inhibitor than that induced by the ΔluxS Hp mutant, as determined by paired Student’s t-test (p < 0.001). The lines represent the growth (OD, righthand axis) and the bars represent the AI-2 activity (bioluminescence, lefthand axis). (B) 5 μl of liquid culture (24 h) of the wild-type, ΔluxS Hp, ΔmccB Hp and ΔmccA Hp mutants was seeded on each quarter of a soft agar plate. After 3, 5 and 7 days of incubation, the motility halo of each strain was recorded using a digital camera. All experiments were done in triplicate: a representative experiment is

shown and the mean results are presented in the text. Deletion of luxS Hp abolishes motility while the ΔmccA Hp and ΔmccB Hp mutants remained motile To investigate whether motility of H. pylori Z-IETD-FMK in vivo was affected by cysteine biosynthesis, we first compared the motility of H. pylori wild-type with ΔluxS Hp, ΔmccA Hp and ΔmccB Hp mutants. To do this, a 24 h liquid culture of each strain was spotted onto each quarter of a semi-solid agar plate and incubated for up to 7 days. The resulting motility halo areas were quantified after 3, 5 and 7 days of incubation. Halo areas that surrounded the wild-type, ΔmccA Hp and ΔmccB Hp strains kept increasing during continuous incubation, although the ΔmccA Hp strain was slightly delayed in comparison to the others. After 7 days of culture, the ΔluxS Hp mutant remained almost non-motile and produced a significantly (p < 0.001) reduced motility halo compared to wild-type, ΔmccA Hp and ΔmccB Hp strains in 3 independent Ureohydrolase repeat experiments (Figure. 1B). After 7 days, the wild-type, ΔmccA Hp and ΔmccB Hp mutants produced halos of (mean ± SD) 8.5 ± 0.6 mm,

n = 4; 5.6 ± 0.9 mm, n = 4; and 7.8 ± 0.6 mm, n = 4 increases in diameter, respectively, all significantly greater than the ΔluxS Hp mutant which produced a halo size of 1.1 ± 0.1 mm, n = 4. These results revealed that the reduction in motility was likely a result peculiar to luxS Hp mutation rather than due to disruption of cysteine biosynthesis. Genetic complementation or exogenous AI-2 can restore the motility defect of the ΔluxS Hp mutant, but exogenous cysteine addition cannot To rule out the possibility that second site mutations in the ΔluxS Hp mutant were inhibiting motility, genetic complementation was performed to create the ΔluxS Hp + strain (see Materials and Methods). The non-motile ΔflhB mutant was used as a negative control [24].