A recent study investigated the domain structure of ArcS in S. oneidensis MR-1 and revealed significant differences when compared to E. coli ArcB [21]. It was shown that in the N-terminal part, ArcS possesses a CaChe-sensing domain, two cytoplasmic PAS-sensing and two receiver domains. Due to the expanded sensory region, ArcS of Shewanella species might be able to respond to a wider array of environmental signals and is not selleck kinase inhibitor restricted to changing redox conditions. ArcA has been previously shown to play
a role in biofilm formation in S. oneidensis MR-1. S. oneidensis MR-1 ∆arcA mutants form biofilms with about 70% less biomass on a borosilicate glass surface under hydrodynamic flow conditions and are unable to mature into a highly three-dimensional biofilm structure when compared to wild type [22]. In this study, we investigated physiological and genetic factors involved in the regulation AG-881 manufacturer of the mxd
operon PRIMA-1MET in S. oneidensis MR-1. We found that mxd expression was induced by carbon starvation. The TCS ArcS/ArcA was discovered to constitute a major activator of the mxd genes under biofilm conditions, and to repress mxd expression under planktonic conditions. BarA/UvrY was identified as a major inducer of mxd expression under planktonic conditions and appeared to have a minor role in biofilm formation. Results ∆mxdA and ∆mxdB mutant cells are deficient in cell-cell aggregation when grown planktonically under minimal medium conditions Wild type S. oneidensis MR-1 cells, when grown for 16 h in a liquid minimal medium, formed a thick biofilm ring at the air-liquid interface on the borosilicate surface of a test tube (Figure 1A). Stationary www.selleck.co.jp/products/BafilomycinA1.html phase cultures (OD600~ 3.2) aggregated in a rotating culture test tube and quickly settled to the
bottom of the tube when rotation was arrested for 10 minutes (Figure 1A). We took advantage of this aggregation phenotype and developed a quantitative aggregation assay by calculating the ratio of the optical density, measured at 600 nm, of cells before and after dispersion by rigorously vortexing (Figure 1B). Analyzing wild type and mutants by this assay, we found ∆mxdA and ∆mxdB mutant cultures to be deficient in aggregation (Figure 1). Consistent with this observation, the biomass of biofilms of these strains that formed at the air-liquid interface on the borosilicate glass test tube surface was dramatically reduced relative to wild type. Notably, the described aggregation and adhesion phenotypes were not observed under LB medium conditions. Figure 1 Cell aggregation and biofilm formation of S. oneidensis MR-1 wild type and mutants. (A) Cell aggregation and biofilm formation of S. oneidensis MR-1 wild type and mutants in planktonic culture under minimal medium conditions. See Materials and Methods for details.