Two cyanobacterial response regulators with diguanylate cyclase activity, Rre2 and Rre8, participate in biofilm formation

Abstract

AbstractPhototrophic bacteria face diurnal variations of environmental conditions such as light and osmolarity that affect their carbon metabolism and ability to generate organic compounds. The model cyanobacterium, Synechocystis sp. PCC 6803 forms a biofilm when it encounters extreme conditions like high salt stress, but the molecular mechanisms involved in perception of environmental changes that lead to biofilm formation are unknown. Here, we studied two two‐component regulatory systems (TCSs) that contain diguanylate cyclases (DGCs), which produce the second messenger c‐di‐GMP, as potential components of the biofilm‐inducing signaling pathway in Synechocystis. Analysis of single mutants provided evidence for involvement of the response regulators, Rre2 and Rre8 in biofilm formation. A bacterial two‐hybrid assay showed that Rre2 and Rre8 each formed a TCS with a specific histidine kinase, Hik12 and Hik14, respectively. The in vitro assay showed that Rre2 had DGC activity regardless of its de/phosphorylation status, whereas Rre8 required phosphorylation for DGC activity. Hik14‐Rre8 likely functioned as an inducible sensing system in response to environmental change. Biofilm assays with Synechocystis mutants suggested that pairs of hik12‐rre2 and hik14‐rre8 responded to high salinity‐induced biofilm formation. Inactivation of hik12‐rre2 and hik14‐rre8 did not affect the performance of the light reactions of photosynthesis. These data suggest that Hik12‐Rre2 and Hik14‐Rre8 participate in biofilm formation in Synechocystis by regulating c‐di‐GMP production via the DGC activity of Rre2 and Rre8.