RtmR is a membrane-embedded RRM-family RNA-binding protein that regulates biofilm formation

The animal symbiont Vibrio fischeri has served as a model organism for molecular processes underlying bacterial group behaviors, including quorum sensing and biofilm development. Here, using a genetic approach to identify negative regulators of biofilm formation in V. fischeri, we identified a membrane-bound RNA-binding protein, RtmR (VF_2432), that acts as an inhibitor of the symbiosis polysaccharide (SYP) biofilm. Membrane localization of the protein seems to be required for protein stability, as truncation of the transmembrane helices led to an inability to detect the protein. The conserved RNP1 and RNP2 motifs in RtmR's cytoplasmic RNA recognition motif (RRM) domain are required for function, and we demonstrate binding to RNA substrates. Identification of RtmR RNA ligands was conducted with a CLIP-seq approach that revealed a large interactome. One transcript identified was that of the biofilm regulatory histidine kinase RscS. We found that RtmR biofilm inhibition depends on RscS activity and that RtmR negatively regulates levels of RscS. Overall, this work characterizes a novel type of bacterial RNA-binding protein. Overall design: iCLIP-Seq (Lee et al. 2021) was conducted with Vibrio fischeri carrying a 3XFLAG tagged allele of gene product VF_2432 (RtmR). Two biological replicates were conducted.