PT - JOURNAL ARTICLE AU - Lisa C. Metzger AU - NoƩmie Matthey AU - Candice Stoudmann AU - Esther J. Collas AU - Melanie Blokesch TI - Conserved type VI secretion regulation in diverse <em>Vibrio</em> species by the regulatory proteins TfoX and TfoY AID - 10.1101/466458 DP - 2018 Jan 01 TA - bioRxiv PG - 466458 4099 - http://biorxiv.org/content/early/2018/11/08/466458.short 4100 - http://biorxiv.org/content/early/2018/11/08/466458.full AB - Bacteria of the genus Vibrio are common members of aquatic environments where they compete with other prokaryotes and defend themselves against grazing predators. A macromolecular protein complex called the type VI secretion system (T6SS) is used for both purposes. Previous research showed that the sole T6SS of the human pathogen V. cholerae is induced by extracellular (chitin) or intracellular (low c-di-GMP levels) cues and that these cues lead to distinctive signalling pathways for which the proteins TfoX and TfoY serve as master regulators. In this study, we tested whether the TfoX- and TfoY-mediated regulation of T6SS was conserved in non-cholera species, and if so, how these regulators affected the production of individual T6SSs in double-armed vibrios. We show that, alongside representative competence genes, TfoX regulates at least one T6SS in all tested Vibrio species. TfoY, on the other hand, fostered motility in all vibrios but had a more versatile T6SS response in that it did not foster T6SS-mediated killing in V. fischeri while it induced both systems in V. alginolyticus. Collectively, our data provide evidence that the TfoX- and TfoY-mediated signalling pathways are mostly conserved in diverse Vibrio species and important for signal-specific T6SS induction.Originality-Significance Statement This work provides new insight into the regulatory circuits involved in type VI secretion in diverse Vibrio species. Specifically, it is the first study to compare the effects of the two regulatory proteins TfoX and TfoY on the primary or secondary type VI secretion systems of non-cholera vibrios. Importantly, this work also shows that decreased c-di-GMP levels in V. parahaemolyticus lead to TfoY production without changing tfoY transcript levels, thereby indirectly linking TfoY production to surface sensing.