subsp. , a generalist pathogen with unique virulence factors and high genetic diversity.

subsp. causes vibriosis in a variety of marine animals, including fish species of importance in aquaculture. It also may cause wound infections in humans that can progress into a fatal outcome. Two major virulence factors are encoded within the large conjugative plasmid pPHDD1: the phospholipase-D damselysin (Dly) and the pore-forming toxin Phobalysin P (PhlyP). The two toxins exert hemolytic and cytolytic activity in a synergistic manner. Albeit PhlyP has close homologues in many species, it has unique features that differentiate it from related toxins. Dly phospholipase constitutes a singular trait of subsp. among the , although related toxins are found in members of the Fish farm outbreaks can also be caused by plasmidless strains. Such observation led to the characterization of two ubiquitous, chromosome-encoded toxins with lesser cytolytic activity: the pore forming-toxin Phobalysin C (PhlyC) and the phospholipase-hemolysin PlpV. Special attention deserves the high genetic diversity of this pathogen, with a number of strain-specific features including the cell envelope polysaccharide synthesis clusters. Fish outbreaks are likely caused by multiclonal populations which contain both plasmidless and pPHDD1-harbouring isolates, and not by well-adapted clonal complexes. Still, among such a genetic heterogeneity, it is feasible to identify conserved weak points in the biology of this bacterium: the two-component regulatory system RstAB (CarSR) was found to be necessary for maximal production of virulence factors and its inactivation severely impaired virulence.