Effect of predation on virulence traits of opportunistic pathogens. The project aims to determine if increased fitness of bacteria in animal or human hosts (increased virulence) can occur due to indirect rather than direct selective pressure, particularly pressure on bacteria arising from predation by protozoa. Protozoa feed on many pathogenic bacteria (e.g. those that cause cholera and chronic infections) in the ocean, and warming oceans are predicted to increase predation. Knowing the effect o ....Effect of predation on virulence traits of opportunistic pathogens. The project aims to determine if increased fitness of bacteria in animal or human hosts (increased virulence) can occur due to indirect rather than direct selective pressure, particularly pressure on bacteria arising from predation by protozoa. Protozoa feed on many pathogenic bacteria (e.g. those that cause cholera and chronic infections) in the ocean, and warming oceans are predicted to increase predation. Knowing the effect of warming oceans on marine bacteria and the emergence of virulence in bacteria that are subject to predation in the environment can inform design of tools for monitoring the risk of infection outbreaks. Benefits would be realised by academic researchers, clinicians and policy-makers interested in optimising the tracking of infection threats.Read moreRead less
Importance of Wzx flippase specificity for O-antigen diversity. The Wzx protein flips subunits of the polysaccharide O antigen (O-units) across the cell membrane on their way to the cell wall. The aim of this project is to determine the specificity that different Wzx flippases have for O unit structure. Previous research has shown that there is much more specificity than previously thought, making Wzx a very interesting protein. Wzx flippases vary enormously in sequence, presumably reflecting th ....Importance of Wzx flippase specificity for O-antigen diversity. The Wzx protein flips subunits of the polysaccharide O antigen (O-units) across the cell membrane on their way to the cell wall. The aim of this project is to determine the specificity that different Wzx flippases have for O unit structure. Previous research has shown that there is much more specificity than previously thought, making Wzx a very interesting protein. Wzx flippases vary enormously in sequence, presumably reflecting the diversity of sugars and linkages in O units. The significance lies in the role of these polysaccharides in interactions with the environment, including host-pathogen interactions and immune responses. The outcome will be a new understanding of the export specificity of O-antigens and also capsules, both of which make very good vaccines. Read moreRead less