Specific proteomic adaptation to distinct environments in Vibrio parahaemolyticus includes significant fluctuations in expression of essential proteins

Abstract

Bacteria constantly experience changes to their external milieu and need to adapt accordingly to ensure their survival. Certain bacteria adapt by means of cellular differentiation, resulting in the development of a specific cell type that is specialized for life in a distinct environment. Furthermore, to understand how bacteria adapt, it is essential to appreciate the significant changes that occur at the proteomic level. By analysing the proteome of our model organism Vibrio parahaemolyticus from distinct environmental conditions and cellular differential states, we demonstrate that the proteomic expression profile is highly flexible, which likely allows it to adapt to life in different environmental conditions and habitats. We show that, even within the same swarm colony, there are specific zones of cells with distinct expression profiles. Furthermore, our data indicate that cell surface attachment and swarmer cell differentiation are distinct programmes that require specific proteomic expression profiles. This likely allows V. parahaemolyticus to adapt to life in different environmental conditions and habitats. Finally, our analyses reveal that the expression profile of the essential protein pool is highly fluid, with significant fluctuations that dependent on the specific life-style, environment and differentiation state of the bacterium.