Molecular Investigations of Protein Assemblies Involved in Prokaryotic Virulence

Abstract

Protein complexes mediate a diverse range of behavior in prokaryotic cells, yet the exact molecular mechanisms explaining how many of these complexes assemble and function remain unknown. This work focuses on understanding the molecular mechanisms of two different protein assemblies responsible for regulating virulence in the opportunistic pathogen Pseudomonas aeruginosa. P. aeruginosa utilizes type IV pili (T4P) to adhere to, and move along, surfaces. Assembly of T4P is powered by a dedicated cytoplasmic ATPase, PilB. The structural study of PilB from a related system (chapter 2) resulted in the formulation of the first model describing the mechanism of force generation resulting from ATP hydrolysis, which explains how T4P are assembled. Chapter 3 focuses on the RetS/GacS interaction, which is responsible for globally regulating virulence in P. aeruginosa. A comprehensive structural study reveals a dynamics of a novel regulatory interaction and the discovery of a potentially universal transmembrane signaling mechanism.