Bacterial Two Component Systems: Overexpression and Purification: In Vitro and In Vivo Inhibitor Screens.

Abstract

Bacterial histidine kinases are promising targets for new antimicrobial agents. In antibacterial therapy, such agents could inhibit bacterial growth by targeting essential two-component regulatory systems or resensitize bacteria to known antibiotics by blocking stress responses upon cell wall or cell membrane damage. However, (i) activity assays using truncated kinase proteins, that is, the cytoplasmic domains containing the conserved histidine residue for phosphorylation, have been shown to produce artifacts, and (ii) the purification of the full-length histidine kinases is complicated. Here, we describe a standard protocol for the recombinant expression and purification of functional full-length histidine kinases and other membrane proteins from Gram-positive bacteria that do not harbor more than two trans-membrane domains in an Escherichia coli host. This guide also presents in vitro and in vivo phosphorylation assays to screen for new antimicrobial compounds that target bacterial histidine kinases, either using a traditional radioactively labeled ATP assay to quantify histidine kinase phosphorylation or Phos-tag acrylamide gel electrophoresis to examine histidine kinase phosphorylation through mobility shift in the polyacrylamide gel. In addition, we describe the use of Phos-tag combined with a western blot approach to visualize the phosphorylation of a response regulator in vivo.