Structure of the Cytoplasmic Segment of Histidine Kinase Receptor QseC: A Key Player in Bacterial Virulence

Wei      Xie; Chris      Dickson; Witek      Kwiatkowski; Senyon      Choe

doi:10.2174/0929866511009011383

Abstract

QseC is a histidine kinase (HK) receptor involved in quorum sensing, a mechanism by which bacteria respond to fluctuations in cell population. We conducted a structural study of the cytoplasmic domain of QseC (QseC-CD) using X-ray crystallography. The 2.5 Å structure of the apo-enzyme revealed that the kinase domain of QseC retains the overall fold of the typical HK kinase domain. The construct that we used is inactive in the autokinase reaction and its inactivity is most likely caused by its atypical dimerization interface, as compared to that observed in the T.maritima HK cytoplasmic domain structure. Restoration of the activity may require that the entire dimerization domain be present in the protein construct. QseC, which plays an important role in bacterial pathogenesis, is a promising drug target and the structure of QseCCD provides a platform for developing more potent inhibitors of pathogen virulence.

Keywords: Cytoplasmic domain, histidine kinase, phosphorylation, quorum sensing, response regulator, two-component regulatory systems, domain, histidine, quorum, response, two-component, systems, Virulence†, (HK), X-ray crystallography, T.maritima, (RR), (TM1), (TM2), (DHp), (CA), ATP, HAMP, HK/RRs, (EPI/NEI), flhDC, E.coli E22, HK853-CD), (NCS), PyMOL, melittin, DMPC, DLS, Gel-electrophoresis, Nucleotide, Crystal Packi, PISA server, S.typhimurium