Functional relevance of AcrB Trimerization in pump assembly and substrate binding. Academic Article uri icon

abstract

  • AcrB is a multidrug transporter in the inner membrane of Escherichia coli. It is an obligate homotrimer and forms a tripartite efflux complex with AcrA and TolC. AcrB is the engine of the efflux machinery and determines substrate specificity. Active efflux depends on several functional features including proton translocation across the inner membrane through a proton relay pathway in the transmembrane domain of AcrB; substrate binding and migration through the substrate translocation pathway; the interaction of AcrB with AcrA and TolC; and the formation of AcrB homotrimer. Here we investigated two aspects of the inter-correlation between these functional features, the dependence of AcrA-AcrB interaction on AcrB trimerization, and the reliance of substrate binding and penetration on protein-protein interaction. Interaction between AcrA and AcrB was investigated through chemical crosslinking, and a previously established in vivo fluorescent labeling method was used to probe substrate binding. Our data suggested that dissociation of the AcrB trimer drastically decreased its interaction with AcrA. In addition, while substrate binding with AcrB seemed to be irrelevant to the presence or absence of AcrA and TolC, the capability of trimerization and conduction of proton influx did affect substrate binding at selected sites along the substrate translocation pathway in AcrB.

published proceedings

  • PLoS One

author list (cited authors)

  • Lu, W., Zhong, M., Chai, Q., Wang, Z., Yu, L., & Wei, Y.

citation count

  • 8

complete list of authors

  • Lu, Wei||Zhong, Meng||Chai, Qian||Wang, Zhaoshuai||Yu, Linliang||Wei, Yinan

editor list (cited editors)

  • Cascales, E.

publication date

  • January 2014