Characterization of the Na(+)/H(+) Antiporter from Yersinia pestis

Yersinia pestis, the bacterium that historically accounts for the Black Death epidemics, has nowadays gained new attention as a possible biological warfare agent. In this study, its Na[Image: see text]/H[Image: see text] antiporter is investigated for the first time, by a combination of experimental and computational methodologies. We determined the protein's substrate specificity and pH dependence by fluorescence measurements in everted membrane vesicles. Subsequently, we constructed a model of the protein's structure and validated the model using molecular dynamics simulations. Taken together, better understanding of the Yersinia pestis Na[Image: see text]/H[Image: see text] antiporter's structure-function relationship may assist in studies on ion transport, mechanism of action and designing specific blockers of Na[Image: see text]/H[Image: see text] antiporter to help in fighting Yersinia pestis -associated infections. We hope that our model will prove useful both from mechanistic and pharmaceutical perspectives.