Computational study of correlated domain motions in the AcrB efflux transporter

Schulz R;VARGIU, ATTILIO VITTORIO;RUGGERONE, PAOLO;Kleinekathöfer U.

2015-01-01

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Abstract

As active part of the major efflux system in E. coli bacteria, AcrB is responsible for the uptake and pumping of toxic substrates from the periplasm toward the extra- cellular space. In combination with the channel protein TolC and membrane fusion protein AcrA, this efflux pump is able to help the bacterium to survive different kinds of noxious compounds. With the present study we intend to enhance the understanding of the interactions between the domains and monomers, e.g., the transduction of mechanical energy from the transmembrane domain into the porter domain, correlated motions of different subdomains within monomers and cooperative effects between monomers. To this end, targeted molecular dynamics simulations have been employed either steering the whole protein complex or specific parts thereof. By forcing only parts of the complex towards specific conformational states, the risk for transient ar- tificial conformations during the simulations is reduced. Distinct cooperative effects between the monomers in AcrB have been observed. Possible allosteric couplings have been identified providing microscopic insights that might be exploited to design more efficient inhibitors of efflux systems.