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W2056659809 startingPage "782" @default.
W2056659809 abstract "In Gram-negative bacteria such as Escherichia coli and Pseudomonas aeruginosa, tripartite multidrug efflux systems extrude cytotoxic substances from the cell directly into the medium bypassing periplasm and the outer membrane. In E. coli, the tripartite efflux system AcrA/AcrB/TolC is the pump that extrudes multiple antibiotics, dyes, bile salts and detergents. The inner membrane component AcrB, a member of the Resistance Nodulation cell Division (RND) family, is the major site for substrate recognition and energy transduction of the entire tripartite system. The drug/proton antiport processes in this secondary transporter are suggested to be spatially separated, a feature frequently observed for primary transporters like membrane-bound ATPases. The recently elucidated asymmetric structure of the AcrB trimer reveals three different monomer conformations proposed to represent consecutive states in a directional transport cycle. Each monomer shows a distinct tunnel system with entrances located at the boundary of the outer leaflet of the inner membrane and the periplasm through the periplasmic porter (pore) domain towards the funnel of the trimer and TolC. In one monomer a hydrophobic pocket is present which has been shown to bind the AcrB substrates minocyclin and doxorubicin. The energy conversion from the proton motive force into drug efflux includes proton binding in (and release from) the transmembrane part. The conformational changes observed within a triad of essential, titratable residues (D407/D408/K940) residing in the hydrophobic transmembrane domain appear to be transduced by transmembrane helix 8 and associated with the conformational changes seen in the periplasmic domain. From the asymmetric structure a possible peristaltic pump transport mechanism based on a functional rotation of the AcrB trimer has been postulated. The novel drug transport model combines the alternate access pump mechanism with the rotating site catalysis of F(1)F(o) ATPase as originally postulated by Jardetzky and Boyer, respectively, and suggests a working hypothesis for the transport mechanism of RND transporters in general." @default.
W2056659809 created "2016-06-24" @default.
W2056659809 creator A5087340766 @default.
W2056659809 date "2009-05-01" @default.
W2056659809 modified "2023-10-10" @default.
W2056659809 title "Drug transport mechanism of the AcrB efflux pump" @default.
W2056659809 cites W1529130961 @default.
W2056659809 cites W1631870052 @default.
W2056659809 cites W1908114653 @default.
W2056659809 cites W1909542718 @default.
W2056659809 cites W1964976203 @default.
W2056659809 cites W1964985757 @default.
W2056659809 cites W1977593863 @default.
W2056659809 cites W1979721891 @default.
W2056659809 cites W1985400607 @default.
W2056659809 cites W1988477385 @default.
W2056659809 cites W1991421059 @default.
W2056659809 cites W1993236717 @default.
W2056659809 cites W1994089132 @default.
W2056659809 cites W1997005986 @default.
W2056659809 cites W2000186327 @default.
W2056659809 cites W2000975862 @default.
W2056659809 cites W2010438788 @default.
W2056659809 cites W2016075837 @default.
W2056659809 cites W2018396099 @default.
W2056659809 cites W2021927242 @default.
W2056659809 cites W2032388942 @default.
W2056659809 cites W2038684541 @default.
W2056659809 cites W2042669181 @default.
W2056659809 cites W2044272444 @default.
W2056659809 cites W2046272640 @default.
W2056659809 cites W2053628548 @default.
W2056659809 cites W2054823629 @default.
W2056659809 cites W2061528271 @default.
W2056659809 cites W2061856372 @default.
W2056659809 cites W2064618359 @default.
W2056659809 cites W2065827250 @default.
W2056659809 cites W2070196678 @default.
W2056659809 cites W2070262931 @default.
W2056659809 cites W2071950147 @default.
W2056659809 cites W2077815188 @default.
W2056659809 cites W2082615843 @default.
W2056659809 cites W2083821368 @default.
W2056659809 cites W2084778413 @default.
W2056659809 cites W2096172849 @default.
W2056659809 cites W2113156278 @default.
W2056659809 cites W2113755389 @default.
W2056659809 cites W2117867117 @default.
W2056659809 cites W2120470565 @default.
W2056659809 cites W2132067013 @default.
W2056659809 cites W2133867842 @default.
W2056659809 cites W2138354421 @default.
W2056659809 cites W2149485676 @default.
W2056659809 cites W2150093310 @default.
W2056659809 cites W2151800393 @default.
W2056659809 cites W2152048140 @default.
W2056659809 cites W2153601116 @default.
W2056659809 cites W2166580191 @default.
W2056659809 cites W2170181620 @default.
W2056659809 cites W2170213289 @default.
W2056659809 doi "https://doi.org/10.1016/j.bbapap.2008.12.015" @default.
W2056659809 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19166984" @default.
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