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Titolo: Bridging time and length scales: from macroscopic flux to molecular mechanism of antibiotics diffusion through porins
Autori: 
Data di pubblicazione: 2010
Rivista: 
BIOPHYSICAL JOURNAL  
Abstract: Our aim in this study was to provide an atomic description of ampicillin translocation through OmpF, the major outer membrane channel in Escherichia coli and main entry point for beta-lactam antibiotics. By applying metadynamics simulations, we also obtained the energy barriers along the diffusion pathway We then studied the effect of mutations that affect the charge and size at the channel constriction zone, and found that in comparison to the wild-type, much lower energy barriers are required for translocation The expected higher translocation rates were confirmed on the macroscopic scale by liposome-swelling assays. A microscopic view on the millisecond timescale was obtained by analysis of temperature-dependent ion current fluctuations in the presence of ampicillin and provide the enthalpic part of the energy barrier. By studying antibiotic translocation over various timescales and length scales, we were able to discern its molecular mechanism and rate-limiting interactions, and draw biologically relevant conclusions that may help in the design of drugs with enhanced permeation rates.
Handle: http://hdl.handle.net/11584/109116
Tipologia:1.1 Articolo in rivista

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