Paula Gameiro scite author profile

The molecular pathway of enrofloxacin, a fluoroquinolone antibiotic, through the outer membrane channel OmpF of Escherichia coli is investigated. High-resolution ion current fluctuation analysis reveals a strong affinity for enrofloxacin to OmpF, the highest value ever recorded for an antibiotic-channel interaction. A single point mutation in the constriction zone of OmpF, replacing aspartic acid at the 113 position with asparagine (D113N), lowers the affinity to a level comparable to other antibiotics. All-atom molecular dynamics simulations allow rationalizing the translocation pathways: wild-type OmpF has two symmetric binding sites for enrofloxacin located at each channel entry separated by a large energy barrier in the center, which inhibits antibiotic translocation. In this particular case, our simulations suggest that the ion current blockages are caused by molecules occupying either one of these peripheral binding sites. Removal of the negative charge on position 113 removes the central barrier and shifts the two peripheral binding sites to a unique central site, which facilitates translocation. Fluorescence steady-state measurements agree with the different location of binding sites for wild-type OmpF and the mutant. Our results demonstrate how a single-point mutation of the porin, and the resulting intrachannel shift of the affinity site, may substantially modify translocation.

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Noninvasive methods to determine the critical micelle concentration of some bile acid salts

Reis

Moutinho

Matos

et al. 2004

Analytical Biochemistry

145

122

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In this work the critical micelle concentrations (cmc) of four bile salts, sodium cholate, sodium glycocholate, sodium deoxycholate, and sodium glycodeoxycholate, are determined and presented. Three independent noninvasive methodologies (potentiometry, derivative spectrophotometry, and light scattering) were used for cmc determination, at 25 degrees C with ionic strength adjusted to 0.10 M with NaCl. Spectrophotometric and potentiometric studies of some bile salts were also executed at various ionic strength values, thus allowing the influence of the ionic strength on the cmc value of the bile salt to be assessed. A critical comparison of the cmc values obtained with data collected from the literature is presented. Furthermore, this work makes an evaluation of the conceptual bases of different methodologies commonly used for cmc determination, since variations in the results obtained can be related mainly to different intrinsic features of the methods used (such as sensitivity or the need to include tracers or probes) or to the operational cmc definition applied. The undoubted definition of the experimental bile salt concentration that corresponds to cmc (operational cmc) is essential since in the case of these amphiphiles the formation of micelles is not as abrupt as in the case of ordinary association colloids. The biphasic nature of their aggregation leads to a "round-shaped" variation of the experimental parameters under analysis, which makes difficult the evaluation of the cmc values and can be responsible for the different results obtained.

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Paula Gameiro

Molecular Basis of Enrofloxacin Translocation through OmpF, an Outer Membrane Channel of Escherichia coli - When Binding Does Not Imply Translocation

Noninvasive methods to determine the critical micelle concentration of some bile acid salts

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