E. Nachliel

TL;DR: The protonation dynamics determined at the surface of the purple membrane is of relevance both for the vectorial proton transport mechanism of bacteriorhodopsin and for energy coupling, not only in halobacteria, but also in complex chemiosmotic systems such as mitochondrial and thylakoid membranes.

TL;DR: Time resolved fluorometry simulates the diffusion of a proton, subjected to electrostatic attraction, in a thin water layer enclosed between low affinity, proton binding surfaces and finds no evidence for abnormal dynamics of proton transfer at the lipid water interface which, by any mechanism, accelerates its diffusion.

TL;DR: The laser-induced pH jump has a time resolution capable of measuring the diffusion-controlled rate constant of proton binding, and the micellar charge calculated from this method was corroborated by other measurements which rely only on equilibrium parameters.

TL;DR: The analysis of the reactions reveals that the ionic selectivity of the monensin (H+ > Na+ > K+) is due to more than one term, and is derived from a large difference in the rates of cross membranal diffusivities (MoH > MoNa > MoK), which have never been detected before.