Ion transport in biological ion channels beyond classical electrostatics. Nanoscale confinement, non-linear concentration patterns and interfacial effects
María Queralt-Martín, Laidy M. Alvero-González, D. Aurora Perini, Elena García-Giménez, Antonio Alcaraz

TL;DR
This paper reviews how ion transport in biological channels behaves differently from classical models, especially at nanoscale levels.
Contribution
The paper highlights novel insights into ion transport at low and high salt concentrations, revealing non-classical behaviors.
Findings
Low salt concentrations show interfacial effects like access resistance from membrane and protein charge interactions.
High salt concentrations lead to non-monotonic transport patterns due to underscreening effects.
Nanoscale deviations from classical models are crucial for understanding ion channel function and designing fluidic devices.
Abstract
Membrane transport has been the subject of intense investigation during decades in diverse scientific disciplines like physical chemistry, biophysics, and electrochemistry. While simplified models derived from continuous electrostatics generally hold, nanometer-sized channels often exhibit unexpected behaviors that stem from a variety of factors including the molecular nature of the solvent or the charge-charge correlations involving both the permeating ions and fixed charges within the membrane-pore system. In this short review, we summarize recent work focusing on two different salt concentration regimes with behaviors that contradict classical models. First, at low concentrations, critical interfacial effects such as access resistance occur involving a non-trivial interplay between membrane and protein charges. Second, in concentrated solutions, many ion transport properties show…
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Taxonomy
TopicsNanopore and Nanochannel Transport Studies · Membrane-based Ion Separation Techniques · Ion channel regulation and function
