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The highly selective permeation of ions through biological ion channels is an unsolved problem of noise and fluctuations. In this paper, we motivate and introduce a non-equilibrium and self-consistent multi-species kinetic model, with the express aims of comparing with experimental recordings of current versus voltage and concentration and extracting important permeation parameters. For self-consistency, the behavior of the model at the two-state, i.e., selective limit in linear response, must agree with recent results derived from an equilibrium statistical theory. The kinetic model provides a good fit to data, including the key result of an anomalous mole fraction effect.

Theory and experiments on multi-ion permeation and selectivity in the NaChBac ion channel / Gibby, W. A. T.; Barabash, M. L.; Guardiani, C.; Luchinsky, D. G.; Fedorenko, O. A.; Roberts, S. K.; Mcclintock, P. V. E.. - In: FLUCTUATION AND NOISE LETTERS. - ISSN 0219-4775. - 18:2(2019). [10.1142/S0219477519400078]

Theory and experiments on multi-ion permeation and selectivity in the NaChBac ion channel

Guardiani C.;
2019

Abstract

The highly selective permeation of ions through biological ion channels is an unsolved problem of noise and fluctuations. In this paper, we motivate and introduce a non-equilibrium and self-consistent multi-species kinetic model, with the express aims of comparing with experimental recordings of current versus voltage and concentration and extracting important permeation parameters. For self-consistency, the behavior of the model at the two-state, i.e., selective limit in linear response, must agree with recent results derived from an equilibrium statistical theory. The kinetic model provides a good fit to data, including the key result of an anomalous mole fraction effect.
2019
anomalous mole fraction effect; Ion channel; kinetic theory; NaChBac
01 Pubblicazione su rivista::01a Articolo in rivista
Theory and experiments on multi-ion permeation and selectivity in the NaChBac ion channel / Gibby, W. A. T.; Barabash, M. L.; Guardiani, C.; Luchinsky, D. G.; Fedorenko, O. A.; Roberts, S. K.; Mcclintock, P. V. E.. - In: FLUCTUATION AND NOISE LETTERS. - ISSN 0219-4775. - 18:2(2019). [10.1142/S0219477519400078]
01a Articolo in rivista
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1634041
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