Biological ion channels are fundamental to maintaining life. In this manuscript we apply our recently developed statistical and linear response theory to investigate Na+ conduction through the prokaryotic Na+ channel NaChBac. This work is extended theoretically by the derivation of ionic conductivity and current in an electrochemical gradient, thus enabling us to compare to a range of whole-cell data sets performed on this channel. Furthermore, we also compare the magnitudes of the currents and populations at each binding site to previously published single-channel recordings and molecular dynamics simulations respectively. In doing so, we find excellent agreement between theory and data, with predicted energy barriers at each of the four binding sites of ∼ 4, 2.9, 3.6, and 4kT.
Application of a statistical and linear response theory to multi-ion na+ conduction in nachbac / Gibby, W. A. T.; Fedorenko, O. A.; Guardiani, C.; Barabash, M. L.; Mumby, T.; Roberts, S. K.; Luchinsky, D. G.; Mcclintock, P. V. E.. - In: ENTROPY. - ISSN 1099-4300. - 23:2(2021), pp. 1-16. [10.3390/e23020249]
Application of a statistical and linear response theory to multi-ion na+ conduction in nachbac
Guardiani C.;
2021
Abstract
Biological ion channels are fundamental to maintaining life. In this manuscript we apply our recently developed statistical and linear response theory to investigate Na+ conduction through the prokaryotic Na+ channel NaChBac. This work is extended theoretically by the derivation of ionic conductivity and current in an electrochemical gradient, thus enabling us to compare to a range of whole-cell data sets performed on this channel. Furthermore, we also compare the magnitudes of the currents and populations at each binding site to previously published single-channel recordings and molecular dynamics simulations respectively. In doing so, we find excellent agreement between theory and data, with predicted energy barriers at each of the four binding sites of ∼ 4, 2.9, 3.6, and 4kT.| File | Dimensione | Formato | |
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