Osmotic and diffusive flows in single-file pores: new approach to modeling pore occupancy states.

Gordon Kepner
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引用次数: 1

Abstract

Background: The relation between osmotic permeability, Pf, diffusion permeability, Pd, and the number of water molecules, Np, in the single-file membrane pore remains an open question. Theoretical analyses, empirical studies on aquaporins and nanotubes, and molecular dynamics simulations have yet to provide a consensus view.

Results: This paper presents a new combinatorial analysis of the different pore states formed from water molecules and the presence of a vacancy that differs from the several previous combinatorial approaches to analyzing pore states. It is the first such analysis to show that Pf / Pd = Np. It is rooted in the concept of different classes of pore occupancy states, tracer states and tracer exit states, present in the pore. This includes pores with and without a single vacancy. The concepts of knock-on collisions and concerted Brownian fluctuations provide the mechanisms underlying the behaviors of the tracer and vacancy as each moves through the pore during osmotic or diffusive flow. It develops the important role of the knock-on collision mechanism for osmotic flow. An essential feature of the model is the presence, or absence, of a single vacancy in the pore. The vacancy slows down tracer translocation through the pore. Its absence facilitates osmotic flow.

Conclusions: The full pore states and the single vacancy states together with the knock-on and Brownian mechanisms account for the relative values of Pf and Pd during osmotic and diffusive flow through the single-file pore. The new approach to combinatorial analysis differs from previous approaches and is the first to show a simple intuitive basis for the relation Pf / Pd = Np. This resolves a long persisting dichotomy.

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单排孔隙中的渗透和扩散流动:模拟孔隙占用状态的新方法。
背景:渗透渗透率Pf、扩散渗透率Pd与单排膜孔中水分子数Np之间的关系仍然是一个悬而未决的问题。关于水通道蛋白和纳米管的理论分析、实证研究以及分子动力学模拟尚未形成共识。结果:本文提出了一种新的组合分析方法,用于分析由水分子和空位形成的不同孔隙状态,这与以前几种分析孔隙状态的组合方法不同。这是第一次这样的分析表明,Pf / Pd = Np。它植根于孔隙中存在不同类别的孔隙占用状态、示踪剂状态和示踪剂退出状态的概念。这包括有和没有单一空位的孔隙。撞击碰撞和协同布朗涨落的概念提供了示踪剂和空位在渗透或扩散流动中通过孔隙时的行为机制。揭示了连锁碰撞机制在渗透流动中的重要作用。该模型的一个基本特征是孔隙中存在或不存在单个空位。空位减缓了示踪剂通过孔隙的转运。它的缺失有利于渗透流动。结论:全孔状态和单空位状态以及敲除和布朗机制解释了单孔渗透和扩散过程中Pf和Pd的相对值。这种组合分析的新方法不同于以往的方法,它首次展示了Pf / Pd = Np关系的简单直观基础。这解决了长期存在的二分法。
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Theoretical Biology and Medical Modelling
Theoretical Biology and Medical Modelling MATHEMATICAL & COMPUTATIONAL BIOLOGY-
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6-12 weeks
期刊介绍: Theoretical Biology and Medical Modelling is an open access peer-reviewed journal adopting a broad definition of "biology" and focusing on theoretical ideas and models associated with developments in biology and medicine. Mathematicians, biologists and clinicians of various specialisms, philosophers and historians of science are all contributing to the emergence of novel concepts in an age of systems biology, bioinformatics and computer modelling. This is the field in which Theoretical Biology and Medical Modelling operates. We welcome submissions that are technically sound and offering either improved understanding in biology and medicine or progress in theory or method.
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