小永久电荷对离子流影响的新见解:高阶分析

IF 2.6 4区 工程技术 Q1 Mathematics
Hamid Mofidi
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引用次数: 0

摘要

本研究探讨了永久电荷如何影响离子通道的动力学。我们使用准一维经典泊松-恩斯特-普朗克(PNP)模型,研究了两种不同离子的行为--一种带正电,另一种带负电。永久电荷的空间分布特点是通道两端的电荷值为零,而中心区域的电荷值为常数 $Q_0。通过将经典 PNP 模型视为奇异扰动系统的边界值问题 (BVP),BVP 的奇异轨道有规律地取决于 Q_0 $。因此,我们探索了存在小永久电荷时的解空间,发现了该参数的系统依赖性。我们的分析采用了严格的扰动方法,以揭示源于永久电荷的高阶效应。通过这项研究,我们揭示了边界条件和永久电荷之间错综复杂的相互作用,深入了解了它们对离子电流、通量和通量比行为的影响。我们推导出了永久电荷的二次解,与线性解相比,二次解明显更加复杂。通过计算工具,我们研究了这些二次方程解对通量、电流-电压关系和通量比的影响,并对结果进行了深入分析。这些新发现有助于加深对离子流动力学的理解,并对加强基于离子通道技术的设计和优化具有潜在意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
New insights into the effects of small permanent charge on ionic flows: A higher order analysis.

This study investigated how permanent charges influence the dynamics of ionic channels. Using a quasi-one-dimensional classical Poisson-Nernst-Planck (PNP) model, we investigated the behavior of two distinct ion species-one positively charged and the other negatively charged. The spatial distribution of permanent charges was characterized by zero values at the channel ends and a constant charge $ Q_0 $ within the central region. By treating the classical PNP model as a boundary value problem (BVP) for a singularly perturbed system, the singular orbit of the BVP depended on $ Q_0 $ in a regular way. We therefore explored the solution space in the presence of a small permanent charge, uncovering a systematic dependence on this parameter. Our analysis employed a rigorous perturbation approach to reveal higher-order effects originating from the permanent charges. Through this investigation, we shed light on the intricate interplay among boundary conditions and permanent charges, providing insights into their impact on the behavior of ionic current, fluxes, and flux ratios. We derived the quadratic solutions in terms of permanent charge, which were notably more intricate compared to the linear solutions. Through computational tools, we investigated the impact of these quadratic solutions on fluxes, current-voltage relations, and flux ratios, conducting a thorough analysis of the results. These novel findings contributed to a deeper comprehension of ionic flow dynamics and hold potential implications for enhancing the design and optimization of ion channel-based technologies.

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来源期刊
Mathematical Biosciences and Engineering
Mathematical Biosciences and Engineering 工程技术-数学跨学科应用
CiteScore
3.90
自引率
7.70%
发文量
586
审稿时长
>12 weeks
期刊介绍: Mathematical Biosciences and Engineering (MBE) is an interdisciplinary Open Access journal promoting cutting-edge research, technology transfer and knowledge translation about complex data and information processing. MBE publishes Research articles (long and original research); Communications (short and novel research); Expository papers; Technology Transfer and Knowledge Translation reports (description of new technologies and products); Announcements and Industrial Progress and News (announcements and even advertisement, including major conferences).
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