软敲击模型中离子通道传输的量子特征

Mateusz Polakowski, Miłosz Panfil
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引用次数: 0

摘要

离子通道是促进离子有选择性地穿过生物体膜细胞的蛋白质结构。它们以高传导性和高选择性著称。这两种看似相互矛盾的特性之间的确切机制尚未牢固确立。量子相干性是一个可能的候选机制。在这项工作中,我们利用林德布拉德方程研究了软击穿传导的量子模型,并考虑到了模型的非热性。我们的研究结果表明,在该模型中,高传导性与高相干性并存。我们的发现证明了量子效应在离子通道传输特性中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantum features of the transport through ion channels in the soft knock-on model
Ion channels are protein structures that facilitate the selective passage of ions across the membrane cells of living organisms. They are known for their high conductance and high selectivity. The precise mechanism between these two seemingly contradicting features is not yet firmly established. One possible candidate is the quantum coherence. In this work we study the quantum model of the soft knock-on conduction using the Lindblad equation taking into account the non-hermiticity of the model. We show that the model exhibits a regime in which high conductance coexists with high coherence. Our findings second the role of quantum effects in the transport properties of the ion channels.
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