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外毛细胞刚度和运动性的双态模型。

Two-state model for outer hair cell stiffness and motility.

作者信息

Deo Niranjan, Grosh Karl

机构信息

Department of Mechanical Engineering, University of Michigan, Ann Arbor, Michigan 48109-2125, USA.

出版信息

Biophys J. 2004 Jun;86(6):3519-28. doi: 10.1529/biophysj.103.026658.

DOI:10.1529/biophysj.103.026658
PMID:15189851
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1304256/
Abstract

With discovery of the protein prestin and the gathering evidence linking it to outer hair cell electromotility, the working mechanism of outer hair cells is becoming clearer. Recent experiments have established the voltage-dependent stiffness of outer hair cells and given an insight into the nature of variation of stiffness with respect to voltage. These and earlier experiments are used to analyze and develop models of outer hair cell response. In this article, recent modeling efforts have been reconciled and placed into a common mechanics-based framework. The constitutive models are analyzed with regard to their capability to replicate experimental results. We extend the area motor model to include elastic constants dependent on motor state. The modified model successfully captures stiffness variations of outer hair cells and capacitance changes with respect to voltage.

摘要

随着蛋白质prestin的发现以及越来越多将其与外毛细胞电运动联系起来的证据,外毛细胞的工作机制正变得越来越清晰。最近的实验确定了外毛细胞的电压依赖性硬度,并深入了解了硬度随电压变化的本质。这些实验以及早期的实验被用于分析和建立外毛细胞反应模型。在本文中,近期的建模工作得到了梳理,并被纳入一个基于通用力学的框架。对本构模型复制实验结果的能力进行了分析。我们对外侧运动模型进行了扩展,使其包含依赖于运动状态的弹性常数。修改后的模型成功捕捉到了外毛细胞的硬度变化以及电容随电压的变化。

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