Damping Properties of the Hair Bundle

arXiv: Subcellular Processes Pub Date : 2011-11-07 DOI:10.1063/1.3658053

J. Baumgart, A. S. Kozlov, T. Risler, A. J. Hudspeth, C. Shera, Elizabeth S. Olson

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Abstract

The viscous liquid surrounding a hair bundle dissipates energy and dampens oscillations, which poses a fundamental physical challenge to the high sensitivity and sharp frequency selectivity of hearing. To identify the mechanical forces at play, we constructed a detailed finite‐element model of the hair bundle. Based on data from the hair bundle of the bullfrog's sacculus, this model treats the interaction of stereocilia both with the surrounding liquid and with the liquid in the narrow gaps between the individual stereocilia. The investigation revealed that grouping stereocilia in a bundle dramatically reduces the total drag. During hair‐bundle deflections, the tip links potentially induce drag by causing small but very dissipative relative motions between stereocilia; this effect is offset by the horizontal top connectors that restrain such relative movements at low frequencies. For higher frequencies the coupling liquid is sufficient to assure that the hair bundle moves as a unit with a low total drag. This work reveals the mechanical characteristics originating from hair‐bundle morphology and shows quantitatively how a hair bundle is adapted for sensitive mechanotransduction.

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发束的阻尼特性

毛束周围的粘性液体会耗散能量并抑制振荡，这对听觉的高灵敏度和敏锐频率选择性构成了根本性的物理挑战。为了确定起作用的机械力，我们构建了一个详细的毛束有限元模型。该模型以牛蛙囊腔毛束的数据为基础，处理了立体纤毛与周围液体以及单个立体纤毛之间狭窄间隙中液体的相互作用。研究发现，将立体纤毛编成毛束可显著降低总阻力。在毛束偏转过程中，顶端连接可能会引起立体纤毛之间微小但非常耗散的相对运动，从而产生阻力；在低频情况下，这种影响会被抑制这种相对运动的水平顶端连接所抵消。在较高频率下，耦合液足以确保毛束作为一个整体以较低的总阻力运动。这项工作揭示了源自毛束形态的机械特性，并定量展示了毛束如何适应灵敏的机械传导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv: Subcellular Processes

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