来自柯蒂氏器的新旋律：外毛细胞的舞动规则。

New tunes from Corti's organ: the outer hair cell boogie rules.

作者信息

Santos-Sacchi Joseph

机构信息

Yale University School of Medicine, Otolaryngology and Neurobiology, BML 244 333 Cedar Street, New Haven, CT 06510, USA.

出版信息

Curr Opin Neurobiol. 2003 Aug;13(4):459-68. doi: 10.1016/s0959-4388(03)00100-4.

DOI:10.1016/s0959-4388(03)00100-4

PMID:12965294

Abstract

The amplification of acoustic stimuli is a feature of hair cells that evolved early on in vertebrates. Though standard stereocilia mechanisms to promote such amplification may persist in the mammal, an additional mechanism evolved to enhance high frequency sensation. Only in mammals, a special cell type, the outer hair cell, arose that possesses a remarkably fast somatic mechanical response, which probably endows the passive cochlea with a boost in sensitivity by a factor of 100 (40dB), at least. Experiments conducted over the past few years have shed light on many aspects of outer hair cell electromotility, including the molecular identification of the motor, the effects of a knockout, and underlying mechanisms of action. A review of this remarkable progress is attempted.

摘要

声音刺激的放大是脊椎动物早期进化出的毛细胞的一个特征。虽然促进这种放大的标准静纤毛机制可能在哺乳动物中仍然存在，但进化出了一种额外的机制来增强高频感觉。只有在哺乳动物中，出现了一种特殊的细胞类型，即外毛细胞，它具有非常快速的体细胞机械反应，这可能使被动耳蜗的灵敏度至少提高100倍（40分贝）。过去几年进行的实验揭示了外毛细胞电运动性的许多方面，包括马达的分子鉴定、基因敲除的影响以及潜在的作用机制。本文试图对这一显著进展进行综述。

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来自柯蒂氏器的新旋律：外毛细胞的舞动规则。

New tunes from Corti's organ: the outer hair cell boogie rules.

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