Cellular Strategies for Frequency-Dependent Computation of Interaural Time Difference

IF 2.8 4区 医学 Q2 NEUROSCIENCES
Rei Yamada, H. Kuba
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引用次数: 0

Abstract

Binaural coincidence detection is the initial step in encoding interaural time differences (ITDs) for sound-source localization. In birds, neurons in the nucleus laminaris (NL) play a central role in this process. These neurons receive excitatory synaptic inputs on dendrites from both sides of the cochlear nucleus and compare their coincidences at the soma. The NL is tonotopically organized, and individual neurons receive a pattern of synaptic inputs that are specific to their tuning frequency. NL neurons differ in their dendritic morphology along the tonotopic axis; their length increases with lower tuning frequency. In addition, our series of studies have revealed several frequency-dependent refinements in the morphological and biophysical characteristics of NL neurons, such as the amount and subcellular distribution of ion channels and excitatory and inhibitory synapses, which enable the neurons to process the frequency-specific pattern of inputs appropriately and encode ITDs at each frequency band. In this review, we will summarize these refinements of NL neurons and their implications for the ITD coding. We will also discuss the similarities and differences between avian and mammalian coincidence detectors.
基于频率相关的耳间时差计算的元策略
双耳一致性检测是对用于声源定位的耳间时间差(ITD)进行编码的初始步骤。在鸟类中,层核(NL)的神经元在这一过程中起着核心作用。这些神经元在耳蜗核两侧的树突上接收兴奋性突触输入,并比较它们在胞体处的一致性。NL是非局部组织的,单个神经元接收特定于其调谐频率的突触输入模式。NL神经元沿眼压轴的树突形态不同;它们的长度随着调谐频率的降低而增加。此外,我们的一系列研究揭示了NL神经元形态和生物物理特征的几个频率依赖性改进,如离子通道的数量和亚细胞分布以及兴奋性和抑制性突触,这使神经元能够适当地处理频率特异性输入模式,并在每个频带编码ITD。在这篇综述中,我们将总结NL神经元的这些改进及其对ITD编码的意义。我们还将讨论鸟类和哺乳动物重合探测器之间的异同。
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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来源期刊
CiteScore
7.10
自引率
2.70%
发文量
74
审稿时长
14 weeks
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