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Cellular Computations Underlying Detection of Gaps in Sounds and Lateralizing Sound Sources

机译：声音中的间隙检测和声源横向化的基础细胞计算

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摘要

In mammals, acoustic information arises in the cochlea and is transmitted to the ventral cochlear nuclei (VCN). Three groups of VNC neurons extract different features from the firing of auditory nerve fibers, and convey that information along separate pathways through the brainstem. Two of these pathways process temporal information: octopus cells detect coincident firing among auditory nerve fibers, and transmit signals along monaural pathways; and bushy cells sharpen the encoding of fine structure and feed binaural pathways. The ability of these cells to signal with temporal precision depends on a low-voltage-activated K⁺ conductance (gKL) and a hyperpolarization-activated conductance (gh). This ‘tale of two conductances’ traces gap detection and sound lateralization to their cellular and biophysical origins.

机译：在哺乳动物中，声音信息出现在耳蜗中，并传递到腹侧耳蜗核（VCN）。三组VNC神经元从听觉神经纤维的发射中提取不同的特征，并通过脑干沿着单独的途径传递该信息。其中两个途径处理时间信息：章鱼细胞检测听觉神经纤维间的同步发射，并沿单声道途径传递信号；浓密的细胞增强了精细结构和进食双耳途径的编码。这些细胞以时间精度发出信号的能力取决于低压激活的K ^{+ 电导（gKL）和超极化激活的电导（gh）。这个“两个电导的故事”将间隙检测和声音侧向追溯到其细胞和生物物理起源。}

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期刊名称 other
作者
Donata Oertel; Xiao-Jie Cao; James R. Ison; Paul D. Allen;
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作者单位

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年(卷),期 -1(40),10
年度 -1
页码 613–624
总页数 21
原文格式 PDF
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中图分类
关键词
ion channels hearing sound localization gap detection Kv1 HCN potassium channel;

机译：离子通道;听力;声音定位;间隙检测;Kv1;HCN;钾通道;

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专利

1. Cellular Computations Underlying Detection of Gaps in Sounds and Lateralizing Sound Sources [J] . Oertel Donata, Cao Xiao-Jie, Ison James R., Trends in Neurosciences . 2017,第10期

机译：蜂窝计算潜在地检测声音和横向化声源的间隙
2. Lateralization of virtual sound sources with a binaural cochlear-implant sound coding strategy inspired by the medial olivocochlear reflex [J] . Lopez-Poveda Enrique A., Eustaquio-Martin Almudena, Fumero Milagros J., Hearing Research: An International Journal . 2019,第期

机译：虚拟声源的横向化，具有由内侧OlivoChlear反射的引发的双耳耳蜗植入声音编码策略
3. The contribution of selective spatial attention to sound detection and sound localization: Evidence from event-related potentials and lateralized alpha oscillations [J] . Klatt Laura-Isabelle, Getzmann Stephan, Wascher Edmund, Biological Psychology . 2018,第期

机译：选择性空间关注对声音检测和声音定位的贡献：来自事件相关的潜力和横向化α振荡的证据
4. Combining sound and optic fow cues to reach a sound source despite lateral obstacles [C] . Ruffier F., Mukai T., Nakashima H., IEEE/SICE International Symposium on System Integration . 2008

机译：尽管横向障碍物，但结合声音和视神线提示将到达声源
5. Computational models for binaural sound source localization and sound understanding. [D] . Li, Danfeng. 2003

机译：用于双耳声源定位和声音理解的计算模型。
6. Reversible Inactivation of the Dorsal Nucleus of the Lateral Lemniscus Reveals Its Role in the Processing of Multiple Sound Sources in the Inferior Colliculus of Bats [O] . R. Michael Burger, George D. Pollak 2001

机译：可逆灭活侧鞭毛背核揭示了其在蝙蝠下腔的多个声源加工中的作用
7. Cellular Computations Underlying Detection of Gaps in Sounds and Lateralizing Sound Sources [O] . Donata Oertel, Xiao-Jie Cao, James R. Ison, 2017

机译：蜂窝计算潜在地检测声音和横向化声源的间隙

Cellular Computations Underlying Detection of Gaps in Sounds and Lateralizing Sound Sources

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