中脑产生回声延迟调谐，丘脑则增强回声延迟调谐，以用于对长鼻蝠中目标距离信息的皮质表征。

The midbrain creates and the thalamus sharpens echo-delay tuning for the cortical representation of target-distance information in the mustached bat.

作者信息

Yan J, Suga N

机构信息

Department of Biology, Washington University, St Louis, MO 63130, USA.

出版信息

Hear Res. 1996 Apr;93(1-2):102-10. doi: 10.1016/0378-5955(95)00209-x.

DOI:10.1016/0378-5955(95)00209-x

PMID:8735071

Abstract

Mustached bats emit complex biosonar 'pulses' for echolocation. A delay of an echo from the emitted pulse carries target-distance information. At the auditory periphery, distance information is expressed by a time interval between the responses of neurons to the emitted pulse and its echo. In the auditory cortex (AC), however, it is mapped by 'FM-FM' neurons which are tuned to particular echo delays. FM-FM neurons have been found not only in the AC but also in the inferior colliculus (IC) of the midbrain and the medial geniculate body (MGB) of the thalamus. In the present study, we found that the IC has a precursor of the cortical echo-delay axis for the systematic representation of target-distance information and that the MGB shows the improved neural representation of target-distance information.

摘要

有髭蝠发出复杂的生物声纳“脉冲”用于回声定位。发射脉冲的回声延迟携带目标距离信息。在听觉外周，距离信息由神经元对发射脉冲及其回声的反应之间的时间间隔来表示。然而，在听觉皮层（AC）中，它由调谐到特定回声延迟的“调频-调频”神经元进行映射。不仅在听觉皮层中发现了调频-调频神经元，在中脑的下丘（IC）和丘脑的内侧膝状体（MGB）中也发现了。在本研究中，我们发现下丘具有用于系统表征目标距离信息的皮层回声延迟轴的前体，并且内侧膝状体显示出目标距离信息的改进的神经表征。

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中脑产生回声延迟调谐，丘脑则增强回声延迟调谐，以用于对长鼻蝠中目标距离信息的皮质表征。

The midbrain creates and the thalamus sharpens echo-delay tuning for the cortical representation of target-distance information in the mustached bat.

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