回声定位蝙蝠听觉皮层中目标范围的神经图谱。

Neural maps for target range in the auditory cortex of echolocating bats.

机构信息

Institute for Cell Biology and Neuroscience, Goethe University, Frankfurt, Max-von-Laue-Str. 13, 60439 Frankfurt, Germany.

出版信息

Curr Opin Neurobiol. 2014 Feb;24(1):68-75. doi: 10.1016/j.conb.2013.08.016. Epub 2013 Sep 17.

DOI:10.1016/j.conb.2013.08.016

PMID:24492081

Abstract

Computational brain maps as opposed to maps of receptor surfaces strongly reflect functional neuronal design principles. In echolocating bats, computational maps are established that topographically represent the distance of objects. These target range maps are derived from the temporal delay between emitted call and returning echo and constitute a regular representation of time (chronotopy). Basic features of these maps are innate, and in different bat species the map size and precision varies. An inherent advantage of target range maps is the implementation of mechanisms for lateral inhibition and excitatory feedback. Both can help to focus target ranging depending on the actual echolocation situation. However, these maps are not absolutely necessary for bat echolocation since there are bat species without cortical target-distance maps, which use alternative ensemble computation mechanisms.

摘要

与受体表面图谱相反，计算脑图谱强烈反映了功能神经元的设计原则。在回声定位蝙蝠中，建立了拓扑地表示物体距离的计算图谱。这些目标距离图谱是由发射的叫声和返回的回声之间的时间延迟导出的，构成了时间的规则表示（chronotopy）。这些图谱的基本特征是先天的，并且在不同的蝙蝠物种中，图谱的大小和精度有所不同。目标距离图谱的一个固有优势是实现了侧向抑制和兴奋性反馈的机制。这两者都有助于根据实际的回声定位情况聚焦目标测距。然而，这些图谱对于蝙蝠的回声定位并不是绝对必要的，因为有些蝙蝠物种没有皮质目标距离图谱，它们使用替代的集合计算机制。

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回声定位蝙蝠听觉皮层中目标范围的神经图谱。

Neural maps for target range in the auditory cortex of echolocating bats.

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