FOS由运动网络中不同神经元群体的鸣叫所诱导。

FOS is induced by singing in distinct neuronal populations in a motor network.

作者信息

Kimpo R R, Doupe A J

机构信息

Keck Center for Integrative Neuroscience, Department of Physiology, University of California, San Francisco 94143-0444, USA.

出版信息

Neuron. 1997 Feb;18(2):315-25. doi: 10.1016/s0896-6273(00)80271-8.

DOI:10.1016/s0896-6273(00)80271-8

PMID:9052801

Abstract

Mechanisms underlying the learned vocal behavior of songbirds were studied by examining expression of the protein product of the immediate early gene c-fos (Fos) in zebra finches. Auditory stimuli including the bird's own song did not induce Fos in the song system. In contrast, the motor act of singing induced Fos in two song sensorimotor nuclei, HVc and RA. This induction was independent of auditory feedback, since it occurred in deafened birds that sang. Double-labeling studies demonstrated that only one of the two sets of projection neurons in HVc expressed singing-related Fos. The motor-driven induction of Fos identifies functionally distinct cell populations in a network for singing and may point to sites of cellular plasticity necessary for song maintenance.

摘要

通过检测斑胸草雀中即早基因c-fos（Fos）的蛋白质产物的表达，研究了鸣禽习得性发声行为的潜在机制。包括鸟类自身歌声在内的听觉刺激并未在发声系统中诱导Fos表达。相比之下，歌唱的运动行为在两个发声感觉运动核团，即HVC和RA中诱导了Fos表达。这种诱导与听觉反馈无关，因为它发生在失聪但仍会唱歌的鸟类中。双标记研究表明，HVC中两组投射神经元中只有一组表达与歌唱相关的Fos。Fos的运动驱动诱导确定了歌唱网络中功能上不同的细胞群，并可能指出了歌曲维持所必需的细胞可塑性位点。

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FOS由运动网络中不同神经元群体的鸣叫所诱导。

FOS is induced by singing in distinct neuronal populations in a motor network.

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