鸣鸟
神经科学
基底神经节
声乐学习
光遗传学
斑马雀
模仿
心理学
生物
突触后电位
突触可塑性
中棘神经元
中心图形发生器
集合(抽象数据类型)
生物神经网络
发育可塑性
少年
间接运动途径
运动学习
神经可塑性
沟通
神经科学家
感知
作者
Drew C. Schreiner,Samuel Brudner,A. Li,Pearson Jm,Richard Mooney
出处
期刊:
[Cold Spring Harbor Laboratory]
日期:2026-01-21
标识
DOI:10.64898/2026.01.20.699515
摘要
Learning by imitation is the foundation for verbal and musical expression, but its underlying neural basis remains obscure. A juvenile male zebra finch imitates the multisyllabic song of an adult tutor in a process that depends on a song-specialized cortico-basal ganglia circuit, affording a powerful system to identify the synaptic substrates of imitative motor learning. Plasticity at a particular set of cortico-basal ganglia synapses is hypothesized to drive rapid learning-related changes in song before these changes are subsequently consolidated in downstream circuits. Nevertheless, this hypothesis is untested and the synaptic locus where learning initially occurs is unknown. By combining a computational framework to quantify song learning with synapse-specific optogenetic and chemogenetic manipulations within and directly downstream of the cortico-basal ganglia circuit, we identified the specific cortico-basal ganglia synapses that drive the acquisition and expression of rapid vocal changes during juvenile song learning and characterized the hours-long timescale over which these changes consolidate. Furthermore, transiently augmenting postsynaptic activity in the basal ganglia briefly accelerates learning rates and persistently alters song, demonstrating a direct link between basal ganglia activity and rapid learning. These results localize the specific cortico-basal ganglia synapses that enable a juvenile songbird to learn to sing and reveal the circuit logic and behavioral timescales of this imitative learning paradigm.
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