Objective To observe the sexual differences in electrophysiological properties of neurons in the robust nucleus of the arcopallium (RA) in adult zebra finches, and to provide the direct electrophysiological evidence for the sexual dimorphism of birdsong. Methods Whole-cell recording was used to record the spontaneous action potential firing rates from RA projection neurons in acute brain slices. Results The projection neurons of RA in male birds fired spontaneously at 10 Hz or above, while in female birds, the frequency was significantly lower, and even no firings could be detected. Conclusion There is a sexual difference in electrophysiological properties of projection neurons in RA, which may result from the difference in the levels of steroid hormones in birds.
鸣禽鸣唱控制系统的前端脑通路(anterior forebrain pathway,AFP)在鸣唱学习中发挥着重要作用。新纹状体巨细胞核外侧部(lateral magnocellular nucleus of the anterior neostriatum,LMAN)是AFP的最后一级输出核团,AFP中的信号通过LMAN传导到弓状皮质栎核(robust nucleus of the arcopallium,RA),与高级发声中枢(high vocal centre,HVC)共同调节RA的活动,从而影响鸣禽的发声行为。LMAN可能通过其与RA的单突触连接来影响鸣唱可塑性。文章对近年来LMAN在鸣唱学习可塑性方面的研究进行综述。