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  • Title: Firing properties and dye coupling of neurons in the pigeon nucleus semilunaris.
    Author: Tang ZX, Wang SR.
    Journal: Brain Behav Evol; 2003; 62(4):175-81. PubMed ID: 14573991.
    Abstract:
    Our previous study indicated that the nucleus semilunaris in birds is a visual center. The present study using pigeon brain slices shows that 84 semilunar cells examined could be grouped into five types according to responses to depolarizing current injections. Type I cells (early bursting, 44%) fire a single burst followed by regular spiking. Type II cells (regular spiking, 13%) regularly produce spikes, the rates of which are enhanced as currents are increased. Type III cells (bursting, 17%) discharge a series of bursts each consisting of 2-4 spikes. Type IV cells (dual spiking, 15%) evoke both spikes and spikelets. Type V cells (inhibition-following, 11%) are characterized by regular spiking followed by an inhibitory period after current cessation. Morphologically, semilunar neurons have piriform, round, or fusiform somata of 12-23 mum in diameter, which give rise to 2-4 primary dendrites with sparse branches. Dual spiking activity is invariably correlated with dye coupling, and bursting cells have a tendency to be fusiform in shape. Other types of semilunar cells do not show a correlation between their firing patterns and morphological features.
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