Parallel processing of rod and cone signals in retinal circuits


Fred Rieke

(University of Washington)

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Date: April 10, 2017


Vision relies on simultaneous input from rod and cone photoreceptors at light levels ranging from moonlight to dawn. These lighting conditions are challenging because the rod and cone signals differ substantially: rod responses are relatively slow and nearing saturation, while cone responses are faster and weak. These disparate signals converge within retinal circuits to modulate responses of a common set of retinal ganglion cells. Similar challenges of processing and integrating dissimilar inputs recur in many neural circuits. I will describe work aimed at understanding how rod and cone signals are routed through diverse retinal circuits and how they are combined to coherently control retinal outputs.

Created: Thursday, April 13th, 2017