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Activation, deactivation, and adaptation in vertebrate photoreceptor cells.

Research paper by M E ME Burns, D A DA Baylor

Indexed on: 25 Aug '01Published on: 25 Aug '01Published in: Annual review of neuroscience



Abstract

Visual transduction captures widespread interest because its G-protein signaling motif recurs throughout nature yet is uniquely accessible for study in the photoreceptor cells. The light-activated currents generated at the photoreceptor outer segment provide an easily observed real-time measure of the output of the signaling cascade, and the ease of obtaining pure samples of outer segments in reasonable quantity facilitates biochemical experiments. A quiet revolution in the study of the mechanism has occurred during the past decade with the advent of gene-targeting techniques. These have made it possible to observe how transduction is perturbed by the deletion, overexpression, or mutation of specific components of the transduction apparatus.