Adaptation in Skate Photoreceptors

doi:10.1085/jgp.60.6.698

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ARTICLE

Adaptation in Skate Photoreceptors

John E. Dowling ¹ and Harris Ripps ¹

¹ From the Marine Biological Laboratory, Woods Hole, Massachusetts 02543, The Biological Laboratories, Harvard University, Cambridge, Massachusetts 02138, and the Departments of Ophthalmology and Physiology, New York University School of Medicine, New York 10016

Receptor potentials were recorded extracellularly from theall-rod retina of the skate after the application of sodiumaspartate. This agent suppresses the responses of proximal elements,but leaves relatively unaffected the electrical activity ofthe photoreceptors (a-wave) and pigment epithelium (c-wave).Since the latter develops too slowly to interfere with the receptorresponse, it was possible to isolate receptor potentials andto compare their behavior in light and dark adaptation withearlier observations on the S-potential, b-wave, and ganglioncell discharge. The results show that the photoreceptors displaythe full complement of adaptational changes exhibited by cellsproximal to the receptors. Thus, it appears that visual adaptationin the skate is governed primarily by the photoreceptors themselves.Of particular interest was the recovery of sensitivity in thepresence of background fields that initially saturate the receptorpotential. Analysis of this recovery phase indicates that again-control mechanism operates within the receptors, at a distalstage of the visual process.

Submitted on June 9, 1972

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