Dark Ionic Flux and the Effects of Light in Isolated Rod Outer Segments

doi:10.1085/jgp.60.1.20

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Dark Ionic Flux and the Effects of Light in Isolated Rod Outer Segments

Juan I. Korenbrot ¹ and Richard A. Cone ¹

¹ From the Thomas C. Jenkins Department of Biophysics, Johns Hopkins University, Baltimore, Maryland 21218

We have determined the permeability properties of freshly isolatedfrog rod outer segments by observing their osmotic behaviorin a simple continuous flow apparatus. Outer segments obtainedby gently shaking a retina are sensitive but nonideal osmometers;a small restoring force prevents them from shrinking or swellingquite as much as expected for ideal behavior. We find that Na⁺,Cl^-, No₃^-, glycerol, acetate, and ammonium rapidly enter theouter segment, but K⁺, SO₄⁼, and melezitose appear impermeable.The Na flux is rectified; for concentration gradients in thephysiological range, 2 x 10⁹ Na⁺ ions/sec enter the outer segment,but we detect no efflux of Na⁺, under our conditions, when thegradient is reversed. Illumination of the outer segment producesa specific increase in the resistance to Na⁺ influx, but hasno effect on the flux of other solutes. This light-dependentNa⁺ resistance increases linearly with the number of rhodopsinmolecules bleached. We find that excitation of a single rhodopsinmolecule produces a transient ( $sim$ 1 sec) "photoresistance" whichreduces the Na⁺ influx by about 1%, thus preventing the entryof about 10⁷ Na⁺ ions. At considerably higher light levels,a stable afterimage resistance appears which reduces the Nainflux by one-half when 10⁶ rhodopsin molecules are bleachedper rod. We have incorporated these findings into a model forthe electrophysiological characteristics of the receptor.

Submitted on July 30, 1971

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