Dark Current and Photocurrent in Retinal Rods

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Dark Current and Photocurrent in Retinal Rods

W. A. Hagins, R. D. Penn and S. Yoshikami

ABSTRACT

The interstitial voltages, currents, and resistances of thereceptor layer of the isolated rat retina have been investigatedwith arrays of micropipette electrodes inserted under directvisual observation by infrared microscopy. In darkness a steadycurrent flows inward through the plasma membrane of the rodouter segments. It is balanced by equal outward current distributedalong the remainder of each rod. Flashes of light produce aphotocurrent which transiently reduces the dark current witha waveform resembling the PII and a-wave components of the electroretinogram.The photocurrent is produced by a local action of light within12 µm of its point of absorption in the outer segments.The quantum current gain of the photocurrent is greater than10⁶. The electrical space constant of rat rods is greater than25 µm, so that the electrical effects of the photocurrentare large enough at the rod synapses to permit single absorbedphotons to be detected by the visual system. The photocurrentis apparently the primary sensory consequence of light absorptionby rhodopsin.

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				C. Lerea, D. Somers, J. Hurley, I. Klock, and A. Bunt-Milam Identification of specific transducin alpha subunits in retinal rod and cone photoreceptors Science, October 3, 1986; 234(4772): 77 - 80. [Abstract] [PDF]

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