Abstract
The hydrogen ion changes resulting from the photolysis of the rod visual pigment, rhodopsin, were investigated at acidic pH (5.2–6.5). After light-induced proton uptake, slow proton release occurred both in the dark and in the light. It was found that the amount of proton release in the dark was not equal to that in the light; about 0.9 proton remained bound to rhodopsin bleached in the dark, while all the bound protons were released in the light. Furthermore, the time course of proton release in the dark is not related to the decay of metarhodopsin II 380, but is closely related to the formation of metarhodopsin III 465.
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