Corson D W, Cornwall M C, MacNichol E F, Jin J, Johnson R, Derguini F, Crouch R K, Nakanishi K
Department of Pathology, Medical University of South Carolina, Charleston 29425.
Proc Natl Acad Sci U S A. 1990 Sep;87(17):6823-7. doi: 10.1073/pnas.87.17.6823.
Photoactivation of rhodopsin initiates both excitation and adaptation in vertebrate rod photoreceptors. Bleaching of rhodopsin to free opsin and all-trans-retinal in isolated rods produces a stable desensitization (bleaching adaptation) that is much larger than expected from pigment depletion alone. In our experiments, a 93% bleach produced a 500-fold increase in the light intensity required for saturation of the light response. This component of adaptation was 32-fold larger than the 16-fold increase expected from pigment depletion alone. 11-cis-Retinal, when delivered to isolated rods from liposomes, combines with free opsin to form a bleachable photopigment that fully restores sensitivity. 11-cis-Locked analogues of retinal combine with opsin to form unbleachable pigments in isolated bleached rods from the tiger salamander. They restore sensitivity to a substantial (16- to 25-fold) but incomplete extent. The analogues apparently relieve a stable component of adaptation when they interact with opsin. Because these analogues do not detectably excite rods, the structural requirements of both retinal and opsin for the relief of adaptation are different from those of excitation. The biochemical basis of light adaptation resulting from pigment bleaching and the minimum structural requirements of retinal for its relief remain to be determined.
视紫红质的光激活引发了脊椎动物视杆光感受器中的兴奋和适应过程。在分离的视杆中,视紫红质漂白形成游离视蛋白和全反式视黄醛,会产生一种稳定的脱敏作用(漂白适应),这种作用比仅由色素消耗所预期的要大得多。在我们的实验中,93%的漂白作用使光反应饱和所需的光强度增加了500倍。这种适应成分比仅由色素消耗所预期的16倍增加大32倍。当从脂质体将11-顺式视黄醛递送至分离的视杆时,它与游离视蛋白结合形成一种可漂白的光色素,从而完全恢复敏感性。视网膜的11-顺式锁定类似物与视蛋白结合,在虎螈分离的漂白视杆中形成不可漂白的色素。它们将敏感性恢复到相当程度(16至25倍)但并不完全。当这些类似物与视蛋白相互作用时,它们显然减轻了适应的一个稳定成分。由于这些类似物不会对视杆产生可检测到的激发作用,所以视网膜和视蛋白在减轻适应方面的结构要求与激发方面的不同。色素漂白导致的光适应的生化基础以及视网膜减轻适应所需的最小结构要求仍有待确定。