钾离子从离体青蛙视网膜的外流:光效应的研究。
Efflux of potassium from the isolated frog retina: a study of the photic effect.
作者信息
Cavaggioni A, Sorbi R T, Turini S
出版信息
J Physiol. 1972 Apr;222(2):427-45. doi: 10.1113/jphysiol.1972.sp009807.
Abstract
- Illumination of the isolated frog retina reduces the efflux of (42)K (and (86)Rb).2. Perfusion with a solution containing glutamate ions does not abolish the effect, although the electroretinogram is modified and the b-wave absent in this condition.3. Perfusion with a solution with only 2.36 mM sodium abolishes the effect of light on the efflux of potassium (and rubidium).4. The amplitude of the photic effect, measured in the first 2 min of illumination, is in linear proportion with the logarithm of the concentration of extracellular sodium ions.5. A steady rate of absorption of a few quanta per rod and per second yields a just detectable effect on the efflux of potassium (and rubidium).6. Strong illuminations followed by darkness reduce the efflux of rubidium for a period of time roughly comparable to the time of dark adaptation.7. The interpretation is proposed that the photoreceptor cells (and possibly other retinal cells too) cause the effect, and that the retention of potassium induced by light is secondary to the hyperpolarization of their membrane.
摘要
对分离出的青蛙视网膜进行光照会减少(42)K(和(86)Rb)的外流。
用含有谷氨酸离子的溶液灌注并不能消除这种效应,尽管在此条件下视网膜电图会发生改变且b波消失。
用仅含2.36 mM钠的溶液灌注可消除光对钾(和铷)外流的影响。
在光照的前2分钟测量的光效应幅度与细胞外钠离子浓度的对数呈线性比例关系。
每根视杆每秒吸收几个量子的稳定速率对钾(和铷)的外流产生刚好可检测到的效应。
强光照射后紧接着黑暗会使铷的外流在一段时间内减少,这段时间大致与暗适应时间相当。
有人提出这样的解释:光感受器细胞(可能还有其他视网膜细胞)导致了这种效应,并且光诱导的钾潴留是其细胞膜超极化的继发结果。
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