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鳐鱼视网膜中的S电位。明适应和暗适应过程中的细胞内记录。

S-potentials in the skate retina. Intracellular recordings during light and dark adaptation.

作者信息

Dowling J E, Ripps H

出版信息

J Gen Physiol. 1971 Aug;58(2):163-89. doi: 10.1085/jgp.58.2.163.

DOI:10.1085/jgp.58.2.163
PMID:5559621
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2226016/
Abstract

The S-potentials recorded intracellularly from the all-rod retina of the skate probably arise from the large horizontal cells situated directly below the layer of receptors. These cells hyperpolarize in response to light, irrespective of stimulus wavelength, and the responses in photopic as well as scotopic conditions were found to be subserved by a single photopigment with lambda(max) = 500 nm. The process of adaptation was studied by recording simultaneously the threshold responses and membrane potentials of S-units during both light and dark adaptation. The findings indicate that the sensitivity of S-units, whether measured upon steady background fields or in the course of dark adaptation, exhibits changes similar to those demonstrated previously for the ERG b-wave and ganglion cell discharge. However, the membrane potential level of the S-unit and its sensitivity to photic stimulation varied independently for all the adapting conditions tested. It appears, therefore, that visual adaptation in the skate retina occurs before the S-unit is reached, i.e., at the receptors themselves.

摘要

从鳐鱼全视杆视网膜细胞内记录到的S电位可能源于直接位于感受器层下方的大型水平细胞。这些细胞对光产生超极化反应,与刺激波长无关,并且发现在明视觉和暗视觉条件下的反应均由一种λ(max)= 500 nm的单一光色素介导。通过在明适应和暗适应过程中同时记录S单位的阈值反应和膜电位来研究适应过程。研究结果表明,S单位的敏感性,无论是在稳定背景场下测量还是在暗适应过程中测量,都表现出与先前在视网膜电图b波和神经节细胞放电中所证明的变化相似。然而,在所有测试的适应条件下,S单位的膜电位水平及其对光刺激的敏感性是独立变化的。因此,似乎鳐鱼视网膜中的视觉适应发生在到达S单位之前,即在感受器本身。

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