暗适应过程中视杆细胞反应的细胞内记录。
Intracellular recordings of rod responses during dark-adaptation.
作者信息
Grabowski S R, Pak W L
出版信息
J Physiol. 1975 May;247(2):363-91. doi: 10.1113/jphysiol.1975.sp010936.
Abstract
- Dark-adaptation of rod photoreceptors has been studied in the isolated axolotl (Ambystoma mexicanum) retina by intracellular recordings. Rod responsiveness was greatly reduced immediately after a 30 sec partial bleach, but partially recovered with time in the dark. 2. In parallel spectrophotometric measurements using isolated retinas, regeneration of the rod pigment could not be detected after a 30 sec bleach. 3. During rod dark-adaptation, the response of a rod to a given stimulus increased in amplitude, duration, and rate of rise but did not recover completely to the dark-adapted values. Response latency was lengthened immediately after a bleach but ultimately returned to the dark-adapted level. 4. The time courses of dark-adaptation determined on the basis of the intensity of a stimulus needed to evoke a response having a criterion amplitude, a criterion duration, or a criterion rate of rise were similar. On the other hand changes in latency of the response and magnitude of the saturated amplitude followed different time courses. Change in log threshold was found to be related to change in saturated amplitude by an exponential function during dark-adaptation. 5. After bleaching 10% or less of the rod pigment, the kinetics of both recovery of log threshold and decrease in absorbance at 400 nm (metarhodopsin II+free retinal) could be described by two concurrent first-order processes having similar time constants. However, after bleaching more than 10% of the rod pigment, changes in sensitivity and absorbance did not follow parallel time courses. 6. Metarhodopsin III cannot be solely responsible for setting the axolotl rod sensitivity since rod thresholds decrease monotonically during dark-adaptation whereas meta III concentration reaches a peak 3 min after the bleach and decreases thereafter.
摘要
- 通过细胞内记录法,在离体的美西螈(钝口螈属墨西哥钝口螈)视网膜中研究了视杆光感受器的暗适应。在30秒的部分漂白后,视杆反应性立即大幅降低,但在黑暗中随时间部分恢复。2. 在使用离体视网膜进行的平行分光光度测量中,30秒漂白后未检测到视杆色素的再生。3. 在视杆暗适应过程中,视杆对给定刺激的反应在幅度、持续时间和上升速率上增加,但未完全恢复到暗适应值。漂白后反应潜伏期立即延长,但最终恢复到暗适应水平。4. 根据引发具有标准幅度、标准持续时间或标准上升速率的反应所需刺激强度确定的暗适应时间进程相似。另一方面,反应潜伏期和饱和幅度大小的变化遵循不同的时间进程。在暗适应过程中,发现对数阈值的变化与饱和幅度的变化呈指数函数关系。5. 在漂白10%或更少的视杆色素后,对数阈值恢复和400nm处吸光度降低(变视紫红质II+游离视黄醛)的动力学都可以用两个具有相似时间常数的并发一级过程来描述。然而,在漂白超过10%的视杆色素后,敏感度和吸光度的变化并不遵循平行的时间进程。6. 变视紫红质III不能单独负责设定美西螈视杆敏感度,因为在暗适应过程中视杆阈值单调下降,而变视紫红质III浓度在漂白后3分钟达到峰值,此后下降。
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