青蛙视网膜中视紫红质视杆细胞的视觉适应。
Visual adaptation of the rhodopsin rods in the frogs retina.
作者信息
Donner K O, Reuter T
出版信息
J Physiol. 1968 Nov;199(1):59-87. doi: 10.1113/jphysiol.1968.sp008639.
Abstract
- The threshold of the discharge from single ganglion cells in the excised and opened frog's eye has been measured with on/off stimuli and test parameters that make it possible to activate the rhodopsin rods only. The test stimuli have been restricted to the central part of the receptive field, where no nervous reorganization can be observed with changes in the state of adaptation.2. When such thresholds and the intensities of the background lights are expressed in terms of the number of quanta absorbed per unit time, it is found that three factors can be correlated with the thresholds measured in various states of light- and dark-adaptation: (i) the intensity of a steady background, (ii) the rate of regeneration of rhodopsin, and (iii) the amount of metarhodopsin II present in the rods.3. The threshold is found to be proportional both to the intensity of a background and to the rate of regeneration, whereas there is a linear relationship between the logarithm of the threshold and the amount of metarhodopsin II.4. The presence of metarhodopsin elevates all thresholds, the absolute threshold, increment thresholds and the thresholds elevated by regenerating rhodopsin in the same way.5. The saturation of the rods at high background intensities is found to be correlated with the accumulation of significant amounts of metarhodopsin in the rods, caused by the bleaching effect of the background.6. The effect of metarhodopsin on the threshold is independent of the amount of rhodopsin present in the rods.7. The combined effect of all three factors can be expressed in a general formula, given as eqn. (7) on p. 74.8. A background not only reduces the signals from the rods illuminated, but also those from neighbouring unilluminated rods. This effect is rapidly decreased with increasing distance from rods covered by the background. This kind of lateral spread in the retina probably occurs also when the rate of regeneration affects the threshold. The effect of metarhodopsin, on the other hand, appears restricted to those receptors that contain this substance.
摘要
利用开/关刺激以及仅激活视紫红质视杆细胞的测试参数,测量了切除并打开的蛙眼中单个神经节细胞的放电阈值。测试刺激被限制在感受野的中心部分,在此处,随着适应状态的变化,未观察到神经重组现象。
当以单位时间吸收的量子数来表示此类阈值和背景光强度时,发现有三个因素与在各种明适应和暗适应状态下测得的阈值相关:(i)稳定背景的强度,(ii)视紫红质的再生速率,以及(iii)视杆细胞中存在的变视紫红质II的量。
发现阈值既与背景强度成正比,也与再生速率成正比,而阈值的对数与变视紫红质II的量之间存在线性关系。
变视紫红质的存在会提高所有阈值,绝对阈值、增量阈值以及因视紫红质再生而提高的阈值,提高方式相同。
发现在高背景强度下视杆细胞的饱和与视杆细胞中大量变视紫红质的积累相关,这是由背景的漂白效应引起的。
变视紫红质对阈值的影响与视杆细胞中视紫红质的含量无关。
所有三个因素的综合作用可以用一个通用公式表示,如第74页的式(7)所示。
背景不仅会降低被照亮视杆细胞的信号,还会降低相邻未被照亮视杆细胞的信号。随着与被背景覆盖的视杆细胞距离的增加,这种效应会迅速减弱。当再生速率影响阈值时,视网膜中可能也会出现这种横向扩散。另一方面,变视紫红质的作用似乎仅限于含有该物质的那些感受器。
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