青蛙视杆光感受器中光诱导的GTP和ATP变化。与暗适应过程中暗电流和光敏感度恢复的比较。

Light-induced changes in GTP and ATP in frog rod photoreceptors. Comparison with recovery of dark current and light sensitivity during dark adaptation.

作者信息

Biernbaum M S, Bownds M D

出版信息

J Gen Physiol. 1985 Jan;85(1):107-21. doi: 10.1085/jgp.85.1.107.

DOI:10.1085/jgp.85.1.107

PMID:3968531

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2215811/

Abstract

Light decreases GTP and ATP levels in purified suspensions of physiologically active frog rod outer segments still attached to their inner segment ellipsoids (OS-IS). (a) The GTP decrease is slower in OS-IS (t1/2 = 40 s) than in isolated outer segments (t1/2 = 7 s), which suggests there is more effective buffering in OS-IS. (b) The GTP decrease becomes detectable only at intensities greater than those required to saturate the photoresponse. As the intensity of a continuous light is increased over 4 log units, GTP levels decrease linearly with log intensity by as much as 60%. GTP is reduced to steady intermediate levels during extended illumination of intermediate intensity. (c) At levels of illumination bleaching greater than 0.003% of the rhodopsin, a decrease in ATP levels becomes detectable. (d) Following a flash, GTP levels fall and then rise with a recovery time dependent on the intensity of the flash. (e) After both 0.2 and 2% flash bleaches, the recovery of GTP levels parallels the recovery of light sensitivity, which is slower than the recovery of the dark current. This raises the possibility of a link between GTP levels and light sensitivity.

摘要

光照会降低仍与其内段椭圆体相连的生理活性青蛙视杆细胞外段（OS-IS）纯化悬浮液中的鸟苷三磷酸（GTP）和三磷酸腺苷（ATP）水平。（a）OS-IS中GTP的降低比分离的外段中更慢（半衰期：OS-IS为40秒，分离的外段为7秒），这表明OS-IS中有更有效的缓冲作用。（b）只有在强度大于使光反应饱和所需的强度时，GTP的降低才变得可检测到。随着连续光照强度增加超过4个对数单位，GTP水平随对数强度呈线性下降，降幅高达60%。在中等强度的长时间光照期间，GTP降至稳定的中间水平。（c）当光照漂白水平超过视紫红质的0.003%时，ATP水平的降低变得可检测到。（d）闪光后，GTP水平先下降然后上升，恢复时间取决于闪光的强度。（e）在0.2%和2%的闪光漂白后，GTP水平的恢复与光敏感度的恢复平行，光敏感度的恢复比暗电流的恢复慢。这增加了GTP水平与光敏感度之间存在联系的可能性。

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本文引用的文献

Light dependent phosphorylation of rhodopsin by ATP.视紫红质在ATP作用下的光依赖性磷酸化。

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