Zuckerman R, Schmidt G J, Dacko S M
Proc Natl Acad Sci U S A. 1982 Nov;79(21):6414-8. doi: 10.1073/pnas.79.21.6414.
We have observed rapid, light-initiated changes in unbound cytosol ATP and ADP during the rhodopsin-to-metarhodopsin II transition in intact rod outer segments (ROS). Upon illumination of the ROS, ATP is rapidly removed from the unbound phase of ROS, accompanied by the concomitant release of ADP into the cytosol. The exchange process involves decreases of approximately equal to 0.5 mM ATP in ROS cytosol ATP content in response to a saturating flash. At levels of light well below saturation (less than 0.001% bleach), the process is highly amplified, with a decrease in cytosol ATP of approximately equal to 2,000 ATP molecules per absorbed photon per ROS. Rapid time-resolution techniques reveal that cytosol ATP content decreases rapidly, within 250 msec of a saturating flash. Bleaching rhodopsin to metarhodopsin II results in a decrease in cytosol ATP, accompanied by an increase in cytosol ADP, whereas photoreversal of metarhodopsin II by a blue flash reverses the process, increasing ATP concentration to its control level in the dark. The photoreversibility of the ATP decrease during the rhodopsin-to-metarhodopsin II transition establishes a direct link between the state of an early intermediate of photolyzed rhodopsin and the state of a nucleoside triphosphate in intact ROS. The results are consistent with a light-activated exchange of unbound ATP for bound ADP, and we propose, therefore, an ATP/ADP amplification cycle in which metarhodopsin II catalyzes the exchange of ATP for ADP on a nucleotide binding protein.
我们观察到,在完整的视杆细胞外段(ROS)中,视紫红质向变视紫红质II转变过程中,未结合的胞质溶胶ATP和ADP会发生快速的光引发变化。当ROS受到光照时,ATP会迅速从ROS的未结合相中移除,同时伴随ADP释放到胞质溶胶中。这种交换过程涉及到在饱和闪光刺激下,ROS胞质溶胶ATP含量减少约0.5 mM。在远低于饱和水平的光照强度下(小于0.001%漂白),该过程会被高度放大,每个ROS每吸收一个光子,胞质溶胶ATP会减少约2000个ATP分子。快速时间分辨技术显示,在饱和闪光后250毫秒内,胞质溶胶ATP含量迅速下降。视紫红质漂白为变视紫红质II会导致胞质溶胶ATP减少,同时胞质溶胶ADP增加,而用蓝光闪光使变视紫红质II光逆转则会使该过程逆转,将ATP浓度提高到黑暗中的对照水平。视紫红质向变视紫红质II转变过程中ATP减少的光可逆性,在视紫红质光解早期中间体的状态与完整ROS中核苷三磷酸的状态之间建立了直接联系。这些结果与未结合的ATP与结合的ADP进行光激活交换一致,因此我们提出了一个ATP/ADP放大循环,其中变视紫红质II催化核苷酸结合蛋白上ATP与ADP的交换。