在生理相关时间尺度上对电鳐乙酰胆碱受体介导的阳离子转运进行直接光谱研究。
Direct spectroscopic studies of cation translocation by Torpedo acetylcholine receptor on a time scale of physiological relevance.
作者信息
Moore H P, Raftery M A
出版信息
Proc Natl Acad Sci U S A. 1980 Aug;77(8):4509-13. doi: 10.1073/pnas.77.8.4509.
Abstract
The kinetics of carbamoylcholine-mediated cation transport across the membrane of vesicles containing acetylcholine receptor have been measured on the physiologically relevant time scale of a few milliseconds. The stopped-flow spectroscopic approach utilizes thallium(I) as the cation transported into sealed vesicles containing a water-soluble fluorophore. Upon entry of thallium(I), fluorescence quenching occurs by a heavy atom effect. Rapid thallium translocation into the vesicles is mediated by cholinergic agonists and is blocked by antagonists and neurotoxins and by desensitization. The kinetics of thallium transport are used to demonstrate that the four polypeptides known to comprise the receptor are the only protein components necessary for cation translocation. The kinetics of thallium(I) transport at saturating agonist concentrations are also used to calculate the apparent ion transport rate for a single receptor. The minimal value obtained is close to that for a single activated channel determined in vivo. This demonstrates that the physiological receptor has been isolated in intact form.
摘要
已在几毫秒的生理相关时间尺度上测量了氨甲酰胆碱介导的阳离子跨含乙酰胆碱受体囊泡膜转运的动力学。停流光谱法利用铊(I)作为转运到含有水溶性荧光团的密封囊泡中的阳离子。铊(I)进入后,通过重原子效应发生荧光猝灭。胆碱能激动剂介导铊快速转运到囊泡中,并被拮抗剂、神经毒素和脱敏作用所阻断。铊转运的动力学用于证明已知构成受体的四种多肽是阳离子转运所需的唯一蛋白质成分。在饱和激动剂浓度下铊(I)转运的动力学也用于计算单个受体的表观离子转运速率。获得的最小值接近体内测定的单个激活通道的值。这表明生理受体已以完整形式分离出来。
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Kinetic analysis of receptor-controlled tracer efflux from sealed membrane fragments.受体控制的示踪剂从密封膜片段流出的动力学分析。
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