Kinetics of the quinone binding reaction at the QB site of reaction centers from the purple bacteria Rhodobacter sphaeroides reconstituted in liposomes.

European journal of biochemistry Pub Date : 2003-12-01 DOI:10.1046/j.1432-1033.2003.03845.x

Francesco Milano, Angela Agostiano, Fabio Mavelli, Massimo Trotta

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引用次数: 47

Abstract

Transmembrane proton translocation in the photosynthetic membranes of the purple bacterium Rhodobacter sphaeroides is driven by light and performed by two transmembrane complexes; the photosynthetic reaction center and the ubiquinol-cytochrome c oxidoreductase complex, coupled by two mobile electron carriers; the cytochrome and the quinone. This paper focuses on the kinetics and thermodynamics of the interaction between the lipophylic electron carrier ubiquinone-10 and the photosynthetic enzyme reconstituted in liposomes. The collected data were simulated with an existing recognized kinetic scheme and the kinetic constants of the uptake (7.2 x 107 M(-1) x s(-1)) and release (40 s(-1)) processes of the ligand were inferred. The results obtained for the quinone release kinetic constant are comparable to the rate of the charge recombination reaction from the state D(+)QA(-). Values for the kinetic constants are discussed as part of the overall photocycle, suggesting that its bottleneck may not be the quinone uptake reaction in agreement with a previous report.

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脂质体中重组紫色球形红杆菌反应中心QB位点醌结合反应动力学。

跨膜质子易位光合膜的紫色细菌Rhodobacter sphaeroides是由光和由两个跨膜复合物;光合反应中心和泛醇-细胞色素c氧化还原酶复合体，由两个移动电子载体偶联;细胞色素和醌。本文重点研究了脂质体电子载体泛素-10与脂质体中重组的光合酶相互作用的动力学和热力学。用现有的公认的动力学方案模拟了收集到的数据，并推断了配体的摄取(7.2 x 107 M(-1) x s(-1))和释放(40 s(-1))过程的动力学常数。得到的醌释放动力学常数与D(+)QA(-)状态下的电荷复合反应速率相当。动力学常数的值作为整个光循环的一部分进行了讨论，表明其瓶颈可能不是与先前报告一致的醌摄取反应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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European journal of biochemistry

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