重组到脂质体中并与细菌视紫红质共重组的叶绿体H(+)-ATP酶（CF0F1）催化ATP合成的动力学

Kinetics of ATP synthesis catalyzed by the H(+)-ATPase from chloroplasts (CF0F1) reconstituted into liposomes and coreconstituted with bacteriorhodopsin.

作者信息

Richard P, Gräber P

机构信息

Biologisches Institut, Universität Stuttgart, Federal Republic of Germany.

出版信息

Eur J Biochem. 1992 Nov 15;210(1):287-91. doi: 10.1111/j.1432-1033.1992.tb17419.x.

DOI:10.1111/j.1432-1033.1992.tb17419.x

PMID:1446676

Abstract

The H(+)-ATPase from chloroplasts (CF0F1) was isolated, purified and reconstituted into liposomes from phosphatidylcholine/phosphatidic acid. A transmembrane pH difference, delta pH, and a transmembrane electric potential difference, delta psi, were generated by an acid/base transition. The rate of ATP synthesis was measured at constant delta pH and constant delta psi as a function of temperature between 5 degrees C and 45 degrees C. The activation energy was 55 kJ mol-1. CF0F1 was coreconstituted with bacteriorhodopsin at a molar ratio of approximately 1:170 in the same type of liposomes. Illumination of the proteoliposomes leads to proton transport into the vesicles generating a constant delta pH = 1.8. The dependence of the rate of ATP synthesis on ADP concentration was measured with CF0F1 in the oxidized state, E(ox), and in the reduced state, E(red). The results can be described by Michaelis-Menten kinetics with the following parameters: Vmax = 0.5 s-1, Km = 8 microM for E(ox) and Vmax = 2.0 s-1, Km = 8 microM for E(red).

摘要

从叶绿体中分离、纯化出H(+)-ATP酶（CF0F1），并将其重构成由磷脂酰胆碱/磷脂酸组成的脂质体。通过酸/碱转换产生跨膜pH差（ΔpH）和跨膜电势差（Δψ）。在恒定的ΔpH和恒定的Δψ条件下，测量了5℃至45℃之间温度对ATP合成速率的影响。活化能为55 kJ mol-1。CF0F1与细菌视紫红质以大约1:170的摩尔比在同一类型的脂质体中进行共重组。蛋白脂质体受光照会导致质子转运到囊泡中，产生恒定的ΔpH = 1.8。用处于氧化态E(ox)和还原态E(red)的CF0F1测量了ATP合成速率对ADP浓度的依赖性。结果可用米氏动力学描述，参数如下：E(ox)时Vmax = 0.5 s-1，Km = 8 μM；E(red)时Vmax = 2.0 s-1，Km = 8 μM。

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Kinetics of ATP synthesis catalyzed by the H(+)-ATPase from chloroplasts (CF0F1) reconstituted into liposomes and coreconstituted with bacteriorhodopsin.重组到脂质体中并与细菌视紫红质共重组的叶绿体H(+)-ATP酶（CF0F1）催化ATP合成的动力学

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重组到脂质体中并与细菌视紫红质共重组的叶绿体H(+)-ATP酶（CF0F1）催化ATP合成的动力学

Kinetics of ATP synthesis catalyzed by the H(+)-ATPase from chloroplasts (CF0F1) reconstituted into liposomes and coreconstituted with bacteriorhodopsin.

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