线粒体解偶联机制:作为循环阳离子和质子离子载体的解偶联剂
Mechanism of uncoupling in mitochondria: uncouplers as ionophores for cycling cations and protons.
作者信息
Kessler R J, Tyson C A, Green D E
出版信息
Proc Natl Acad Sci U S A. 1976 Sep;73(9):3141-5. doi: 10.1073/pnas.73.9.3141.
Abstract
Classical uncouplers such as 2,4-dinitrophenol have been shown to be ionophores with the capability for transporting monovalent or divalent cations with equal efficiency. The conditions appropriate for the maximal expression of this ionophoric capability have been explored. Two critical factors are the polarity of the organic phase and the pH of the aqueous phase that is equilibrated with the organic phase. The demonstrated cationic ionophoric capability of uncouplers, taken in conjunction with the known ability of uncouplers to cycle protons across a membrane phase, provides the experimental basis for the thesis that uncoupling of electron flow from ATP synthesis via classical uncouplers involves the substitution of one coupled process by another. Uncoupling thus reduces to the replacement of one driven reaction (ATP synthesis) by the driven reaction (cyclical transport) mediated by the uncoupler.
摘要
经典解偶联剂,如2,4 -二硝基苯酚,已被证明是离子载体,能够以相同效率转运单价或二价阳离子。人们已探索了适合这种离子载体能力最大程度发挥的条件。两个关键因素是有机相的极性和与有机相平衡的水相的pH值。解偶联剂已证实的阳离子离子载体能力,结合其已知的使质子跨膜循环的能力,为以下论点提供了实验依据:通过经典解偶联剂使电子流与ATP合成解偶联涉及用另一个偶联过程取代一个偶联过程。因此,解偶联归结为用解偶联剂介导的驱动反应(循环转运)取代一个驱动反应(ATP合成)。
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