大鼠肝脏线粒体膜系统的酸碱滴定。解偶联剂的催化作用。
Acid-base titration across the membrane system of rat-liver mitochondria. Catalysis by uncouplers.
作者信息
Mitchell P, Moyle J
出版信息
Biochem J. 1967 Aug;104(2):588-600. doi: 10.1042/bj1040588.
Abstract
- Pulsed acid-base titrations of suspensions of rat-liver mitochondria under anaerobic equilibrium conditions show fast and slow titration processes. 2. The fast process is the titration of the outer aqueous phase of the mitochondria, which is continuous with the suspension medium, and the slow process can be identified with the titration of the inner aqueous phase of the mitochondria, which is separated from the outer aqueous phase by the non-aqueous osmotic barrier or M phase of the cristae membrane system. 3. The buffering power of the outer and inner phases have been separately measured over a range of pH values. 4. The rate of titration of the inner aqueous phase under a known protonmotive force across the M phase has been characterized by an effective proton conductance coefficient, which, near pH7 and at 25 degrees , is only 0.45mumho/cm.(2) of the M-phase membrane. 5. The low effective proton conductance of the M phase will account quantitatively for the observed respiratory control in state 4, assuming that oxidoreduction and phosphorylation are coupled by a circulating proton current as required by the chemi-osmotic hypothesis. 6. The addition of 2,4-dinitrophenol (or carbonyl cyanide p-trifluoromethoxyphenylhydrazone) at normal uncoupling concentrations causes a large increase in the effective proton conductance of the M phase of the cristae membrane. 7. The increase of the effective proton conductance of the M phase by 2,4-dinitrophenol (or carbonyl cyanide p-trifluoromethoxyphenylhydrazone) will account quantitatively for the short-circuiting effect of the uncoupling agent on the proton current and for the observed rise of the rate of respiration to that characteristic of state 3 or higher.
摘要
- 在厌氧平衡条件下对大鼠肝脏线粒体悬浮液进行脉冲酸碱滴定,显示出快速和缓慢的滴定过程。2. 快速过程是线粒体外部水相的滴定,该外部水相与悬浮介质连续,而缓慢过程可确定为线粒体内部水相的滴定,内部水相通过嵴膜系统的非水渗透屏障或M相与外部水相分离。3. 已在一系列pH值范围内分别测量了外部和内部相的缓冲能力。4. 在已知跨M相质子动力下内部水相的滴定速率已由有效质子传导系数表征,在pH7附近和25摄氏度时,该系数仅为M相膜的0.45微姆欧/厘米²。5. 假设氧化还原和磷酸化如化学渗透假说所要求的那样通过循环质子电流耦合,M相低的有效质子传导将定量解释在状态4中观察到的呼吸控制。6. 在正常解偶联浓度下添加2,4-二硝基苯酚(或羰基氰对三氟甲氧基苯腙)会导致嵴膜M相的有效质子传导大幅增加。7. 2,4-二硝基苯酚(或羰基氰对三氟甲氧基苯腙)使M相有效质子传导增加,这将定量解释解偶联剂对质子电流的短路效应以及观察到的呼吸速率上升至状态3或更高状态的特征。
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