Non-phosphorylated intermediates in oxidative phosphorylation

Pierre V. Vignais
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引用次数: 11

Abstract

  • 1.

    1. This paper is concerned with the study of the formation of non-phosphorylated intermediates in digitonin particles prepared from rat-liver mitochondria.

  • 2.

    2. Digitonin particles were preincubated with either β-hydroxybutyrate, sucinate or ferrocytochrome c for a short time at 20°. After cooling the preincubated mixture was incubated at 1° with 32Pi and ADP. Under these conditions, the time course of [32P]ATP synthesis is represented by a biphasic curve. The initial portion corresponds to a high rate of [32P]ATP synthesis whereas the second portion corresponds to a slower rate.

  • 3.

    3. The rapid initial [32P]ATP synthesis is maximal for pH values ranging from 6.5 to 7.3. It is increased by compounds which increase the efficiency of oxidative phosphorylation in digitonin particles such as EDTA and serum albumin and is inhibited by inhibitors of oxidative phosphorylation such as 2,4-dinitrophenol or azide. It is delayed or considerably depressed when unlabeled Pi is added during the preincubation time prior to the addition of 32Pi and ADP but is not affected by atractylate, a compound which is capable of specifically inhibiting the ATP-Pi exchange in digitonin particles without interfering with the ATP synthesis linked to respiration. Finally it is enhanced by low concentrations of oligomycin which at 1° have little effect on the rate and the yield of oxidative phosphorylation.

  • 4.

    4. The effect of 32Pi concentration on the initial rate of [32P]ATP synthesis was determined: Km = 1.7·10−3 M.

  • 5.

    5. The experimental findings have been interpreted as follows: non-phosphorylated intermediates accumulate in digitonin particles during the oxidation of β-hydroxybutyrate, succinate or ferrocytochrome c. These intermediates are discharged upon addition of Pi and ADP, the net result of the reaction being the synthesis of ATP.

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氧化磷酸化中的非磷酸化中间体
1.1. 本文研究了从大鼠肝脏线粒体中制备洋地黄苷颗粒中非磷酸化中间体的形成。洋地黄苷颗粒与β-羟基丁酸盐、琥珀酸盐或铁细胞色素c在20°下预孵育短时间。冷却后,将预孵育的混合物用32Pi和ADP在1°下孵育。在此条件下,[32P]ATP合成的时间过程用双相曲线表示。初始部分对应于[32P]ATP合成的高速率,而第二部分对应于较慢的速率。pH值在6.5 ~ 7.3范围内,快速初始[32P]ATP合成是最大的。增加氧化磷酸化效率的化合物(如EDTA和血清白蛋白)会增加氧化磷酸化的效率,而氧化磷酸化抑制剂(如2,4-二硝基酚或叠氮化物)则会抑制氧化磷酸化。在加入32Pi和ADP之前的预孵育期间,如果加入未标记的Pi,则会延迟或明显抑制,但不受天合碱的影响,天合碱是一种能够特异性抑制地黄皂苷颗粒中ATP-Pi交换的化合物,而不会干扰与呼吸有关的ATP合成。最后,低浓度的寡霉素对氧化磷酸化的速率和产率几乎没有影响。测定了32Pi浓度对[32P]ATP合成初始速率的影响:Km = 1.7·10−3 M.5.5。实验结果解释如下:在β-羟基丁酸盐、琥珀酸盐或铁细胞色素c氧化过程中,未磷酸化的中间体在洋地黄苷颗粒中积累。这些中间体在加入Pi和ADP后排出,反应的最终结果是合成ATP。
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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