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线粒体膜细胞色素aa3和ATP合酶的构象变化及其在线粒体能量转导中的作用。

Conformational changes in cytochrome aa3 and ATP synthetase of the mitochondrial membrane and their role in mitochondrial energy transduction.

作者信息

Wikström M K, Saari H T

出版信息

Mol Cell Biochem. 1976 Mar 26;11(1):17-33. doi: 10.1007/BF01792831.

DOI:10.1007/BF01792831
PMID:5667
Abstract
  1. The thermodynamics and molecular basis of energy-linked conformational changes in the cytochrome aa3 and ATP synthetase complexes of the mitochondrial membrane have been studied with spectrophotometrical and fluorometrical techniques. 2. Ferric cytochrome aa3 exists in two conformations, high spin and low spin, the equilibrium between these states being controlled by the electrical potential difference across the mitochondrial membrane. The conformational change is brought about by an electrical field-driven binding of one proton per aa3 to the complex. At pH 7.2 the concentration of the two conformations is equal at a membrane potential of 170 mV corresponding to about 4 kcal/mole. 3. The high to low spin transition in ferric aa3 is also induced by hydrolysis of ATP in which case two molecules of aa3 are shifted per ATP molecule hydrolyzed. This is in accordance with translocation of two protons across the mitochondrial membrane coupled to hydrolysis of ATP as proposed in the chemiosmotic theory of oxidative phosphorylation. 4. The conformational transition in cytochrome aa3 is not an expression of the formation of a 'high-energy' intermediate or reversal of the energy-transducing pathway of oxidative phosphorylation, but is presumably the basis of allosteric control of the activity of cytochrome oxidase by the energy state of the mitochondrion. This control is exerted by a regulatory mechanism in which the electrical potential difference controls the conformation and redox properties of the heme centres and thereby the rate of oxygen consumption. 5. The synthesis of one molecule of ATP by oxidative phosphorylation is energetically equivalent to the work done in carrying two electrical charges across the entire mitochondrial membrane. 6. Fluorescence changes of aurovertin bound to ATP synthetase reveal that the electrical membrane potential induces a conformational change in the F1 portion of the enzyme which is probably associated with dissociation of the natural F1 inhibitor protein. This conformational change is energetically equivalent to the work done in carrying one electrical charge across the mitochondrial membrane. 7. A model is proposed for the mechanism of the electrical field-induced conformational changes in the cytochrome aa3 and ATP synthetase complexes, and the significance of these changes in the mechanism and control of mitochondrial energy conservation is discussed.
摘要
  1. 已运用分光光度法和荧光测定技术研究了线粒体膜细胞色素aa3和ATP合酶复合物中能量相关构象变化的热力学及分子基础。2. 高铁细胞色素aa3以高自旋和低自旋两种构象存在,这些状态之间的平衡受线粒体膜两侧电势差的控制。这种构象变化是由电场驱动每个aa3结合一个质子到复合物上引起的。在pH 7.2时,膜电位为170 mV(约相当于4千卡/摩尔)时两种构象的浓度相等。3. 高铁aa3从高自旋到低自旋的转变也可由ATP水解诱导,在这种情况下,每水解一个ATP分子会使两个aa3分子发生转变。这与化学渗透氧化磷酸化理论中提出的两个质子跨线粒体膜转运与ATP水解相偶联是一致的。4. 细胞色素aa3中的构象转变并非“高能”中间体形成或氧化磷酸化能量转换途径逆转的表现,而可能是线粒体能量状态对细胞色素氧化酶活性进行变构控制的基础。这种控制是通过一种调节机制实现的,其中电势差控制血红素中心的构象和氧化还原性质,从而控制耗氧速率。5. 通过氧化磷酸化合成一分子ATP在能量上等同于将两个电荷转运穿过整个线粒体膜所做的功。6. 与ATP合酶结合的金褐霉素的荧光变化表明,膜电势会诱导该酶F1部分发生构象变化,这可能与天然F1抑制蛋白的解离有关。这种构象变化在能量上等同于将一个电荷转运穿过线粒体膜所做的功。7. 提出了一个关于电场诱导细胞色素aa3和ATP合酶复合物构象变化机制的模型,并讨论了这些变化在线粒体能量守恒机制及控制中的意义。

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本文引用的文献

1
Intracellular distribution of enzymes; the oxidation of octanoic acid by rat liver fractions.酶的细胞内分布;大鼠肝脏各部分对辛酸的氧化作用。
J Biol Chem. 1948 Oct;176(1):259-66.
2
Protein measurement with the Folin phenol reagent.使用福林酚试剂进行蛋白质测定。
J Biol Chem. 1951 Nov;193(1):265-75.
3
[On the reversibility of oxidative phosphorylation. IV. Relation between the redox state of cytochrome c and the phosphorylation potential of adenosine triphosphate].[关于氧化磷酸化的可逆性。IV. 细胞色素c的氧化还原状态与三磷酸腺苷磷酸化电位之间的关系]
钙离子和氢离子与细胞色素氧化酶中血红素A的相互作用。
J Bioenerg Biomembr. 1980 Aug;12(3-4):325-38. doi: 10.1007/BF00744692.
4
Binding of ligands and spectral shifts in cytochrome c oxidase.细胞色素c氧化酶中配体的结合与光谱位移
Biochem J. 1978 Jul 1;173(1):65-72. doi: 10.1042/bj1730065.
Biochem Z. 1961;335:263-72.
4
[On the reversibility of oxidative phosphorylation. III. Effect of adenosine triphosphate on the respiratory chain in respiratory inhibited mitochondria].[关于氧化磷酸化的可逆性。III. 三磷酸腺苷对呼吸抑制的线粒体中呼吸链的影响]
Biochem Z. 1961;335:243-62.
5
ANTIBIOTIC STUDIES. II. INHIBITION OF PHOSPHORYL TRANSFER IN MITOCHONDRIA BY OLIGOMYCIN AND AUROVERTIN.抗生素研究。II. 寡霉素和金褐霉素对线粒体中磷酸转移的抑制作用。
Biochemistry. 1964 Dec;3:1961-8. doi: 10.1021/bi00900a030.
6
A NATURALLY OCCURRING INHIBITOR OF MITOCHONDRIAL ADENOSINE TRIPHOSPHATASE.一种天然存在的线粒体腺苷三磷酸酶抑制剂。
J Biol Chem. 1963 Nov;238:3762-9.
7
Coupling of phosphorylation to electron and hydrogen transfer by a chemi-osmotic type of mechanism.通过化学渗透机制将磷酸化与电子及氢转移相偶联。
Nature. 1961 Jul 8;191:144-8. doi: 10.1038/191144a0.
8
The interaction of energy and electron transfer reactions in mitochondria. II. General properties of adenosine triphosphate-linked oxidation of cytochrome and reduction of pyridine nucleotide.线粒体中能量与电子转移反应的相互作用。II. 细胞色素的三磷酸腺苷连接氧化及吡啶核苷酸还原的一般特性。
J Biol Chem. 1961 May;236:1544-54.
9
The interaction of energy and electron transfer reactions in mitochondria. VI. The efficiency of the reaction.线粒体中能量与电子转移反应的相互作用。VI. 反应效率。
J Biol Chem. 1961 May;236:1577-84.
10
Antibiotics as tools for metabolic studies. I. A survey of toxic antibiotics in respiratory, phosphorylative and glycolytic systems.抗生素作为代谢研究工具。I. 呼吸、磷酸化和糖酵解系统中有毒抗生素的综述。
Arch Biochem Biophys. 1958 Dec;78(2):587-97. doi: 10.1016/0003-9861(58)90383-7.