黄嘌呤氧化酶内部电子传递的研究

James R. Fischer, James K. Hurst
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引用次数: 3

摘要

利用跳温摄动和光谱学方法探讨了黄嘌呤氧化酶(EC 1.2.3.2)分子内电子转移的结构基础。发现氧化还原平衡对温度不敏感;因此,认为电子转移不伴随任何广泛的大分子构象变化。在整个生物粒子的还原滴定过程中,没有发现可归因于光学电子转移的吸收现象。综合结果表明,黄嘌呤氧化酶中的远程电子转移可以最好地描述为仅发生在刚性蛋白质基质中嵌入的弱相互作用的氧化还原位点之间。
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On internal electron transfer in xanthine oxidase

The structural basis for intarmolecular electron transfer in xanthine oxidase (EC 1.2.3.2) has been probed using temperature-jump perturbation and optical spectroscopic methods. Redox equilibria were found to be temperature-insensitive; hence it is argued that electron transfer is not accompanied by any extensive macromolecular conformational changes. No evidence for absorption phenomena ascribable to optical electron transfer could be found throughout the course of reductive titration of the biological particle. The combined results suggest that long-range electron transfer in the xanthine oxidase can best be described as occurring between only weakly interacting redox sites embedded in a rigid protein matrix.

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Chapter III. Complexes containing carbon monoxide: synthesis, reactivity, structure, bonding and therapeutic aspects of carbon monoxide–releasing molecules (CORMs) in human beings and plants Frontmatter Chapter IV Advantageous role of gaseous signalling molecule, H2S: hydrogen sulphide and their respective donors, in ophthalmic diseases and physiological implications in plants Chapter I. Coordination chemistry of chlorophylls/ bacteriochlorophylls and its functional aspects in photosynthesis Index
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