铜对（马）血红蛋白的氧化作用：通过电子自旋共振检测到的一种中间体

Oxidation of (horse) hemoglobin by copper: an intermediate detected by electron spin resonance.

作者信息

Rifkind J M

出版信息

Biochemistry. 1979 Sep 4;18(18):3860-5. doi: 10.1021/bi00585a005.

DOI:10.1021/bi00585a005

Abstract

The oxidation of horse hemoglobin by Cu(II) has been followed by the changes in the electron spin resonance spectra of copper. By stopped-flow and freeze-quenching techniques, it is shown that the second-order rate constant for the binding of Cu(II) to hemoglobin is greater than 5 X 10(5) mol-1 s-1 and the apparent first-order rate for the reduction of Cu(II) to Cu(I) is 0.051 s-1. It is also shown that the binding of Cu(II) to hemoglobin is followed by an alteration of the Cu(II) spectrum, decreasing the g values. This process has an apparent rate constant of 17 s-1 and presumably involves a conformational change in the region of the copper binding site. It is also shown that this conformational change is apparently necessary for Cu(II) to oxidize hemoglobin.

摘要

通过铜的电子自旋共振光谱变化跟踪了Cu(II)对马血红蛋白的氧化过程。采用停流和冷冻猝灭技术表明，Cu(II)与血红蛋白结合的二级速率常数大于5×10⁵ mol⁻¹ s⁻¹，Cu(II)还原为Cu(I)的表观一级速率为0.051 s⁻¹。还表明，Cu(II)与血红蛋白结合后会导致Cu(II)光谱发生改变，g值降低。这个过程的表观速率常数为17 s⁻¹，推测涉及铜结合位点区域的构象变化。还表明这种构象变化显然是Cu(II)氧化血红蛋白所必需的。

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