Protonation of the imidazole ring prevents the modulation by histidine of oxidative DNA degradation

Mutation Research/DNAging Pub Date : 1994-02-01 DOI:10.1016/0921-8734(94)90003-5

Séverine Ouzou, André Deflandre, Paolo U. Giacomoni

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引用次数: 6

Abstract

When supercoiled DNA is incubated Fe(II) at pH 7 in the presence of hydrogen peroxide, the rate of nicking first increases with increasing H₂O₂ concentration to reach a maximum, then decreases and eventually increases agein. When 0.1 mM histidine is added at neutral pH at low H₂O₂ concentration (< 3 mM), it hinders the nicking of DNA; when it is added at high H₂O₂ concentrations (> 10 mM), it enhances the rate of nicking. When similar experiments are performed at slightly acidic pH (4.5) the biphasic behavior is maintained, independent of the presence of histidine. One can conclude that the protonation of imidazole (pK = 5.9) abolishes the capability of histidine to modulate the oxidative degradation of DNA. Results of electron spin resonance experiments suggest that at low H₂O₂ concentration, the protective effect of histidine could be the consequence of its capability to bind OH^. radicals.

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咪唑环的质子化阻止组氨酸对DNA氧化降解的调节

当超螺旋DNA在pH为7的过氧化氢条件下培养Fe(II)时，随着H2O2浓度的增加，切口速率先增加，达到最大值，然后降低，最终增加。在中性pH下加入0.1 mM组氨酸，低H2O2浓度(<3毫米)，它阻碍了DNA的缺口;当加入高浓度H2O2时(>10毫米)，它提高了刻痕率。当类似的实验在微酸性pH(4.5)下进行时，两相行为保持不变，与组氨酸的存在无关。可以得出结论，咪唑的质子化(pK = 5.9)消除了组氨酸调节DNA氧化降解的能力。电子自旋共振实验结果表明，在低H2O2浓度下，组氨酸的保护作用可能是其结合OH的能力的结果。激进分子。

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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Mutation Research/DNAging

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