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THE GENERATION OF HYDROXYL RADICALS FROM COPPER, ZINC SUPEROXIDE DISMUTASE REACTING WITH H2O2

铜锌超氧物歧化酶与过氧化氢反应中羟自由基的形成

作 者 :傅爱根,王爱国,罗广华

期 刊 :热带亚热带植物学报 1998年 6卷 2期 页码:111~116

关键词:铜锌超氧物歧化酶过氧化氢羟自由基铜离子脱氧核糖降解法

Keywords:Copper-zinc superoxide dismutase, Hydrogen peroxide, Hydroxyl radical, Copper ion, Deoxyribose degradation method,

摘 要 :应用脱氧核糖降解法研究了离体条件下Cu,Zn-SOD与H2O2反应产生·OH,并对其机理进行了探讨。H2O2可使Cu,Zn-SOD失活,在失活过程中有·OH产生,甲酸钠和苯甲酸钠均能不同程度地保护Cu,Zn-SOD和降低H2O2与Cu,Zn-SOD反应中·OH的产额;热失活SOD也可和H2O2反应生成·OH,且效能高于活性Cu,Zn-SOD;用螫合剂脱去Cu,Zn-SOD的金属辅基后,脱辅基的SOD蛋白不能和H2O2反应产生·OH;Cu2+和H2O2反应产生·OH的效率很高,而Zn2+产生·OH的效率很低。实验结果提示Cu,Zn-SOD与H2O2反应产生的·OH可能是SOD活性中心的Cu2+与H2O2发生Fenton反应的结果.

Abstract:The generation of .OH from Cu,Znroontaining superoxide dismutase (CuZn-SOD) reacting with H2O2 was studied by using deoxyribose degradation method in which deoxyribose reacts with. OH to release TBA-reactive compounds. Cu, ZnSOD could be inactivated by H2O2, during which. OH was produced. Formate and benzoate,scavengers of. OH, could partially protect Cu,Zn-SOD against inaCtivation by H2O2, and could inhibit the generation of. OH from Cu, Zn-SOD reacting with H2O2. Heat inactivated Cu,Zn-SOD could also react with H2O2 to generate. OH, and it was more effective in generating .OH than the active Cu,Zn-SOD. Apoprotein of Cu,ZnSOD did not catalyze .OH generation from H2O2. Zn2+ could hardly react with H2O2 to form ‘OH, whereas Cu2+ was highly effective in generating. OH through Fenton reaction. These observations suggest that the generation of. OH from Cu,Zn-SOD reacting with Hood is due to the Fenton reaction between H2O2, and Cu2+ in the active center of Cu,Zn-SOD.

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