铜锌超氧化物歧化酶中共价多硫化物桥的特性。
Characterization of a covalent polysulfane bridge in copper-zinc superoxide dismutase .
机构信息
Laboratory of Biochemistry, National Heart, Lung, and Blood Institute, Bethesda, Maryland 20892, USA.
出版信息
Biochemistry. 2010 Feb 16;49(6):1191-8. doi: 10.1021/bi901844d.
Abstract
In the course of studies on human copper-zinc superoxide dismutase (SOD1), we observed a modified form of the protein whose mass was increased by 158 mass units. The covalent modification was characterized, and we established that it is a novel heptasulfane bridge connecting the two Cys111 residues in the SOD1 homodimer. The heptasulfane bridge was visualized directly in the crystal structure of a recombinant human mutant SOD1, H46R/H48Q, produced in yeast. The modification is reversible, with the bridge being cleaved by thiols, by cyanide, and by unfolding of the protein to expose the polysulfane. The polysulfane bridge can be introduced in vitro by incubation of purified SOD1 with elemental sulfur, even under anaerobic conditions and in the presence of a metal chelator. Because polysulfanes and polysulfides can catalyze the generation of reactive oxygen and sulfur species, the modification may endow SOD1 with a toxic gain of function.
摘要
在研究人类铜锌超氧化物歧化酶(SOD1)的过程中,我们观察到一种蛋白质的修饰形式,其分子量增加了 158 个质量单位。对这种共价修饰进行了特征描述,我们确定它是一种新型的连接 SOD1 同源二聚体中两个 Cys111 残基的七硫桥。在酵母中产生的重组人突变 SOD1,H46R/H48Q 的晶体结构中直接观察到了七硫桥。该修饰是可逆的,桥可以被巯基、氰化物和蛋白质展开以暴露多硫键切割。多硫桥可以通过将纯化的 SOD1 与元素硫孵育来引入体外,甚至在无氧条件下和金属螯合剂存在的情况下也是如此。因为多硫和多硫化物可以催化活性氧和硫物种的生成,所以这种修饰可能使 SOD1 获得毒性的功能增益。
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