人硫氧还蛋白的晶体结构揭示了展开的螺旋和暴露的 S-亚硝化位点。
Crystal structure of human thioredoxin revealing an unraveled helix and exposed S-nitrosation site.
机构信息
Department of Chemistry and Biochemistry, University of Arizona, Tucson, Arizona 85721, USA.
出版信息
Protein Sci. 2010 Sep;19(9):1801-6. doi: 10.1002/pro.455.
Abstract
Thioredoxins reduce disulfide bonds and other thiol modifications in all cells using a CXXC motif. Human thioredoxin 1 is unusual in that it codes for an additional three cysteines in its 105 amino acid sequence, each of which have been implicated in other reductive activities. Cys 62 and Cys 69 are buried in the protein interior and lie at either end of a short helix (helix 3), and yet can disulfide link under oxidizing conditions. Cys 62 is readily S-nitrosated, giving rise to a SNO modification, which is also buried. Here, we present two crystal structures of the C69S/C73S mutant protein under oxidizing (1.5 A) and reducing (1.1 A) conditions. In the oxidized structure, helix 3 is unraveled and displays a new conformation that is stabilized by a series of new hydrogen bonds and a disulfide link with Cys 62 in a neighboring molecule. The new conformation provides an explanation for how a completely buried residue can participate in SNO exchange reactions.
摘要
硫氧还蛋白使用CXXC 基序还原所有细胞中的二硫键和其他巯基修饰。人硫氧还蛋白 1 不同寻常之处在于,其 105 个氨基酸序列中额外编码了三个半胱氨酸,每个半胱氨酸都参与了其他还原活性。Cys62 和 Cys69 埋藏在蛋白质内部,位于短螺旋(螺旋 3)的两端,但在氧化条件下可以形成二硫键。Cys62 很容易被 S-亚硝基化,产生 SNO 修饰,也被埋藏。在这里,我们展示了 C69S/C73S 突变蛋白在氧化(1.5 A)和还原(1.1 A)条件下的两个晶体结构。在氧化结构中,螺旋 3 解开,并呈现出一种新的构象,该构象由一系列新的氢键和与相邻分子中的 Cys62 的二硫键稳定。新构象解释了一个完全埋藏的残基如何参与 SNO 交换反应。
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