Hsin-Yao Tang, David W. Speicher
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引用次数: 4
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Abstract
The formation of disulfide bonds in proteins is an important post-translational modification that is critical for stabilizing the native structures of proteins, particularly proteins exposed to oxidizing environments. For this reason, most cysteines in secreted proteins or protein domains on the surface of the cell are in disulfides, whereas most cysteines in the cytoplasm are in the unmodified -SH form. Disulfide linkages must be experimentally determined, as they cannot be predicted from amino acid sequence. These assignments provide insights into three-dimensional structure and contribute to the understanding of structural-functional relationships. This unit details a series of protocols that have been applied successfully to map disulfide bonds in proteins. The general strategy involves chemical or proteolytic cleavage of the protein followed by chromatographic separation of the resultant peptides. Mass spectrometry is used to identify disulfide-containing peptides and determine sites of disulfide linkage. A partial reduction and alkylation strategy for mapping disulfide linkages in peptides with multiple disulfide bonds is also presented. © 2019 by John Wiley & Sons, Inc.
纯化蛋白中二硫键的实验分配
蛋白质中二硫键的形成是一种重要的翻译后修饰,对于稳定蛋白质的天然结构至关重要,特别是暴露于氧化环境中的蛋白质。因此,分泌蛋白或细胞表面蛋白结构域中的大多数半胱氨酸呈二硫化物,而细胞质中的大多数半胱氨酸呈未修饰的-SH形式。二硫键必须实验确定,因为它们不能从氨基酸序列预测。这些作业提供了对三维结构的见解,有助于理解结构-功能关系。本单元详细介绍了一系列已成功应用于绘制蛋白质中的二硫键的协议。一般策略包括化学或蛋白质水解裂解蛋白质,然后色谱分离所得多肽。质谱法用于鉴定含二硫肽和确定二硫键的位点。部分还原和烷基化策略映射二硫键多肽与多个二硫键。©2019 by John Wiley &儿子,Inc。
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