一种协同的蛋白质结晶方法:固定臂载体与表面熵减少的结合。
A synergistic approach to protein crystallization: combination of a fixed-arm carrier with surface entropy reduction.
机构信息
Laboratory of Structural Biology, National Institute of Environmental Health Sciences, Research Triangle Park, North Carolina 27709, USA.
出版信息
Protein Sci. 2010 May;19(5):901-13. doi: 10.1002/pro.368.
Abstract
Protein crystallographers are often confronted with recalcitrant proteins not readily crystallizable, or which crystallize in problematic forms. A variety of techniques have been used to surmount such obstacles: crystallization using carrier proteins or antibody complexes, chemical modification, surface entropy reduction, proteolytic digestion, and additive screening. Here we present a synergistic approach for successful crystallization of proteins that do not form diffraction quality crystals using conventional methods. This approach combines favorable aspects of carrier-driven crystallization with surface entropy reduction. We have generated a series of maltose binding protein (MBP) fusion constructs containing different surface mutations designed to reduce surface entropy and encourage crystal lattice formation. The MBP advantageously increases protein expression and solubility, and provides a streamlined purification protocol. Using this technique, we have successfully solved the structures of three unrelated proteins that were previously unattainable. This crystallization technique represents a valuable rescue strategy for protein structure solution when conventional methods fail.
摘要
蛋白质晶体学家经常遇到不易结晶或结晶形式有问题的顽固蛋白质。已经使用了各种技术来克服这些障碍:使用载体蛋白或抗体复合物进行结晶、化学修饰、表面熵降低、蛋白水解消化和添加剂筛选。在这里,我们提出了一种协同方法,用于成功地结晶那些使用传统方法不能形成衍射质量晶体的蛋白质。该方法结合了载体驱动结晶和表面熵降低的有利方面。我们已经生成了一系列包含不同表面突变的麦芽糖结合蛋白(MBP)融合构建体,旨在降低表面熵并鼓励晶格形成。MBP 有利地增加了蛋白质的表达和溶解度,并提供了简化的纯化方案。使用该技术,我们已经成功地解决了三个以前无法获得的无关蛋白质的结构。当传统方法失败时,这种结晶技术代表了一种解决蛋白质结构的有价值的挽救策略。
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