Thomas Zettl, Rhiju Das, Pehr A. B. Harbury, Daniel Herschlag, Jan Lipfert, Rebecca S. Mathew, Xuesong Shi
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引用次数: 5
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Abstract
Most structural techniques provide averaged information or information about a single predominant conformational state. However, biological macromolecules typically function through series of conformations. Therefore, a complete understanding of macromolecular structures requires knowledge of the ensembles that represent probabilities on a conformational free energy landscape. Here we describe an emerging approach, X-ray scattering interferometry (XSI), a method that provides instantaneous distance distributions for molecules in solution. XSI uses gold nanocrystal labels site-specifically attached to a macromolecule and measures the scattering interference from pairs of heavy metal labels. The recorded signal can directly be transformed into a distance distribution between the two probes. We describe the underlying concepts, present a detailed protocol for preparing samples and recording XSI data, and provide a custom-written graphical user interface to facilitate XSI data analysis. © 2018 by John Wiley & Sons, Inc.
用x射线散射干涉法(XSI)记录和分析核酸距离分布
大多数结构技术提供平均信息或单一主要构象状态的信息。然而,生物大分子通常通过一系列构象发挥作用。因此,对大分子结构的全面理解需要对表示构象自由能景观概率的系综的知识。在这里,我们描述了一种新兴的方法,x射线散射干涉测量(XSI),一种提供溶液中分子瞬时距离分布的方法。XSI使用金纳米晶体标记位点特异性地附着在一个大分子上,并测量来自重金属标记对的散射干扰。记录的信号可以直接转换成两个探头之间的距离分布。我们描述了底层概念,提出了一个详细的协议,用于准备样本和记录XSI数据,并提供了一个自定义编写的图形用户界面,以促进XSI数据分析。©2018 by John Wiley &儿子,Inc。
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