Alexander M. Spring-Connell, Marina Evich, Markus W. Germann
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引用次数: 4
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Abstract
NMR spectroscopy is a versatile tool for determining the structure and dynamics of nucleic acids under solution conditions. In this unit, we provide an overview and detail of the experiments and methods used in our laboratory to determine the structure of oligonucleotides at natural abundance, thus limiting our approach to 1 H, 13 C, and 31 P NMR techniques. Isotopic labeling is heavily used in RNA NMR studies, however, labeling of DNA is still less common and, if modified nucleotides are investigated, is exceptionally expensive or not feasible. Each method described here is extensively documented and annotated with tips and observations to facilitate their application. Sections are devoted to sample preparation, NMR experiments and setup, resonance assignment, structure generation protocols, evaluation, tips that may be useful, and software sources. © 2018 by John Wiley & Sons, Inc.
寡核苷酸的核磁共振结构测定
核磁共振波谱是一种多功能的工具,用于确定核酸在溶液条件下的结构和动力学。在本单元中,我们提供了一个概述和详细的实验和方法,在我们的实验室,以确定在自然丰度寡核苷酸的结构,从而限制了我们的方法1H, 13C和31P核磁共振技术。同位素标记在RNA核磁共振研究中被大量使用,然而,DNA标记仍然不太常见,如果研究修饰的核苷酸,则异常昂贵或不可行。这里描述的每种方法都有广泛的文档和注释,并附有提示和观察,以方便其应用。部分致力于样品制备,核磁共振实验和设置,共振分配,结构生成协议,评估,提示,可能是有用的,和软件来源。©2018 by John Wiley &儿子,Inc。
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