溶液中非常大的蛋白质和rna的核磁共振技术。

Andreas G Tzakos, Christy R R Grace, Peter J Lukavsky, Roland Riek
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引用次数: 102

摘要

建立了用溶液核磁共振法测定小分子蛋白质和寡核苷酸的三维结构。随着新型核磁共振和标记技术的发展,分子质量高达约100 kDa的蛋白质和高达35 kDa的rna的结构测定现在是可行的。除了这些分子质量之外,应用核磁共振作为蛋白质和rna结构研究的多探针方法还需要特殊的技术和方法。本文的目的是总结核磁共振技术和方法,以提高核磁共振对蛋白质(高达1mda)和rna(高达100kda)的分子质量限制。新技术的物理图片,他们的实验应用,以及标签和分配策略进行了讨论,并伴随着未来的展望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NMR techniques for very large proteins and rnas in solution.

Three-dimensional structure determination of small proteins and oligonucleotides by solution NMR is established. With the development of novel NMR and labeling techniques, structure determination is now feasible for proteins with a molecular mass of up to approximately 100 kDa and RNAs of up to 35 kDa. Beyond these molecular masses special techniques and approaches are required for applying NMR as a multiprobe method for structural investigations of proteins and RNAs. It is the aim of this review to summarize the NMR techniques and approaches available to advance the molecular mass limit of NMR both for proteins (up to 1 MDa) and RNAs (up to 100 kDa). Physical pictures of the novel techniques, their experimental applications, as well as labeling and assignment strategies are discussed and accompanied by future perspectives.

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