固态核磁共振增强的动态核极化技术作为研究核糖体结构生物学的新工具。

Solid-state NMR enhanced by dynamic nuclear polarization as a novel tool for ribosome structural biology.

机构信息

Buchmann Institute for Molecular Life Sciences, Institute of Organic Chemistry and Chemical Biology, Goethe University Frankfurt, Max-von-Laue-Str. 15, 60438 Frankfurt am Main, Germany.

出版信息

J Biomol NMR. 2013 Jun;56(2):85-93. doi: 10.1007/s10858-013-9721-2. Epub 2013 May 21.

DOI:10.1007/s10858-013-9721-2

PMID:23689811

Abstract

The impact of Nuclear Magnetic Resonance (NMR) on studies of large macromolecular complexes hinges on improvements in sensitivity and resolution. Dynamic nuclear polarization (DNP) in the solid state can offer improved sensitivity, provided sample preparation is optimized to preserve spectral resolution. For a few nanomoles of intact ribosomes and an 800 kDa ribosomal complex we demonstrate that the combination of DNP and magic-angle spinning NMR (MAS-NMR) allows one to overcome current sensitivity limitations so that homo- and heteronuclear (13)C and (15)N NMR correlation spectra can be recorded. Ribosome particles, directly pelleted and frozen into an NMR rotor, yield DNP signal enhancements on the order of ~25-fold and spectra that exhibit narrow linewidths, suitable for obtaining site-specific information. We anticipate that the same approach is applicable to other high molecular weight complexes.

摘要

核磁共振（NMR）对大分子复合物研究的影响取决于灵敏度和分辨率的提高。固态中的动态核极化（DNP）可以提供更高的灵敏度，只要优化样品制备以保持光谱分辨率。对于几纳摩尔完整的核糖体和 800 kDa 的核糖体复合物，我们证明了 DNP 和魔角旋转核磁共振（MAS-NMR）的结合可以克服当前的灵敏度限制，从而可以记录同核和异核（13）C 和（15）N NMR 相关谱。核糖体颗粒直接沉淀并冷冻在 NMR 转子中，可获得约 25 倍的 DNP 信号增强，并且谱线宽度窄，适合获取特定位置的信息。我们预计相同的方法适用于其他高分子量复合物。

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固态核磁共振增强的动态核极化技术作为研究核糖体结构生物学的新工具。

Solid-state NMR enhanced by dynamic nuclear polarization as a novel tool for ribosome structural biology.

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