通过固态核磁共振研究微晶泛素的结构异质性。

Structural heterogeneity in microcrystalline ubiquitin studied by solid-state NMR.

作者信息

Fasshuber Hannes Klaus, Lakomek Nils-Alexander, Habenstein Birgit, Loquet Antoine, Shi Chaowei, Giller Karin, Wolff Sebastian, Becker Stefan, Lange Adam

机构信息

Department of NMR-Based Structural Biology, Max Planck Institute for Biophysical Chemistry, Göttingen, Germany; Leibniz-Institut für Molekulare Pharmakologie, Berlin, Germany; Institut für Biologie, Humboldt-Universität, zu Berlin, Berlin, Germany.

出版信息

Protein Sci. 2015 May;24(5):592-8. doi: 10.1002/pro.2654. Epub 2015 Mar 16.

DOI:10.1002/pro.2654

PMID:25644665

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4420510/

Abstract

By applying [1-(13) C]- and [2-(13) C]-glucose labeling schemes to the folded globular protein ubiquitin, a strong reduction of spectral crowding and increase in resolution in solid-state NMR (ssNMR) spectra could be achieved. This allowed spectral resonance assignment in a straightforward manner and the collection of a wealth of long-range distance information. A high precision solid-state NMR structure of microcrystalline ubiquitin was calculated with a backbone rmsd of 1.57 to the X-ray structure and 1.32 Å to the solution NMR structure. Interestingly, we can resolve structural heterogeneity as the presence of three slightly different conformations. Structural heterogeneity is most significant for the loop region β1-β2 but also for β-strands β1, β2, β3, and β5 as well as for the loop connecting α1 and β3. This structural polymorphism observed in the solid-state NMR spectra coincides with regions that showed dynamics in solution NMR experiments on different timescales.

摘要

通过将[1-(13)C]-和[2-(13)C]-葡萄糖标记方案应用于折叠的球状蛋白泛素，可在固态核磁共振（ssNMR）谱中实现谱峰拥挤的显著减少和分辨率的提高。这使得能够以直接的方式进行谱共振归属，并收集大量的长程距离信息。计算得到微晶泛素的高精度固态核磁共振结构，其主链均方根偏差相对于X射线结构为1.57 Å，相对于溶液核磁共振结构为1.32 Å。有趣的是，我们能够分辨出结构异质性，即存在三种略有不同的构象。结构异质性在β1-β2环区域最为显著，但在β链β1、β2、β3和β5以及连接α1和β3的环中也很明显。在固态核磁共振谱中观察到的这种结构多态性与在不同时间尺度的溶液核磁共振实验中显示出动态性的区域相吻合。

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