Biomolecular solid-state NMR spectroscopy at 1200 MHz: the gain in resolution

IF 1.3 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Biomolecular NMR Pub Date : 2021-06-25 DOI:10.1007/s10858-021-00373-x

Morgane Callon, Alexander A. Malär, Sara Pfister, Václav Římal, Marco E. Weber, Thomas Wiegand, Johannes Zehnder, Matías Chávez, Riccardo Cadalbert, Rajdeep Deb, Alexander Däpp, Marie-Laure Fogeron, Andreas Hunkeler, Lauriane Lecoq, Anahit Torosyan, Dawid Zyla, Rudolf Glockshuber, Stefanie Jonas, Michael Nassal, Matthias Ernst, Anja Böckmann, Beat H. Meier

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引用次数: 32

Abstract

Progress in NMR in general and in biomolecular applications in particular is driven by increasing magnetic-field strengths leading to improved resolution and sensitivity of the NMR spectra. Recently, persistent superconducting magnets at a magnetic field strength (magnetic induction) of 28.2 T corresponding to 1200 MHz proton resonance frequency became commercially available. We present here a collection of high-field NMR spectra of a variety of proteins, including molecular machines, membrane proteins, viral capsids, fibrils and large molecular assemblies. We show this large panel in order to provide an overview over a range of representative systems under study, rather than a single best performing model system. We discuss both carbon-13 and proton-detected experiments, and show that in ¹³C spectra substantially higher numbers of peaks can be resolved compared to 850 MHz while for ¹H spectra the most impressive increase in resolution is observed for aliphatic side-chain resonances.

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生物分子固态核磁共振光谱在1200兆赫:在分辨率增益

随着磁场强度的提高，核磁共振光谱的分辨率和灵敏度得到了提高，核磁共振在生物分子领域的应用取得了长足的进步。最近，与1200mhz质子共振频率对应的28.2 T磁场强度(磁感应强度)的持久超导磁体已商品化。我们在这里展示了各种蛋白质的高场核磁共振光谱，包括分子机器，膜蛋白，病毒衣壳，原纤维和大分子组件。我们展示这个大的面板是为了提供对一系列代表性系统的概述，而不是一个表现最好的模型系统。我们讨论了碳-13和质子检测实验，并表明在13C光谱中，与850 MHz相比，可以分辨出更多的峰数，而在1H光谱中，脂肪族侧链共振的分辨率提高最为显著。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Biomolecular NMR 生物-光谱学

CiteScore

6.00

自引率

3.70%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Biomolecular NMR provides a forum for publishing research on technical developments and innovative applications of nuclear magnetic resonance spectroscopy for the study of structure and dynamic properties of biopolymers in solution, liquid crystals, solids and mixed environments, e.g., attached to membranes. This may include: Three-dimensional structure determination of biological macromolecules (polypeptides/proteins, DNA, RNA, oligosaccharides) by NMR. New NMR techniques for studies of biological macromolecules. Novel approaches to computer-aided automated analysis of multidimensional NMR spectra. Computational methods for the structural interpretation of NMR data, including structure refinement. Comparisons of structures determined by NMR with those obtained by other methods, e.g. by diffraction techniques with protein single crystals. New techniques of sample preparation for NMR experiments (biosynthetic and chemical methods for isotope labeling, preparation of nutrients for biosynthetic isotope labeling, etc.). An NMR characterization of the products must be included.