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Nat Commun. 2017 Dec 5;8(1):1953. doi: 10.1038/s41467-017-02049-3.
2
Backbone assignment of perdeuterated proteins by solid-state NMR using proton detection and ultrafast magic-angle spinning.采用质子检测和超快魔角旋转的固态 NMR 对去氘蛋白进行骨架 assignments。
Nat Protoc. 2017 Apr;12(4):764-782. doi: 10.1038/nprot.2016.190. Epub 2017 Mar 9.
3
H-Detected Solid-State NMR Studies of Water-Inaccessible Proteins In Vitro and In Situ.水不可及蛋白的体外和原位的 H 检测固态 NMR 研究。
Angew Chem Int Ed Engl. 2016 Oct 17;55(43):13606-13610. doi: 10.1002/anie.201606594. Epub 2016 Sep 27.
4
Structure of fully protonated proteins by proton-detected magic-angle spinning NMR.通过质子检测魔角旋转核磁共振确定完全质子化蛋白质的结构
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5
Backbone assignment for minimal protein amounts of low structural homogeneity in the absence of deuteration.在未进行氘代的情况下,对低结构均一性的微量蛋白质进行主链归属。
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Protein resonance assignment at MAS frequencies approaching 100 kHz: a quantitative comparison of J-coupling and dipolar-coupling-based transfer methods.接近100kHz的魔角旋转频率下蛋白质的共振归属:基于J耦合和偶极耦合转移方法的定量比较
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7
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Sequential backbone assignment based on dipolar amide-to-amide correlation experiments.基于偶极酰胺-酰胺相关实验的序列主链归属
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9
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用于大型蛋白质共振归属的固态核磁共振H-N-(C)-H和H-N-C-C 3D/4D相关实验

Solid-State NMR H-N-(C)-H and H-N-C-C 3D/4D Correlation Experiments for Resonance Assignment of Large Proteins.

作者信息

Fraga Hugo, Arnaud Charles-Adrien, Gauto Diego F, Audin Maxime, Kurauskas Vilius, Macek Pavel, Krichel Carsten, Guan Jia-Ying, Boisbouvier Jerome, Sprangers Remco, Breyton Cécile, Schanda Paul

机构信息

Univ. Grenoble Alpes, CEA, CNRS, Institute for Structural Biology (IBS), 71 avenue des martyrs, 38044, Grenoble, France.

Departamento de Bioquimica, Faculdade de Medicina da Universidade do Porto, Porto, Portugal.

出版信息

Chemphyschem. 2017 Oct 6;18(19):2697-2703. doi: 10.1002/cphc.201700572. Epub 2017 Sep 5.

DOI:10.1002/cphc.201700572
PMID:28792111
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5632560/
Abstract

Solid-state NMR spectroscopy can provide insight into protein structure and dynamics at the atomic level without inherent protein size limitations. However, a major hurdle to studying large proteins by solid-state NMR spectroscopy is related to spectral complexity and resonance overlap, which increase with molecular weight and severely hamper the assignment process. Here the use of two sets of experiments is shown to expand the tool kit of H-detected assignment approaches, which correlate a given amide pair either to the two adjacent CO-CA pairs (4D hCOCANH/hCOCAcoNH), or to the amide H of the neighboring residue (3D HcocaNH/HcacoNH, which can be extended to 5D). The experiments are based on efficient coherence transfers between backbone atoms using INEPT transfers between carbons and cross-polarization for heteronuclear transfers. The utility of these experiments is exemplified with application to assemblies of deuterated, fully amide-protonated proteins from approximately 20 to 60 kDa monomer, at magic-angle spinning (MAS) frequencies from approximately 40 to 55 kHz. These experiments will also be applicable to protonated proteins at higher MAS frequencies. The resonance assignment of a domain within the 50.4 kDa bacteriophage T5 tube protein pb6 is reported, and this is compared to NMR assignments of the isolated domain in solution. This comparison reveals contacts of this domain to the core of the polymeric tail tube assembly.

摘要

固态核磁共振光谱能够在原子水平上深入了解蛋白质的结构和动力学,且不存在固有的蛋白质大小限制。然而,通过固态核磁共振光谱研究大蛋白的一个主要障碍与光谱复杂性和共振重叠有关,这会随着分子量的增加而加剧,并严重阻碍归属过程。本文展示了使用两组实验来扩展氢检测归属方法的工具包,这些方法将给定的酰胺对与两个相邻的羰基-碳α对(4D hCOCANH/hCOCAcoNH)或与相邻残基的酰胺氢相关联(3D HcocaNH/HcacoNH,可扩展到5D)。这些实验基于主链原子之间的高效相干转移,利用碳之间的INEPT转移和用于异核转移的交叉极化。这些实验的实用性通过应用于重水标记的、完全酰胺质子化的蛋白质组装体得到了例证,这些蛋白质的单体分子量约为20至60 kDa,魔角旋转(MAS)频率约为40至55 kHz。这些实验也将适用于更高MAS频率下的质子化蛋白质。报道了50.4 kDa噬菌体T5管状蛋白pb6内一个结构域的共振归属,并将其与溶液中分离结构域的核磁共振归属进行了比较。这种比较揭示了该结构域与聚合尾管组装体核心的接触。