A Methyl-TROSY-Based H-1 Relaxation Dispersion Experiment for Studies of Conformational Exchange in High Molecular Weight Proteins

Yuwen Tairan; Huang Rui; Vallurupalli Pramodh; Kay Lewis E.

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A Methyl-TROSY-Based H-1 Relaxation Dispersion Experiment for Studies of Conformational Exchange in High Molecular Weight Proteins

机译：基于甲基术的H-1弛豫分散试验，用于高分子量蛋白质的构象交换研究

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Molecular complexes often sample conformational states that direct them to specific functions. These states can be difficult to observe through traditional biophysical approaches but they can be studied using a variety of different NMR spin relaxation experiments. However, these applications, when focused on moderate to high molecular weight proteins, are complicated by fast relaxing signals that negatively affect the sensitivity and resolution of spectra. Here a methyl H-1 CPMG-based experiment for studies of excited conformational states of protein machines is described that exploits a TROSY-effect to increase signal-to-noise. Complexities from the multiplicity of methyl H-1 transitions are addressed to generate a robust pulse scheme that is applied to a 320kDa homeostasis protein, p97.

机译：分子复合物通常将它们指向特定功能的构象状态。这些州可能难以通过传统的生物物理方法观察，但可以使用各种不同的NMR自旋松弛实验来研究它们。然而，这些应用在聚焦在中等至高分子量蛋白时，通过快速放松的信号对光谱的敏感性和分辨率产生负面的快速放松来复杂。这里描述了一种用于研究蛋白质机器的激发构象状态的基于甲基H-1 CPMG的实验，其利用TROSY效应来增加信号对噪声。从多种甲基H-1转变的复杂性被寻址以产生稳健的脉冲方案，其应用于320kda稳态蛋白P97。

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来源
《Angewandte Chemie》 |2019年第19期|共5页
作者
Yuwen Tairan; Huang Rui; Vallurupalli Pramodh; Kay Lewis E.;
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作者单位

Univ Toronto Dept Mol Genet Toronto ON M5S 1A8 Canada;

Univ Toronto Dept Mol Genet Toronto ON M5S 1A8 Canada;

Tata Inst Fundamental Res TIFR Ctr Interdisciplinary Sci Hyderabad 500107 Telangana India;

Univ Toronto Dept Mol Genet Toronto ON M5S 1A8 Canada;

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原文格式 PDF
正文语种 eng
中图分类应用化学;
关键词
CPMG; degenerate transitions; invisible excited states; methyl NMR; molecular machines;

机译：CPMG;退化过渡;看不见的兴奋状态;甲基NMR;分子机;

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1. A Methyl-TROSY-Based H-1 Relaxation Dispersion Experiment for Studies of Conformational Exchange in High Molecular Weight Proteins [J] . Yuwen Tairan, Huang Rui, Vallurupalli Pramodh, Angewandte Chemie . 2019,第19期

机译：基于甲基术的H-1弛豫分散试验，用于高分子量蛋白质的构象交换研究
2. Conformational exchange of aromatic side chains by H-1 CPMG relaxation dispersion [J] . Raum Heiner N., Dreydoppel Matthias, Weininger Ulrich Journal of Biomolecular NMR . 2018,第1a2期

机译：H-1 CPMG弛豫分散的构象交换芳族侧链
3. A methyl H-1 double quantum CPMG experiment to study protein conformational exchange [J] . Gopalan Anusha B., Yuwen Tairan, Kay Lewis E., Journal of Biomolecular NMR . 2018,第1a2期

机译：甲基H-1双量子CPMG实验研究蛋白质构象交换
4. Effects of Protein Conformational Modifications, Enthalpy Relaxation, and Interaction with Water on the Solubility of Milk Protein Concentrate Powder [C] . E. Haque, B.R. Bhandari Symposium on the properties of water . 2015

机译：蛋白质构象修饰，焓弛豫和与水相互作用对牛奶蛋白浓缩粉溶解度的影响
5. Study of protein conformational and interaction dynamics by molecular dynamics simulations and nuclear magnetic resonance experiments [D] . Sgourakis, Nikolaos G. 2009

机译：通过分子动力学模拟和核磁共振实验研究蛋白质的构象和相互作用动力学
6. Quantifying Microsecond Exchange in Large Protein Complexes with Accelerated Relaxation Dispersion Experiments in the Solid State [O] . Carl Öster, Simone Kosol, Józef R. Lewandowski -1

机译：定量的大型蛋白质复合物中的微秒交换与固态加速弛豫分散实验
7. Multiple-Site Exchange in Proteins Studied with a Suite of Six NMR Relaxation Dispersion Experiments: An Application to the Folding of a Fyn SH3 Domain Mutant [O] . -1

机译：用六种NMR弛豫分散实验套件研究的蛋白质中的多站点交换：应用于FYN SH3结构域突变体的折叠
8. Biophysical Investigation of Biomolecular Structure and Interaction. I. Conformation of Mononucleosides. II. Conformation of Flavin Adenine Dinucleotide. III. Enzyme-Substrate Interaction of a Flavoprotein- p-Hydroxybenzoate Hydroxylase. IV. /Sup 31/P Relaxation Study of Adenosine Triphosphate. [R] . teng, n. n. 1973

机译：生物分子结构与相互作用的生物物理研究。 I.单核苷的构象。 II。黄素腺嘌呤二核苷酸的构象。 III。蛋白质 - 对羟基苯甲酸羟化酶的酶 - 底物相互作用。 IV。 / sup 31 / p三磷酸腺苷的松弛研究。

A Methyl-TROSY-Based H-1 Relaxation Dispersion Experiment for Studies of Conformational Exchange in High Molecular Weight Proteins

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