具有对角峰抑制功能的3D NOESY-[(1)H,(15)N,(1)H]-ZQ-TROSY核磁共振实验

The 3D NOESY-[(1)H,(15)N,(1)H]-ZQ-TROSY NMR experiment with diagonal peak suppression.

作者信息

Pervushin K V, Wider G, Riek R, Wüthrich K

机构信息

Institut für Molekularbiologie und Biophysik, Eidgenössische Technische Hochschule Hönggerberg, CH-8093 Zürich, Switzerland.

出版信息

Proc Natl Acad Sci U S A. 1999 Aug 17;96(17):9607-12. doi: 10.1073/pnas.96.17.9607.

DOI:10.1073/pnas.96.17.9607

PMID:10449740

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC22256/

Abstract

In our 3D NOESY-[(1)H,(15)N,(1)H]-ZQ-TROSY experiment, the TROSY principle (transverse relaxation-optimized spectroscopy) is used in three-dimensional (3D) (15)N-resolved nuclear Overhauser enhancement spectroscopy (NOESY), which enables resonance assignments by sequential nuclear Overhauser effects and the collection of structural constraints in large (15)N- or (2)H,(15)N-labeled proteins. Our experiment affords optimization of the transverse relaxation in all three frequency dimensions, provides suppression of the strong diagonal autorelaxation peaks, which otherwise tend to interfere with the analysis of nearby informative crosspeaks, and yields improved resolution for the entire spectrum when compared with conventional 3D (15)N-resolved-[(1)H,(1)H]-NOESY, because of the narrower lineshapes along both proton dimensions. The key element of this experiment is an approach for correlating the (15)N and (1)H chemical shifts with two-dimensional ZQ-[(15)N,(1)H]-TROSY, where zero-quantum (ZQ) coherence is generated and the remote cross-correlation between the (1)H and (15)N chemical shift anisotropy interactions is used to reduce transverse relaxation during (15)N evolution. Practical applications are illustrated with spectra of a protein with a molecular mass of 110,000 Da.

摘要

在我们的3D NOESY-[(1)H,(15)N,(1)H]-ZQ-TROSY实验中，TROSY原理（横向弛豫优化光谱法）用于三维(3D)(15)N分辨核Overhauser增强光谱法（NOESY），该方法可通过序列核Overhauser效应进行共振归属，并在大型(15)N或(2)H、(15)N标记的蛋白质中收集结构约束信息。我们的实验在所有三个频率维度上实现了横向弛豫的优化，抑制了强对角自弛豫峰，否则这些峰会干扰附近信息交叉峰的分析，并且与传统的3D(15)N分辨-[(1)H,(1)H]-NOESY相比，由于两个质子维度上的线形更窄，整个光谱的分辨率得到了提高。该实验的关键要素是一种将(15)N和(1)H化学位移与二维ZQ-[(15)N,(1)H]-TROSY相关联的方法，其中产生了零量子（ZQ）相干，并利用(1)H和(15)N化学位移各向异性相互作用之间的远程交叉相关性来减少(15)N演化过程中的横向弛豫。以分子量为110,000 Da的蛋白质光谱为例说明了实际应用。

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