肽和蛋白质中各向异性相互作用的多维固态核磁共振

Multidimensional solid state NMR of anisotropic interactions in peptides and proteins.

作者信息

Wylie Benjamin J, Rienstra Chad M

机构信息

Department of Chemistry, Department of Biochemistry and Center for Biophysics and Computational Biology, University of Illinois at Urbana-Champaign, 600 South Mathews Avenue, Urbana, Illinois 61801, USA.

出版信息

J Chem Phys. 2008 Feb 7;128(5):052207. doi: 10.1063/1.2834735.

DOI:10.1063/1.2834735

PMID:18266412

Abstract

Accurate determinations of chemical shift anisotropy (CSA) tensors are valuable for NMR of biological systems. In this review we describe recent developments in CSA measurement techniques and applications, particularly in the context of peptides and proteins. These techniques include goniometeric measurements of single crystals, slow magic-angle spinning studies of powder samples, and CSA recoupling under moderate to fast MAS. Experimental CSA data can be analyzed by comparison with ab initio calculations for structure determination and refinement. This approach has particularly high potential for aliphatic (13)C analysis, especially Calpha tensors which are directly related to structure. Carbonyl and (15)N CSA tensors demonstrate a more complex dependence upon hydrogen bonding and electrostatics, in addition to conformational dependence. The improved understanding of these tensors and the ability to measure them quantitatively provide additional opportunities for structure determination, as well as insights into dynamics.

摘要

准确测定化学位移各向异性（CSA）张量对于生物体系的核磁共振（NMR）研究具有重要价值。在本综述中，我们描述了CSA测量技术及应用的最新进展，特别是在肽和蛋白质研究方面。这些技术包括单晶的测角仪测量、粉末样品的慢速魔角旋转研究以及中等到快速MAS条件下的CSA重新耦合。通过与从头算计算结果进行比较来分析实验CSA数据，可用于结构测定和优化。这种方法在脂肪族（13）C分析方面具有特别高的潜力，尤其是与结构直接相关的Cα张量。除了构象依赖性外，羰基和（15）N CSA张量对氢键和静电作用的依赖性更为复杂。对这些张量的深入理解以及定量测量它们的能力为结构测定提供了更多机会，同时也有助于深入了解动力学。

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肽和蛋白质中各向异性相互作用的多维固态核磁共振

Multidimensional solid state NMR of anisotropic interactions in peptides and proteins.

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