使用蛋白质的简化质子（REDPRO）标记策略进行核磁共振结构测定与研究。

NMR structure determination and investigation using a reduced proton (REDPRO) labeling strategy for proteins.

作者信息

Shekhtman Alexander, Ghose Ranajeet, Goger Michael, Cowburn David

机构信息

The Rockefeller University, New York, NY 10021-6399, USA.

出版信息

FEBS Lett. 2002 Jul 31;524(1-3):177-82. doi: 10.1016/s0014-5793(02)03051-x.

DOI:10.1016/s0014-5793(02)03051-x

PMID:12135763

Abstract

We present here a stable isotope labeling technique for proteins, which seeks the appropriate compromise between the advantages of (a) random isotope labeling, with its large number of protons available for structure determination, and (b) selective labeling to generate isolated proton spins decreasing spectral complexity and improving relaxation properties of NMR experiments. The described reduced proton (REDPRO) procedure results in side-chain specific protonation of overexpressed proteins, which is highly selective. The REDPRO labeling scheme provides a sufficient number of NOE constraints for structure calculation. Dramatically improved relaxation properties of the heteronuclear magnetization transfer coupled with TROSY advantages make the proposed labeling scheme an attractive approach for study of high molecular weight protein targets, their ligand sites, and interdomain interactions.

摘要

我们在此介绍一种用于蛋白质的稳定同位素标记技术，该技术旨在在以下两者的优势之间寻求适当的平衡：（a）随机同位素标记，其有大量质子可用于结构测定；（b）选择性标记，以产生孤立的质子自旋，从而降低光谱复杂性并改善核磁共振实验的弛豫特性。所描述的减少质子（REDPRO）程序可导致过表达蛋白质的侧链特异性质子化，具有高度选择性。REDPRO标记方案为结构计算提供了足够数量的核Overhauser效应（NOE）约束。异核磁化转移显著改善的弛豫特性与横向弛豫优化谱（TROSY）优势相结合，使得所提出的标记方案成为研究高分子量蛋白质靶点、其配体位点和结构域间相互作用的一种有吸引力的方法。

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使用蛋白质的简化质子（REDPRO）标记策略进行核磁共振结构测定与研究。

NMR structure determination and investigation using a reduced proton (REDPRO) labeling strategy for proteins.

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