MAGNETIZATION EXCHANGE NETWORK EDITING - MATHEMATICAL PRINCIPLES AND EXPERIMENTAL DEMONSTRATION

被引：19

作者：

ZOLNAI, Z ^{[1
]}

JURANIC, N ^{[1
]}

MARKLEY, JL ^{[1
]}

MACURA, S ^{[1
]}

机构：

[1] MAYO CLIN & MAYO FDN,GRAD SCH,DEPT BIOCHEM & MOLEC BIOL,ROCHESTER,MN 55905

来源：

CHEMICAL PHYSICS | 1995年 / 200卷 / 1-2期

关键词：

D O I：

10.1016/0301-0104(95)00174-M

中图分类号：

O64 [物理化学（理论化学）、化学物理学];

学科分类号：

070304 ; 081704 ;

摘要：

We have examined analytically the effects of different NMR magnetization exchange network editing (MENE) procedures, starting from equilibrium or nonequilibrium conditions, on generalized systems that undergo magnetization exchange (cross-relaxation and/or chemical exchange). Larger errors in derived exchange rate constants are found in experiments that start from nonequilibrium states than in those that start from equilibrium. On the other hand, editing experiments that decompose the dynamic matrix into two or more block diagonal submatrices generally yield more accurate exchange rate constants. Theoretical arguments, backed up by experimental results, demonstrate that MENE experiments lead to increased rates of relaxation for the edited cross and diagonal peaks. We describe a new class of heteronuclear editing experiment in which the system starts from a nonequilibrium state and is edited during the mixing period. In an experimental application of this approach to the spectral analysis of a small protein, recombinant human ubiquitin (M(r) 8565) labeled uniformly with N-15 and C-13, We demonstrate how the cross-relaxation network of the protein can be decomposed simultaneously into subnetworks of N-15-bound protons, aliphatic C-13-bound protons, aromatic C-13-bound protons, and (C-12/N-14/O)-bound protons, Such a decomposition permits the measurement of slower magnetization exchange rates, including those that are masked in conventional cross-relaxation experiments.

引用

页码：161 / 179

页数：19

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