The Folded Conformation of Perezone Revisited. Long Range nOe Interaction in Small Molecules: Interpretable Small Signals or Useless Large Artifacts?

Revista de la Sociedad Química de Mexico Pub Date : 2017-10-26 DOI:10.29356/JMCS.V61I3.343

Elizabeth Reyes-López, B. Quiroz-García, Pablo Carpio‐Martínez, J. Jiménez‐Barbero, F. Cortés‐Guzmán, N. Esturau-Escofet, G. Cuevas

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引用次数: 6

Abstract

The nuclear Overhauser effect (nOe) is a consequence of the cross-relaxation and it involves the transfer of nuclear spin polarization from one population to another intra or inter-molecularly. It is generally accepted that a proton-proton distance between 4 and 5 A is the upper limit for the occurrence of measurable nOe´s in small molecules. However, we herein show how detectable nOe´s may, in fact, take place between alkyl groups of quinones with substitutions at 1-4 relative positions, showing distances longer than 6 A. Although the signals of interest are very small, of the order of 1% of a normal nOe, so a priori are considered artifacts originated by decoupling modulation, they maintain, properties that make them interesting and give them coherence as interpretable signals. If the signals of interest are not artifacts these observations represent an important breakthrough with impact on the standard protocols that are commonly used for determination of molecular structure and conformation.

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复盖带的折叠构象。小分子的远程nOe相互作用:可解释的小信号还是无用的大伪影?

核Overhauser效应(nOe)是交叉弛豫的结果，它涉及核自旋极化在分子内或分子间从一个居群转移到另一个居群。人们普遍认为，质子-质子之间的距离在4 - 5a之间是小分子中可测量nOe的上限。然而，我们在这里展示了可检测到的nOe´s实际上是如何发生在醌的烷基之间，在1-4个相对位置上取代，显示距离超过6 A。虽然感兴趣的信号非常小，只有正常nOe的1%，所以先验地被认为是由去耦调制产生的工件，但它们保持着使它们有趣的特性，并赋予它们作为可解释信号的相干性。如果感兴趣的信号不是伪影，这些观察结果代表了一个重要的突破，对通常用于确定分子结构和构象的标准方案产生了影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Revista de la Sociedad Química de Mexico

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