通过合成受体对不稳定的羰基加成中间体进行稳定化。

Stabilization of labile carbonyl addition intermediates by a synthetic receptor.

作者信息

Iwasawa Tetsuo, Hooley Richard J, Rebek Julius

机构信息

Skaggs Institute for Chemical Biology and Department of Chemistry, Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, CA 92037, USA.

出版信息

Science. 2007 Jul 27;317(5837):493-6. doi: 10.1126/science.1143272.

DOI:10.1126/science.1143272

PMID:17656719

Abstract

Products of unfavorable chemical equilibria are not readily observed because their high energy and increased reactivity result in low concentrations. Biological macromolecules use binding forces to access unfavorable equilibria and stabilize reactive intermediates by isolating them from the medium. In a similar vein, we describe here a synthetic receptor that allows direct observation of labile tetrahedral intermediates: hemiaminals formed in the reaction of an aldehyde carbonyl group with amines. The receptor encapsulates alkyl-substituted primary amines, then orients them toward a covalently tethered aldehyde function. The hemiaminal intermediates appear at high concentration, confined from the bulk solution and observable at ambient temperature by conventional nuclear magnetic resonance spectroscopy.

摘要

不利化学平衡的产物不易被观察到，因为它们的高能量和增加的反应活性导致浓度较低。生物大分子利用结合力来达到不利的平衡，并通过将反应性中间体与介质隔离来使其稳定。同样，我们在此描述一种合成受体，它能够直接观察不稳定的四面体中间体：醛羰基与胺反应形成的半缩醛胺。该受体包封烷基取代的伯胺，然后将它们朝向共价连接的醛官能团定向排列。半缩醛胺中间体以高浓度出现，与本体溶液隔离，并且在室温下通过常规核磁共振光谱可观察到。

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通过合成受体对不稳定的羰基加成中间体进行稳定化。

Stabilization of labile carbonyl addition intermediates by a synthetic receptor.

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