Ultraselective, Ultrahigh Resolution 1D TOCSY

IF 6.1 Q1 CHEMISTRY, MULTIDISCIPLINARY Chemistry methods : new approaches to solving problems in chemistry Pub Date : 2024-08-07 DOI:10.1002/cmtd.202400013

Dr. James R. D. Montgomery, Emma L. Gates, Dr. Marshall J. Smith, Dr. Daniel A. Taylor, Dr. Jonathan P. Bradley, Dr. Daniel B. G. Berry, Dr. Peter Kiraly, Prof. Mathias Nilsson, Prof. Gareth A. Morris, Dr. Ralph W. Adams, Dr. Laura Castañar

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Abstract

Solution state ¹H NMR spectroscopy provides valuable insights into molecular structure and conformation. However, when the spectrum exhibits severe signal overlap, it hampers the extraction of key structural information. Here, an ultraselective, ultrahigh resolution TOCSY method is introduced that greatly reduces spectral complexity, allowing the extraction of previously inaccessible spectral information. It combines the recently developed GEMSTONE excitation with homonuclear decoupling to provide highly simplified through-bond correlation 1D ¹H NMR spectra, showing all signals within the selected spin system as singlets. The new method can greatly facilitate the analysis of mixtures, as shown here for a mixture of Cinchona alkaloids (popular catalysts in asymmetric synthesis) and a mixture of glucocorticoids (used for treating conditions such as asthma).

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超选择性、超高分辨率 1D TOCSY

溶液态 1H NMR 光谱为了解分子结构和构象提供了宝贵的信息。然而，当光谱显示出严重的信号重叠时，就会阻碍关键结构信息的提取。本文介绍了一种超选择性、超高分辨率 TOCSY 方法，它大大降低了光谱的复杂性，可提取以前无法获取的光谱信息。它将最近开发的 GEMSTONE 激发与同核解耦相结合，提供高度简化的通键相关一维 1H NMR 光谱，将所选自旋系统内的所有信号显示为单个信号。这种新方法大大方便了对混合物的分析，如图所示的金鸡纳生物碱混合物（不对称合成中常用的催化剂）和糖皮质激素混合物（用于治疗哮喘等疾病）。

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