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定量 NMR 衍生质子间距离与量子力学计算相结合,用于确定来自桐花树的核受体配体 coneasterol F 的立体化学结构,13C 化学位移。

Quantitative NMR-derived interproton distances combined with quantum mechanical calculations of 13C chemical shifts in the stereochemical determination of conicasterol F, a nuclear receptor ligand from Theonella swinhoei.

机构信息

Dipartimento di Scienze Farmaceutiche e Biomediche, Università di Salerno, via Ponte don Melillo, 84084 Fisciano (SA), Italy.

出版信息

J Org Chem. 2012 Feb 3;77(3):1489-96. doi: 10.1021/jo2023763. Epub 2012 Jan 23.

DOI:10.1021/jo2023763
PMID:22201476
Abstract

Here we report the first application of combined accurate ROE-distance analysis with DFT calculations of NMR chemical shifts to achieve the relative configuration assignment of a marine natural product, conicasterol F, a new polyhydroxylated steroid isolated from the marine sponge Theonella swinhoei. We demonstrate the substantial advantages of this combined approach as a tool for structural studies of natural products, providing a powerful alternative to, or information to underpin, total synthesis when more classical NMR data analysis fails to provide unequivocal results. In this paper, we also describe the isolation and structure elucidation of conicasterol F and its 24-ethyl derivative, theonellasterol I, and their pharmacological evaluation as human nuclear receptor modulators.

摘要

在这里,我们报告了首次将精确的 ROE-距离分析与 NMR 化学位移的 DFT 计算相结合,应用于海洋天然产物 conicasterol F 的相对构型分配的研究,conicasterol F 是一种从海绵 Theonella swinhoei 中分离得到的新型多羟基甾体。我们展示了这种组合方法作为天然产物结构研究工具的巨大优势,为当更经典的 NMR 数据分析无法提供明确结果时的全合成提供了有力的替代或补充信息。在本文中,我们还描述了 conicasterol F 及其 24-乙基衍生物 theonellasterol I 的分离和结构阐明,以及它们作为人类核受体调节剂的药理评价。

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