支架多样性合成产生复杂的、结构和功能各异的四环苯并吡喃。

Scaffold Diversity Synthesis Delivers Complex, Structurally, and Functionally Distinct Tetracyclic Benzopyrones.

作者信息

Sankar Muthukumar G, Roy Sayantani, Tran Tuyen Thi Ngoc, Wittstein Kathrin, Bauer Jonathan O, Strohmann Carsten, Ziegler Slava, Kumar Kamal

机构信息

Department of Chemical Biology Max Planck Institute of Molecular Physiology Otto-Hahn Str. 11 44227 Dortmund Germany.

Faculty of Chemistry and Chemical Biology Technical University of Dortmund Otto-Hahn Str. 6 44227 Dortmund Germany.

出版信息

ChemistryOpen. 2018 Apr 26;7(4):302-309. doi: 10.1002/open.201800025. eCollection 2018 Apr.

DOI:10.1002/open.201800025

PMID:29721402

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5917230/

Abstract

Complexity-generating chemical transformations that afford novel molecular scaffolds enriched in character are highly desired. Here, we present a highly stereoselective scaffold diversity synthesis approach that utilizes cascade double-annulation reactions of diverse pairs of zwitterionic and non-zwitterionic partners with 3-formylchromones to generate highly complex tetracyclic benzopyrones. Each pair of annulation partners adds to the common chroman-4-one scaffold to build two new rings, supporting up to four contiguous chiral centers that include an all-carbon quaternary center. Differently ring-fused benzopyrones display different biological activities, thus demonstrating their immense potential in medicinal chemistry and chemical biology research.

摘要

人们迫切需要能产生复杂性的化学转化反应，以提供富含特性的新型分子骨架。在此，我们提出了一种高度立体选择性的骨架多样性合成方法，该方法利用两性离子和非两性离子伙伴与3-甲酰基色酮的级联双环化反应来生成高度复杂的四环苯并吡喃。每对环化伙伴都添加到共同的色满-4-酮骨架上以构建两个新环，形成多达四个连续的手性中心，其中包括一个全碳季中心。不同环稠合的苯并吡喃具有不同的生物活性，从而证明了它们在药物化学和化学生物学研究中的巨大潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fcb6/5917230/f2dc8558c533/OPEN-7-302-g001.jpg

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支架多样性合成产生复杂的、结构和功能各异的四环苯并吡喃。

Scaffold Diversity Synthesis Delivers Complex, Structurally, and Functionally Distinct Tetracyclic Benzopyrones.

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