Isothiourea‐Catalyzed Atropselective Acylation of Biaryl Phenols Via Sequential Desymmetrization/Kinetic Resolution

Elizabeth S. Munday,Markas A. Grove,Taisiia Feoktistova,Alexander C. Brueckner,Daniel M. Walden,Claire M. Young,Alexandra M. Z. Slawin,Andrew D. Campbell,Paul Ha-Yeon Cheong,Andrew D. Smith

Angewandte Chemie - International Edition（2020）SCI 1区

Univ St Andrews | Oregon State Univ | AstraZeneca

Cited 41|Views47

Abstract

AbstractAxially chiral phenols are attractive targets in organic synthesis. This motif is central to many natural products and widely used as precursors to, or directly, as chiral ligands and catalysts. Despite their utility few simple catalytic methods are available for their synthesis in high enantiopurity. Herein the atropselective acylation of a range of symmetric biaryl diols is investigated using isothiourea catalysis. Studies on a model biaryl diol substrate shows that the high product er observed in the process is a result of two successive enantioselective reactions consisting of an initial enantioselective desymmetrization coupled with a second chiroablative kinetic resolution. Extension of this process to a range of substrates, including a challenging tetraorthosubstituted biaryl diol, led to highly enantioenriched products (14 examples, up to 98:2 er), with either HyperBTM or BTM identified as the optimal catalyst depending upon the substitution pattern within the substrate. Computation has been used to understand the factors that lead to high enantiocontrol in this process, with maintenance of planarity to maximize a 1,5‐S⋅⋅⋅O interaction within the key acyl ammonium intermediate identified as the major feature that determines atropselective acylation and thus product enantioselectivity.

Translated text

Key words

atropisomers,desymmetrization,isothiourea,kinetic resolution,organocatalysis

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Chat Paper

【要点】：本文提出了一种利用异硫脲催化实现轴向手性酚的_atrop选择性酰化反应，通过连续的消对称/动力学解析两步反应获得高对映体纯度的产物。

【方法】：研究采用异硫脲作为催化剂，对一系列对称的双芳基二醇进行选择性酰化反应。

【实验】：在模型双芳基二醇底物上，实验观察到高对映体过量(ee)的结果是由最初的消对称反应和随后的动力学解析两个连续的手性选择反应造成的。将该过程扩展到包括具有挑战性的四正代双芳基二醇在内的多种底物上，得到了高度对映体富集的产物（14个例子，ee值高达98:2），具体最优催化剂的选择（HyperBTM或BTM）依赖于底物中的取代模式。通过计算方法研究了在此过程中实现高对映体控制的因素，发现保持平面结构以最大化关键酰铵中间体中的1,5-S⋅⋅⋅O相互作用是决定_atrop选择性酰化和产物对映体选择性的主要特征。

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