Catalytic Asymmetric Diastereodivergent Synthesis of 2-Alkenylindoles Bearing both Axial and Central Chirality

Precision Chemistry Pub Date : 2024-04-23 DOI:10.1021/prechem.4c00008

Shuang Yang, Jia-Bo Huang, Da-Hua Wang, Ning-Yi Wang, Yu-Yu Chen, Xin-Yan Ke, Hao Chen, Shao-Fei Ni*, Yu-Chen Zhang* and Feng Shi*,

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Abstract

The catalytic asymmetric diastereodivergent synthesis of axially chiral 2-alkenylindoles was established via chiral phosphoric acid-catalyzed addition reactions of C3-unsubstituted 2-alkenylindoles with o-hydroxybenzyl alcohols under different reaction conditions. Using this strategy, two series of 2-alkenylindoles bearing both axial and central chirality were synthesized in a diastereodivergent fashion with moderate to high yields and good stereoselectivities (up to 99% yield, 95:5 er, >95:5 dr). Moreover, theoretical calculations were performed on the key transition states leading to different stereoisomers, which provided an in-depth understanding of the origin of the observed stereoselectivity and diastereodivergence of the products under different reaction conditions. More importantly, these 2-alkenylindoles were utilized in asymmetric catalysis as chiral organocatalysts and in medicinal chemistry for evaluation of their cytotoxicity, which demonstrated their potential applications. This study has not only established the catalytic atroposelective synthesis of axially chiral 2-alkenylindoles, but also provided an efficient strategy for catalytic asymmetric diastereodivergent construction of indole-based scaffolds bearing both axial and central chirality.

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具有轴向和中心手性的 2-烯基吲哚的催化不对称非对映发散合成

在不同的反应条件下，通过手性磷酸催化 C3-未取代的 2-烯基吲哚与邻羟基苄醇的加成反应，建立了轴向手性 2-烯基吲哚的催化不对称非对映发散合成。利用这种策略，以非对映发散的方式合成了两个系列的具有轴向和中心手性的 2-烯基吲哚，它们具有中等到较高的收率和良好的立体选择性（收率高达 99%，95:5 er, >95:5dr）。此外，还对导致不同立体异构体的关键过渡态进行了理论计算，从而深入了解了在不同反应条件下观察到的产物立体选择性和非对映异构性的来源。更重要的是，这些 2-烯基吲哚被用作手性有机催化剂进行不对称催化，并在药物化学中评估了它们的细胞毒性，从而证明了它们的潜在应用价值。这项研究不仅建立了轴向手性 2-烯基吲哚的催化非对映选择性合成方法，而且为催化不对称非对映发散构建同时具有轴向和中心手性的吲哚基支架提供了一种有效的策略。

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Precision Chemistry 精密化学技术-

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0.80

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0.00%

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期刊介绍： Chemical research focused on precision enables more controllable predictable and accurate outcomes which in turn drive innovation in measurement science sustainable materials information materials personalized medicines energy environmental science and countless other fields requiring chemical insights.Precision Chemistry provides a unique and highly focused publishing venue for fundamental applied and interdisciplinary research aiming to achieve precision calculation design synthesis manipulation measurement and manufacturing. It is committed to bringing together researchers from across the chemical sciences and the related scientific areas to showcase original research and critical reviews of exceptional quality significance and interest to the broad chemistry and scientific community.

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