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A light- and heat-driven glycal diazidation approach to nitrogenous carbohydrate derivatives with antiviral activity.

Huan HeRuiyuan CaoRuidi CaoXiao-Yu LiuWei LiDi YuYuexiang LiMiaomiao LiuYanmei WuPingzhou WuJin-Song YangYunzheng YanJingjing YangZhi-Bing ZhengWu ZhongYong Qin
Published in: Organic & biomolecular chemistry (2022)
The aminated mimetics of 2-keto-3-deoxy-sugar acids such as the anti-influenza clinical drugs oseltamivir (Tamiflu) and zanamivir (Relenza) are important bioactive molecules. Development of synthetic methodologies for accessing such compound collections is highly desirable. Herein, we describe a simple, catalyst-free glycal diazidation protocol enabled by visible light-driven conditions. This new method requires neither acid promoters nor transition-metal catalysts and takes place at ambient temperature within 1-2 hours. Notably, the desired transformations could be promoted by thermal conditions as well, albeit with lower efficacy compared to the light-induced conditions. Different sugar acid-derived glycal templates have been converted into a range of 2,3-diazido carbohydrate analogs by harnessing this mild and scalable approach, leading to the discovery of new antiviral agents.
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