Beijing Key Laboratory of Environmental and Viral Oncology, College of Life Science & Bioengineering, Beijing University of Technology , Beijing 100124, China.
College of Chemistry and Pharmaceutical Engineering, Nanyang Normal University , Nanyang, Henan 473061, China.
Org Lett. 2017 Oct 20;19(20):5517-5520. doi: 10.1021/acs.orglett.7b02589. Epub 2017 Oct 2.
An electrochemical C-H acylation of electron-deficient N-heteroarenes with α-keto acids is reported. This first electrochemical Minisci acylation reaction proceeded using NHI as a redox catalyst. A broad N-heteroarene scope and high functional group tolerance are observed. Selective monoacylation of N-heteroarenes is achieved via control of acyl radical at a low concentration. The results of cyclic voltammetry and control experiments disclose that the electrogenerated I is likely the active species to initiate the oxidative decarboxylation of carboxylate anion via an acyl hypoiodite intermediate. The electrochemical Minisci acylation provides a straightforward approach for the late-stage functionalization of pharmacophores.
报道了一种电化学 C-H 酰化反应,用于缺电子的 N-杂芳烃与α-酮酸的反应。该首例电化学 Minisci 酰化反应使用 NHI 作为氧化还原催化剂进行。观察到广泛的 N-杂芳烃范围和高官能团耐受性。通过控制低浓度的酰基自由基,实现了 N-杂芳烃的选择性单酰化。循环伏安法和对照实验的结果表明,电生成的 I 可能是通过酰基次碘酸盐中间体引发羧酸根阴离子氧化脱羧的活性物质。电化学 Minisci 酰化反应为药物分子的后期官能化提供了一种直接的方法。
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