Yuanyun Gu Gu, Yaxin Feng, Baotong Huang, Yan-En Wang, Yaqi Yuan, Dan Xiong, Yonghong Hu, Xiufang Xu, Patrick J. Walsh, Jianyou Mao
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引用次数: 0
摘要
吲哚是天然产物、生物化学和药物化学中不可或缺的杂环。因此,仍然需要高效的合成方法。本文报道了一种新颖且可扩展的方法,通过结合格氏试剂和 2-氟苄基氰化物(59 个实例,产率 45-95%)来生产各种吲哚。格氏试剂加入腈中生成金属化亚胺,该亚胺与未活化的 C-F 键发生 SAr 反应。值得注意的是,各种格氏试剂(芳基、烷基、乙烯基和环丙基)都能提供所需的杂环产物。生成的镁化吲哚可在 3 位上用烷基卤化物进行原位官能化,或在氮上用硅基氯化物进行官能化。这种方法可以合成在吲哚骨架的每个位置(C4-C7)都带有官能团的吲哚,为进一步官能化提供了途径。
Rapid access to diverse indoles by addition/SNAr with grignard reagents and 2-fluorophenyl acetonitriles
Indoles are essential heterocycles in natural products, biological chemistry, and medicinal chemistry. Efficient approaches to their synthesis, therefore, remain in demand. Herein is reported a novel and scalable method to produce a wide variety of indoles by combining Grignard reagents and 2-fluorobenzyl cyanides (59 examples, 45–95% yields). The Grignard reagent adds to the nitrile to give a metalated imine that undergoes SAr with unactivated C–F bonds. This strategy installs the R group of RMgX at the indole 2-position, and it is noteworthy that a diverse array of Grignard reagents (aryl, alkyl, vinyl, and cyclopropyl) provide the desired heterocyclic products. The resulting -magnesiated indole can be in situ functionalized at the 3-position with alkyl halides or functionalized on the nitrogen with silyl chlorides. This method enables the synthesis of indoles with functional groups at each position of the indole backbone (C4–C7), providing handles for further functionalization.
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