吲哚试验
环加成
化学
废止
反应性(心理学)
脱质子化
亲核细胞
非对映体
组合化学
立体化学
药物化学
反应条件
离子键合
有机化学
亲核取代
反应机理
区域选择性
作者
Sayantan Kundu,Pragati Kisan,Neetu Malya,Sathish Kumar Mudedla,Barla Thirupathi
标识
DOI:10.26434/chemrxiv.15001032/v1
摘要
Strain-release reactivity of bicyclo[1.1.0]butanes (BCBs) has predominantly enabled formal [2+2] annulations, while higher-order cycloadditions remain unexplored. We report a highly diastereoselective, base-mediated (4+3) strain-release cycloaddition of indoles bearing tethered Michael acceptors with BCBs, providing direct access to azabicyclo[4.1.1]octane-fused indoles. The reaction proceeds under mild, transition-metal-free conditions, preserves indole aromaticity, and furnishes products as single diastereomers in good to excellent yields. Control experiments and DFT studies support an ionic pathway initiated by indole deprotonation and strain-release nucleophilic attack on the BCB, with diastereoselectivity arising from a favored annulation transition state. This work expands the synthetic utility of BCBs to unprecedented (4+3) annulations and provides efficient access to three-dimensional azepino-indole scaffolds.
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