Enantioselective gold-catalysis is emerging as a powerful tool in organic synthesis for the stereoselective manipulation of unfunctionalized unsaturated hydrocarbons. Despite the exponential growth, the molecular complexity of common chiral gold complexes generally prevents a complete description of the mechanism steps and activation modes being documented. In this study, we present the results of a combined experimental-computational (DFT) investigation of the mechanism of the enantioselective gold-catalyzed allylic alkylation of indoles with alcohols. A stepwise SN2′-process (i.e. antiauroindolination of the olefin, proton-transfer, and subsequent anti-elimination [Au]−OH) is disclosed, leading to a library of tricyclic-fused indole derivatives. The pivotal role played by the gold counterion, in terms of molecular arrangement (i.e. “folding ef fect”) and proton-shuttling in restoring the catalytic species, is finally documented
M. Bandini, A. Bottoni, M. Chiarucci, G. Cera, G.P. Miscione (2012). Mechanistic Insights into Enantioselective Gold-Catalyzed Allylation of Indoles with Alcohols: The Counterion Effect. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 134(51), 20690-20700 [10.1021/ja3086774].
Mechanistic Insights into Enantioselective Gold-Catalyzed Allylation of Indoles with Alcohols: The Counterion Effect
BANDINI, MARCO;BOTTONI, ANDREA;CHIARUCCI, MICHEL;CERA, GIANPIERO;MISCIONE, GIAN PIETRO
2012
Abstract
Enantioselective gold-catalysis is emerging as a powerful tool in organic synthesis for the stereoselective manipulation of unfunctionalized unsaturated hydrocarbons. Despite the exponential growth, the molecular complexity of common chiral gold complexes generally prevents a complete description of the mechanism steps and activation modes being documented. In this study, we present the results of a combined experimental-computational (DFT) investigation of the mechanism of the enantioselective gold-catalyzed allylic alkylation of indoles with alcohols. A stepwise SN2′-process (i.e. antiauroindolination of the olefin, proton-transfer, and subsequent anti-elimination [Au]−OH) is disclosed, leading to a library of tricyclic-fused indole derivatives. The pivotal role played by the gold counterion, in terms of molecular arrangement (i.e. “folding ef fect”) and proton-shuttling in restoring the catalytic species, is finally documentedI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
