Density functional theory computations reproduce the surprisingly high regioselectivities in nucleophilic additions and cycloadditions to 4,5-indolynes and the low regioselectivities in the reactions of 5,6-indolynes. Transition-state distortion energies control the regioselectivities, activating the 5 and 6 positions over the 4 and 7 positions, leading to high preferences for 5- and 6-substituted products from 4,5- and 6,7-indolynes, respectively. Orbital and electrostatic interactions have only minor effects, producing low regioselectivities in the reactions of 5,6-indolynes. The distortion model predicts high regioselectivities with 6,7-indolynes; these have been verified experimentally. The regioselectivities found with other arynes are explained on the basis of distortion energies that are reflected in reactant geometries.
Density functional theory computations reproduce the surprisingly high regioselectivities in nucleophilic additions and cycloadditions to n class="Chemical">4,5-indolynes and the low regioselectivities in the reactions of 5,6-indolynes. Transition-state distortion energies control the regioselectivities, activating the 5 and 6 positions over the 4 and 7 positions, leading to high preferences for 5- and 6-substituted products from 4,5- and 6,7-indolynes, respectively. Orbital and electrostatic interactions have only minor effects, producing low regioselectivities in the reactions of 5,6-indolynes. The distortion model predicts high regioselectivities with 6,7-indolynes; these have been verified experimentally. The regioselectivities found with other arynes are explained on the basis of distortion energies that are reflected in reactant geometries.
Authors: Adam E Goetz; Sarah M Bronner; Jordan D Cisneros; Joshua M Melamed; Robert S Paton; K N Houk; Neil K Garg Journal: Angew Chem Int Ed Engl Date: 2012-02-03 Impact factor: 15.336
Authors: Travis C McMahon; Jose M Medina; Yun-Fang Yang; Bryan J Simmons; K N Houk; Neil K Garg Journal: J Am Chem Soc Date: 2015-03-20 Impact factor: 15.419