New reductive rearrangement of N-arylindoles triggered by the Grubbs–Stoltz reagent Et3SiH/KOtBu

Andrew J. Smith; Daniela Dimitrova; Jude N. Arokianathar; Krystian Kolodziejczak; Allan Young; Mark Allison; Darren L. Poole; Stuart G. Leach; John A. Parkinson; Tell Tuttle; John A. Murphy

doi:10.1039/D0SC00361A

New reductive rearrangement of N-arylindoles triggered by the Grubbs–Stoltz reagent Et₃SiH/KO^tBu†

Andrew J. Smith,^a Daniela Dimitrova,^a Jude N. Arokianathar,^a Krystian Kolodziejczak,

^a Allan Young,^a Mark Allison,^a Darren L. Poole,^b Stuart G. Leach,^b John A. Parkinson,

^a Tell Tuttle

*^a and John A. Murphy

*^a

Author affiliations

* Corresponding authors

^a Department of Pure and Applied Chemistry, University of Strathclyde, 295 Cathedral Street, Glasgow, UK
E-mail: john.murphy@strath.ac.uk, tell.tuttle@strath.ac.uk

^b GlaxoSmithKline Medicines Research Centre, Gunnels Wood Road, Stevenage, UK

Abstract

N-Arylindoles are transformed into dihydroacridines in a new type of rearrangement, through heating with triethylsilane and potassium tert-butoxide. Studies indicate that the pathway involves (i) the formation of indole radical anions followed by fragmentation of the indole C2–N bond, and (ii) a ring-closing reaction that follows a potassium-ion dependent hydrogen atom transfer step. Unexpected behaviors of ‘radical-trap’ substrates prove very helpful in framing the proposed mechanism.

Chemical Science

New reductive rearrangement of N-arylindoles triggered by the Grubbs–Stoltz reagent Et₃SiH/KO^tBu†

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New reductive rearrangement of N-arylindoles triggered by the Grubbs–Stoltz reagent Et₃SiH/KO^tBu

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