Synthesis and Activation of Bench-Stable 3a-Fluoropyrroloindolines as Latent Electrophiles for the Synthesis of C-2-Thiol-Substituted Tryptophans and C-3a-Substituted Pyrroloindolines

Alla Pryyma; Yong Jia Bu; Yonnie Wai; Brian O Patrick; David M Perrin

doi:10.1021/acs.orglett.9b02972

Synthesis and Activation of Bench-Stable 3a-Fluoropyrroloindolines as Latent Electrophiles for the Synthesis of C-2-Thiol-Substituted Tryptophans and C-3a-Substituted Pyrroloindolines

Org Lett. 2019 Oct 18;21(20):8234-8238. doi: 10.1021/acs.orglett.9b02972. Epub 2019 Oct 9.

Authors

Alla Pryyma¹, Yong Jia Bu¹, Yonnie Wai¹, Brian O Patrick¹, David M Perrin¹

Affiliation

¹ Chemistry Department , University of British Columbia , 2016 Main Mall , Vancouver , British Columbia V6T-1Z1 , Canada.

PMID: 31596101
DOI: 10.1021/acs.orglett.9b02972

Abstract

Indole dearomatization of tryptophan represents a key approach in the synthesis of indole containing alkaloids. Although the reactivity of C-3a-bromo-, 3a-iodo-, and 3a-chloropyrroloindolines has been explored, the utility and reactivity of C-3a-fluoropyrroloindolines has remained untapped. Here we induce the C-F bond to undergo a S_n1-like reaction. We demonstrate the utility of 3a-fluoropyrroloindoline to access C-2-thiol-substituted tryptophans and C-3a-substituted pyrroloindolines under mild conditions in high yield. A range of N^α-protecting groups and free -COOH are well-tolerated.

Publication types

Research Support, Non-U.S. Gov't