Issue 48, 2023

On-DNA hydroalkylation of N-vinyl heterocycles via photoinduced EDA-complex activation

Abstract

The emergence of DNA-encoded library (DEL) technology has provided a considerable advantage to the pharmaceutical industry in the pursuit of discovering novel therapeutic candidates for their drug development initiatives. This combinatorial technique not only offers a more economical, spatially efficient, and time-saving alternative to the existing ligand discovery methods, but also enables the exploration of additional chemical space by utilizing novel DNA-compatible synthetic transformations to leverage multifunctional building blocks from readily available substructures. In this report, a decarboxylative-based hydroalkylation of DNA-conjugated N-vinyl heterocycles enabled by single-electron transfer (SET) and subsequent hydrogen atom transfer through electron-donor/electron-acceptor (EDA) complex activation is detailed. The simplicity and robustness of this method permits inclusion of a broad array of alkyl radical precursors and DNA-tethered nitrogenous heterocyles to generate medicinally relevant substituted heterocycles with pendant functional groups. Moreover, a successful telescoped route provides the opportunity to access a broad range of intricate structural scaffolds by employing basic carboxylic acid feedstocks.

Graphical abstract: On-DNA hydroalkylation of N-vinyl heterocycles via photoinduced EDA-complex activation

Supplementary files

Article information

Article type
Edge Article
Submitted
20 Jul 2023
Accepted
22 Aug 2023
First published
14 Sep 2023
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2023,14, 14193-14199

On-DNA hydroalkylation of N-vinyl heterocycles via photoinduced EDA-complex activation

M. Sharique, B. Matsuo, A. Granados, S. Kim, M. Arshad, H. Oh, V. E. Wu, M. Huang, A. Csakai, L. A. Marcaurelle and G. A. Molander, Chem. Sci., 2023, 14, 14193 DOI: 10.1039/D3SC03731B

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