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DOI: 10.1055/s-0043-1773611
Skeletal Editing of Indoles and Pyrroles Enabled by a Novel, Atomic Carbon Equivalent
Atomic Carbon Equivalent: Design and Application to Diversity-Generating Skeletal Editing from Indoles to 3-Functionalized Quinolines.
ACS Catal. 2024;
14: 13343-13351
DOI: 10.1021/acscatal.4c03868
Significance
Indoles and pyrroles are common structural motifs in drug discovery. As such, any chemical tool that allows for the late-stage diversification of these heterocycles would be of high value to the medicinal chemistry community. The Glorius group has developed an atomic carbon equivalent called Cl-DADFO that allows for the skeletal editing of indoles and pyrroles to their corresponding ring-expanded quinoline and pyridine derivatives, respectively. The photosensitive oxime ester group provides a handle for subsequent structural diversification.
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Comment
The ring expansion product was reliably generated for pyrroles and indoles with substituents at all positions, including C2. Following ring-expansion, radical reaction of the oxime ester allowed for further diversification. This skeletal editing sequence was applied to several drug molecules and natural products, including the anti-migrane medication sumatripan and the anti-fungal natural product brevianamide F.
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Publication History
Article published online:
16 October 2024
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