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Iron‐Catalyzed Radical Relay Enabling the Modular Synthesis of Fused Pyridines from Alkyne‐Tethered Oximes and Alkenes

Fei Du, Shijun Li, Kun Jiang, Rong Zeng, Xichun Pan, Yu Lan, Ying‐Chun Chen, Ye Wei

2020Angewandte Chemie11 citationsDOI

Abstract

Abstract We have rationally designed a new class of alkyne‐tethered oximes and applied them in an unprecedented iron‐catalyzed radical relay protocol for the rapid assembly of a wide array of structurally new and interesting fused pyridines. This method shows broad substrate scope and good functional‐group tolerance and enabled the synthesis of several biologically active molecules. Furthermore, the fused pyridines could be diversely functionalized through various simple transformations, such as cyclization, C−H alkylation, and a click reaction. DFT calculation studies indicate that the reactions involve cascade 1,5‐hydrogen atom transfer, 5‐ exo ‐dig radical addition, and cyclization processes. Moreover, preliminary biological investigations suggest that some of the fused pyridines exhibit good anti‐inflammatory activity by restoring the imbalance of inflammatory homeostasis of macrophages in a lipopolysaccharide‐induced model.

Topics & Concepts

AlkyneChemistryCombinatorial chemistryCatalysisFunctional groupSubstrate (aquarium)Cascade reactionRadical cyclizationMoleculeHydrogen atomStereochemistryOrganic chemistryGroup (periodic table)PolymerOceanographyGeologyCatalytic C–H Functionalization MethodsRadical Photochemical ReactionsSulfur-Based Synthesis Techniques
Iron‐Catalyzed Radical Relay Enabling the Modular Synthesis of Fused Pyridines from Alkyne‐Tethered Oximes and Alkenes | Litcius