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Constructing four-membered heterocycles by cycloisomerization
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Four-membered heterocycles are highly sought after in modern drug discovery as they provide beneficial properties to the target molecules. Despite tremendous efforts by the synthetic research community, there is a need for a simple and new method to incorporate these motifs into the design molecules. Herein, we reveal a cycloisomerization strategy for the construction of oxetane and azetidine rings via metal hydride hydrogen atom transfer/radical polar crossover, which is challenging both enthalpically and entropically. This method is suitable for synthesizing polysubstituted four-membered heterocycles. This mild and functional-group tolerant reaction has a broad substrate scope, including the spiro structure, which is an important motif in drug discovery research. Various four-membered heterocyclic building blocks can be synthesized by product derivatization. We also discuss the reaction mechanism, focusing on the four membered ring formation, by deuterium experiment and DFT studies.
Title: Constructing four-membered heterocycles by cycloisomerization
Description:
Four-membered heterocycles are highly sought after in modern drug discovery as they provide beneficial properties to the target molecules.
Despite tremendous efforts by the synthetic research community, there is a need for a simple and new method to incorporate these motifs into the design molecules.
Herein, we reveal a cycloisomerization strategy for the construction of oxetane and azetidine rings via metal hydride hydrogen atom transfer/radical polar crossover, which is challenging both enthalpically and entropically.
This method is suitable for synthesizing polysubstituted four-membered heterocycles.
This mild and functional-group tolerant reaction has a broad substrate scope, including the spiro structure, which is an important motif in drug discovery research.
Various four-membered heterocyclic building blocks can be synthesized by product derivatization.
We also discuss the reaction mechanism, focusing on the four membered ring formation, by deuterium experiment and DFT studies.
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