N,3,4-Trisubstituted pyrrolidines by electron transfer-induced oxidative cyclizations of N-allylic β-amino ester enolates

Oxidative radical cyclizations starting from easily accessible N-allylic β-alanine esters are reported. Deprotonation generates the corresponding enolates, which are transformed efficiently into α-ester radicals by single electron transfer mediated by ferrocenium hexafluorophosphate. The stereochemistry of the radical 5-exo cyclization can be switched by the configuration of the enolate precursor. First examples of asymmetric oxidative radical cyclizations using N-(1-phenylethyl)-substituted β-amino esters are reported. Only two of the four possible diastereomers are formed from the (E)-enolate with high cis-selectivity. From (Z)-enolates, an additional diastereomer is formed, which is likely to be formed only under chelation control.

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