C–H Functionalization of Amines via Alkene-Derived Nucleophiles through Cooperative Action of Chiral and Achiral Lewis Acid Catalysts: Applications in Enantioselective Synthesis

C–H Functionalization of Amines via Alkene-Derived Nucleophiles through Cooperative Action of Chiral and Achiral Lewis Acid Catalysts: Applications in Enantioselective Synthesis

Catalytic transformations of α-amino C–H bonds to afford valuable enantiomerically enriched α-substituted amines, entities that are prevalent in pharmaceuticals and bioactive natural products, have been developed. Typically, such processes are carried out under oxidative conditions and require preci...

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Veröffentlicht in:Journal of the American Chemical Society 2018-08, Vol.140 (33), p.10593-10601
Hauptverfasser: Shang, Ming, Chan, Jessica Z, Cao, Min, Chang, Yejin, Wang, Qifan, Cook, Brennan, Torker, Sebastian, Wasa, Masayuki
Format: Artikel
Sprache:eng
Schlagworte:
Alkenes - chemistry
amines
Amines - chemistry
carbon-hydrogen bond activation
carbonyl compounds
Catalysis
catalysts
chemical bonding
drugs
enantioselective synthesis
enantioselectivity
Lewis acids
Lewis Acids - chemistry
Lewis bases
Oxidation-Reduction
Stereoisomerism
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Zusammenfassung:Catalytic transformations of α-amino C–H bonds to afford valuable enantiomerically enriched α-substituted amines, entities that are prevalent in pharmaceuticals and bioactive natural products, have been developed. Typically, such processes are carried out under oxidative conditions and require precious metal-based catalysts. Here, we disclose a strategy for an enantioselective union of N-alkylamines and α,β-unsaturated compounds, performed under redox-neutral conditions, and promoted through concerted action of seemingly competitive Lewis acids, B­(C6F5)3, and a chiral Mg–PyBOX complex. Thus, a wide variety of β-amino carbonyl compounds may be synthesized, with complete atom economy, through stereoselective reaction of an in situ-generated enantiomerically enriched Mg-enolate and an appropriate electrophile.
ISSN:0002-7863
1520-5126
1520-5126
DOI:10.1021/jacs.8b06699