Catalytic asymmetric synthesis of chiral trisubstituted heteroaromatic allenes from 1,3-enynes

Catalytic asymmetric synthesis of chiral trisubstituted heteroaromatic allenes from 1,3-enynes

Chiral allene and N -heteroaryl motifs are present in an ever-growing list of biologically active natural products and synthetic drugs. Although significant progress has been made in asymmetric syntheses of chiral allenes, general and practical protocols for enantioselective syntheses of chiral N -h...

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Veröffentlicht in:Communications chemistry 2018-10, Vol.1 (1), Article 64
Hauptverfasser: Yu, Songjie, Sang, Hui Leng, Zhang, Shuo-Qing, Hong, Xin, Ge, Shaozhong
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639/638/403/933
639/638/77/883
Allene
Asymmetry
Chemical synthesis
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Copper
Enantiomers
Functional groups
Natural products
Oxides
Quinoline
Reagents
Substitutes
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Sang, Hui Leng
Zhang, Shuo-Qing
Hong, Xin
Ge, Shaozhong
description Chiral allene and N -heteroaryl motifs are present in an ever-growing list of biologically active natural products and synthetic drugs. Although significant progress has been made in asymmetric syntheses of chiral allenes, general and practical protocols for enantioselective syntheses of chiral N -heteroaryl-substituted allenes from readily available starting materials still remain rare. Here we report a highly enantioselective synthesis of quinolinyl-substituted chiral allenes through a copper-catalyzed asymmetric allenylation of quinoline N -oxides with readily available 1,3-enynes. A variety of 1,3-enynes react with quinoline N -oxides, affording the corresponding quinolinyl-substituted allenes in high yields (up to 95%) and high enantioselectivities (up to 99% ee). This transformation tolerates a variety of functional groups, such as chloro, bromo, trifluoromethyl ether, tertiary amine, siloxy, carboxylic ester, imide, pyridine, and thiophene moieties. DFT calculations suggest a pathway involving an intramolecular nucleophilic addition of an allenyl copper intermediate with a coordinated quinoline N -oxide through a five-membered, rather than seven-membered, transition state. Chiral allenes are useful chemical reagents, but efficient access to chiral heteroaryl allenes remains challenging. Here the authors report a copper-catalyzed asymmetric allenylation of quinoline N-oxides using 1,3-enynes, providing efficient access to axially chiral allenes bearing heteroarenes.
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Although significant progress has been made in asymmetric syntheses of chiral allenes, general and practical protocols for enantioselective syntheses of chiral N -heteroaryl-substituted allenes from readily available starting materials still remain rare. Here we report a highly enantioselective synthesis of quinolinyl-substituted chiral allenes through a copper-catalyzed asymmetric allenylation of quinoline N -oxides with readily available 1,3-enynes. A variety of 1,3-enynes react with quinoline N -oxides, affording the corresponding quinolinyl-substituted allenes in high yields (up to 95%) and high enantioselectivities (up to 99% ee). This transformation tolerates a variety of functional groups, such as chloro, bromo, trifluoromethyl ether, tertiary amine, siloxy, carboxylic ester, imide, pyridine, and thiophene moieties. DFT calculations suggest a pathway involving an intramolecular nucleophilic addition of an allenyl copper intermediate with a coordinated quinoline N -oxide through a five-membered, rather than seven-membered, transition state. Chiral allenes are useful chemical reagents, but efficient access to chiral heteroaryl allenes remains challenging. 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subjects 639/638/403/933
639/638/77/883
Allene
Asymmetry
Chemical synthesis
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Copper
Enantiomers
Functional groups
Natural products
Oxides
Quinoline
Reagents
Substitutes
title Catalytic asymmetric synthesis of chiral trisubstituted heteroaromatic allenes from 1,3-enynes
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