化学
立体中心
对映选择合成
电泳剂
色氨酸
亲核细胞
吲哚试验
组合化学
立体化学
有机催化
氨基酸
催化作用
戒指(化学)
胺气处理
亲电取代
立体异构
有机合成
产量(工程)
结合
甘氨酸
有机化学
作者
Dongchen Cai,Yunfei Huang,Tongyin Chen,Siqi Liu,Xiao Xiao,Baoguo Zhao
摘要
Tryptophan derivatives represent privileged molecular architectures in chemical biology and medicinal chemistry. Although extensive efforts have been devoted to their diversification, tryptophan analogues bearing an α-quaternary stereogenic center are highly bioactive yet synthetically challenging subclass. The direct and modular union of an indole-based electrophilic template with an N-unprotected amino acid nucleophile would provide an exceptionally efficient approach to such α-quaternary tryptophan derivatives. Here we report an axially chiral pyridoxal-catalyzed, enantioselective conjugate addition that forges the key C-C bond between indolenyl vinylogous imino electrophiles and N-unprotected α-substituted glycine esters. Under mild conditions, this organocatalytic protocol delivers structurally diverse α-quaternary tryptophan derivatives in up to 94% yield and 99% ee, and exhibits broad tolerance toward indole ring substitution as well as α-alkyl substituted glycinates. This carbonyl catalysis strategy establishes a modular and efficient platform for accessing α-quaternary tryptophan derivatives, underscoring the unique capability of carbonyl catalysis in the synthesis of structurally complex chiral amine compounds.
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