化学
氢甲酰化
对映选择合成
铑
催化作用
组合化学
配体(生物化学)
反应性(心理学)
手性配体
有机化学
立体化学
生物化学
医学
病理
受体
替代医学
作者
Yuxin Zhu,Yuchen Zhang,Dongyang He,He Yang,Xiao‐Song Xue,Wenjun Tang
摘要
Chiral γ-amino alcohols are prevalent structural motifs in natural products and bioactive compounds. Nevertheless, efficient and atom-economical synthetic methods toward enantiomerically enriched γ-amino alcohols are still lacking. In this study, a highly enantioselective rhodium-catalyzed reductive hydroformylation of readily available α-substituted enamides is developed, providing a series of pharmaceutically valuable chiral 1,3-amino alcohols in good yields and excellent enantioselectivities in a single step. The development of the 4,4'-bisarylamino-substituted BIBOP ligand is crucial for the success of this transformation. DFT calculations and experimental data have revealed the importance of hydrogen bonding between the N-H group in the structure of TFPNH-BIBOP and the enamide carbonyl group in promoting both high enantioselectivity and reactivity. This method has enabled the concise synthesis of several chiral pharmaceutical intermediates including a single-step synthesis of the key chiral intermediate of maraviroc.
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