亚胺导向的 Cp*Rh 催化的 N-H 官能化与氨基酸酰胺、醛和重氮化合物的环化反应。
Imine Directed Cp*Rh -Catalyzed N-H Functionalization and Annulation with Amino Amides, Aldehydes, and Diazo Compounds.
机构信息
Department of Chemistry, Yale University, 225 Prospect St., New Haven, CT 06520, USA.
出版信息
Angew Chem Int Ed Engl. 2023 Jan 2;62(1):e202210822. doi: 10.1002/anie.202210822. Epub 2022 Nov 30.
Abstract
A multicomponent annulation that proceeds by imine directed Cp*Rh -catalyzed N-H functionalization is disclosed. The transformation affords piperazinones displaying a range of functionality and is the first example of transition metal-catalyzed multicomponent N-H functionalization. A broad range of readily available α-amino amides, including those derived from glycine, α-substituted, and α,α-disubstituted amino acids, were effective inputs and enabled the incorporation of a variety of amino acid side chains with minimal racemization. Branched and unbranched alkyl aldehydes and various stabilized diazo compounds were also efficient reactants. The piperazinone products were further modified through efficient transformations. Mechanistic studies, including X-ray crystallographic characterization of a catalytically competent five-membered rhodacycle with imine and amide nitrogen chelation, provide support for the proposed mechanism.
摘要
本文报道了一种通过亚胺导向的 Cp*Rh 催化 N-H 官能化的多组分环化反应。该转化提供了具有多种功能的哌嗪酮,是首例过渡金属催化的多组分 N-H 官能化反应。广泛的易得的α-氨基酰胺,包括衍生自甘氨酸、α-取代和α,α-二取代氨基酸的酰胺,都是有效的反应物,并能在最小的外消旋化程度下引入各种氨基酸侧链。支链和非支链的烷基醛以及各种稳定的重氮化合物也是有效的反应物。哌嗪酮产物通过有效的转化进一步修饰。包括具有亚胺和酰胺氮螯合的催化活性五元铑环的 X 射线晶体学表征在内的机理研究为所提出的机理提供了支持。
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