Intramolecular hydrogen bond activation for kinetic resolution of furanone derivatives by an organocatalyzed [3 + 2] asymmetric cycloaddition†‡

IF 4.6 1区 化学 Q1 CHEMISTRY, ORGANIC
Miguel A. Valle-Amores, Claudia Feberero, Ana Martin-Somer, Sergio Díaz-Tendero, Andrew D. Smith, Alberto Fraile and José Alemán
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Abstract

Herein, a formal highly enantioselective organocatalyzed [3 + 2] cycloaddition of furanone derivatives and azomethine ylides is presented. The success of this reaction resides in intramolecular hydrogen bond activation through an o-hydroxy group at the aromatic ring of the imine, allowing the formation of highly multifunctional bicyclic adducts with five stereogenic centers in a stereocontrolled manner. Furthermore, the reaction is paired with a highly efficient kinetic resolution of butenolides, achieving selectivity factors above 200. Using this methodology, furan-2(5H)-ones and furo[3,4-c]pyrrolidinones were obtained with high enantioselectivities. Quantum chemistry calculations reveal the crucial role of the hydrogen bond formed between the catalyst donor-units and the two reactants, which modifies their arrangement and promotes effective facial discrimination resulting in a highly selective kinetic resolution. In addition, further applicability of the kinetic resolution process is shown.

Abstract Image

通过有机催化[3 + 2]不对称环化反应激活分子内氢键,促进呋喃酮衍生物的动力学解析†‡
本文介绍了一种呋喃酮衍生物与偶氮甲基酰化物的正式高对映选择性有机催化[3 + 2]环加成反应。该反应的成功之处在于通过亚胺芳香环上的邻羟基激活分子内氢键,从而以立体可控的方式形成具有五个立体中心的高多功能双环加合物。此外,该反应还能搭配丁烯内酯的高效动力学解析,使选择性系数超过 200。利用这种方法,可以获得对映体选择性很高的呋喃-2(5H)-酮和呋喃并[3,4-c]吡咯烷酮。量子化学计算揭示了催化剂供体单元和两种反应物之间形成的氢键的关键作用,它改变了催化剂供体单元和两种反应物的排列,促进了有效的对映体鉴别,从而实现了高选择性的动力学解析。此外,还显示了动力学解析过程的进一步适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Organic Chemistry Frontiers
Organic Chemistry Frontiers CHEMISTRY, ORGANIC-
CiteScore
7.90
自引率
11.10%
发文量
686
审稿时长
1 months
期刊介绍: Organic Chemistry Frontiers is an esteemed journal that publishes high-quality research across the field of organic chemistry. It places a significant emphasis on studies that contribute substantially to the field by introducing new or significantly improved protocols and methodologies. The journal covers a wide array of topics which include, but are not limited to, organic synthesis, the development of synthetic methodologies, catalysis, natural products, functional organic materials, supramolecular and macromolecular chemistry, as well as physical and computational organic chemistry.
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