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通过亚胺离子实现与不同碳-碳键的氨基催化交叉偶联方法。

Aminocatalytic cross-coupling approach via iminium ions to different C - C Bonds.

作者信息

Mupparapu Nagaraju, Battini Narsaiah, Battula Satyanarayana, Khan Shahnawaz, Vishwakarma Ram A, Ahmed Qazi Naveed

机构信息

Medicinal Chemistry Division, Indian Institute of Integrative Medicine (IIIM), Jammu (India); Academey of Scientific and Innovative Research, 2-Rafi Marg, New Delhi (India).

出版信息

Chemistry. 2015 Feb 9;21(7):2954-60. doi: 10.1002/chem.201405477. Epub 2014 Dec 18.

DOI:10.1002/chem.201405477
PMID:25524296
Abstract

Given the attractive ability of iminium ions to functionalize molecules directly at ostensibly unreactive positions, the reactivity of iminium ions, in which an α CH2 group is replaced by CO was explored. Background studies on the ability of such iminium cations to promote reactions via an iminium-catalyzed or iminium-equivalent pathway are apparently unavailable. Previously, tandem cross-coupling reactions were reported, in which an iminium ion undergoes nucleophilic 1,2-addition to give a putative three-component intermediate that abstracts a proton in situ and undergoes self-deamination followed by unprecedented DMSO/aerobic oxidation to generate α-ketoamides. However, later it was observed that iminium ions can generate valuable α-ketoamides through simple aerobic oxidation. In all reactions, iminium ions were generated in situ by reaction of 2-oxoaldehydes with secondary amines.

摘要

鉴于亚胺离子具有在表面上无反应活性的位置直接使分子功能化的能力,因此对α CH2基团被CO取代的亚胺离子的反应活性进行了探索。关于此类亚胺阳离子通过亚胺催化或亚胺等效途径促进反应能力的背景研究显然还没有。此前,有报道称串联交叉偶联反应,其中亚胺离子经历亲核1,2-加成生成假定的三组分中间体,该中间体原位夺取一个质子并进行自脱氨,随后进行前所未有的二甲基亚砜/有氧氧化以生成α-酮酰胺。然而,后来观察到亚胺离子可以通过简单的有氧氧化生成有价值的α-酮酰胺。在所有反应中,亚胺离子通过2-氧代醛与仲胺的反应原位生成。

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