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Aza-Riley 氧化 Ugi-叠氮化物和 Ugi-3CR 产物生成偕三羰基酰胺:两步 MCR-氧化方法学,用于构建功能化的α,β-二酮酰胺和α,β-二酮四唑。

Aza-Riley Oxidation of Ugi-Azide and Ugi-3CR Products toward Vicinal Tricarbonyl Amides: Two-Step MCR-Oxidation Methodology Accessing Functionalized α,β-Diketoamides and α,β-Diketotetrazoles.

机构信息

Department of Chemistry & Biochemistry, College of Science, and ‡Division of Drug Discovery & Development, College of Pharmacy, University of Arizona , Tucson, Arizona 85721, United States.

出版信息

Org Lett. 2018 Mar 2;20(5):1275-1278. doi: 10.1021/acs.orglett.7b03977. Epub 2018 Feb 21.

DOI:10.1021/acs.orglett.7b03977
PMID:29466017
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6424580/
Abstract

Direct oxidative deamination of glyoxal-derived Ugi-azide and Ugi three-component reaction products readily affords vicinal tricarbonyls (α,β-diketoamides) and α,β-diketotetrazoles with two diversity elements. This significant extension of our previously described multicomponent reaction-oxidative deamination methodology is proposed to proceed through a mechanistically distinct SeO-mediated C-N oxidation derived from an active enol of α-amino-β-ketone systems, effectively an aza-Riley oxidation. This methodology accesses diverse VTC systems from prototypical amines, glyoxaldehydes, and isocyanide building blocks in a mere two steps.

摘要

直接氧化脱氨衍生的 Ugi-叠氮化物和 Ugi 三组分反应产物可轻松获得带有两个多样性元素的偕三羰基化合物(α,β-二酮酰胺)和α,β-二酮四唑。这种对我们之前描述的多组分反应-氧化脱氨方法的显著扩展,据推测是通过 SeO 介导的 C-N 氧化进行的,该氧化源自α-氨基-β-酮系统的活性烯醇,实际上是一种氮杂-Riley 氧化。这种方法仅通过两步即可从典型的胺、乙二醛和异氰化物砌块中获得各种 VTC 系统。

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