通过6-氯尿嘧啶与脒的双脒基化反应利用贱金属催化进行简洁的黄嘌呤合成。
Concise Xanthine Synthesis through a Double-Amidination Reaction of a 6-Chlorouracil with Amidines using Base-Metal Catalysis.
作者信息
Morel Bénédicte, Franck Philippe, Bidange Johan, Sergeyev Sergey, Smith Dan A, Moseley Jonathan D, Maes Bert U W
机构信息
Organic Synthesis, Department of Chemistry, University of Antwerp, Groenenborgerlaan 171, 2020, Antwerp, Belgium.
CatSci Ltd., CBTC2, Capital Business Park, Wentloog, Cardiff, CF3 2PX, United Kingdom.
出版信息
ChemSusChem. 2017 Feb 8;10(3):624-628. doi: 10.1002/cssc.201601483. Epub 2017 Jan 12.
A new and concise route towards xanthines through a double-amidination reaction is described; consecutive intermolecular C-Cl and intramolecular oxidative C-H amidination. N-uracil amidines are obtained through S AE on a 6-chlorouracil with amidines. Direct Cu-catalyzed oxidative C-H amidination on these N-uracil amidines yields polysubstituted xanthines. Sustainable oxidants, tBu O or O , can be used in this oxidase-type reaction. The protocol allows for the introduction of N1, N3, N7, and C8 substituents during the xanthine-scaffold construction, thus avoiding post-functionalization steps. Both 6-chlorouracils and amidines are readily available commercially or through synthesis.
描述了一种通过双脒基化反应合成黄嘌呤的新颖简洁路线;连续的分子间C-Cl和分子内氧化C-H脒基化反应。通过6-氯尿嘧啶与脒的SAE反应可得到N-尿嘧啶脒。在这些N-尿嘧啶脒上直接进行铜催化的氧化C-H脒基化反应可生成多取代黄嘌呤。在这种氧化酶型反应中可使用可持续的氧化剂叔丁基过氧化物或氧气。该方法允许在黄嘌呤骨架构建过程中引入N1、N3、N7和C8取代基,从而避免了后期功能化步骤。6-氯尿嘧啶和脒均可通过商业途径轻松获得或通过合成制备。
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