Sangwan Rekha, Dubey Atul, Prajapati Gurudayal, Ampapathi Ravi Sankar, Mandal Pintu Kumar
Academy of Scientific and Innovative Research , New Delhi 110001 , India.
Org Lett. 2019 Apr 19;21(8):2859-2862. doi: 10.1021/acs.orglett.9b00862. Epub 2019 Apr 4.
The base-promoted intramolecular cyclization of Ugi-azide adduct has been demonstrated for the synthesis of highly substituted aziridinyl glycoconjugates in one pot. The reactions are scalable and efficient and have an operationally simple broad substrate scope. To gain insight into the mechanism of aziridine formation, DFT and control experiments show that the cyclization of the aziridine glycoconjugate pathway was preferred, as it proceeds with a low activation energy barrier (0.57 kcal mol), which supports our experimental observation.
已证明在碱促进下,Ugi-叠氮化物加合物的分子内环化反应可一锅法合成高度取代的氮丙啶基糖缀合物。这些反应具有可扩展性且高效,底物范围广泛且操作简单。为深入了解氮丙啶形成的机制,密度泛函理论(DFT)和对照实验表明,氮丙啶糖缀合物途径的环化反应更受青睐,因为其反应的活化能垒较低(0.57千卡/摩尔),这支持了我们的实验观察结果。
