Xia Yi, Li Wei, Qu Fanqi, Fan Zhijin, Liu Xiufeng, Berro Charles, Rauzy Evelyne, Peng Ling
College of Chemistry and Molecular Sciences, Wuhan University, Wuhan 430072, P. R. China.
Org Biomol Chem. 2007 Jun 7;5(11):1695-701. doi: 10.1039/b703420b. Epub 2007 Apr 25.
Novel bitriazolyl nucleosides were synthesized via the Huisgen reaction, starting with 3-azidotriazole nucleoside (1). Surprisingly, its isomer, 5-azidotriazole nucleoside (1') did not yield the corresponding Huisgen reaction products efficiently because it was rapidly reduced to amine in the presence of Cu(II)-ascorbate. The significant differences between the reactivity of these two isomers in Cu(II)-ascorbate mediated reactions are mainly due to differences in their electronic properties and steric congestion as a result of different relative positions of the azido and the ribosyl moieties.
新型双三唑基核苷通过惠斯根反应合成,以3-叠氮基三唑核苷(1)为起始原料。令人惊讶的是,其异构体5-叠氮基三唑核苷(1')不能有效地生成相应的惠斯根反应产物,因为它在Cu(II)-抗坏血酸盐存在下会迅速还原为胺。这两种异构体在Cu(II)-抗坏血酸盐介导的反应中反应活性的显著差异主要是由于它们电子性质的差异以及叠氮基和核糖基部分相对位置不同导致的空间拥挤。
