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Synthesis of Nucleosides and Deoxynucleosides via Gold(I)-Catalyzed <i>N</i>-Glycosylation of Glycosyl (<i>Z</i>)-Ynenoates

Rongkun Liu, Yan Chen, Jibin Zheng, Lvfeng Zhang, Tong Xu, Peng Xu, You Yang

2022Organic Letters34 citationsDOI

Abstract

Nucleoside analogues are widely used as anticancer and antiviral drugs. Here, we develop a highly efficient gold(I)-catalyzed N-glycosylation approach for versatile synthesis of various types of nucleosides and deoxynucleosides with glycosyl (Z)-ynenoates as donors. The wide scope of the N-glycosylation approach was demonstrated by the synthesis of 31 pyrimidine nucleosides and 8 purine nucleosides. Remarkably, the gold(I)-catalyzed N-glycosylation of pyranosyl (Z)-ynenoates with purines was found to be very effective for regioselective synthesis of pyranosyl N9 purine nucleosides. Based on the catalytic N-glycosylation approach, convenient synthesis of two 5′-deoxynucleosides drugs (capecitabine and galocitabine), four 2′-deoxynucleoside drugs (floxuridine, trifluridine, decitabine and cladribine), four 3′,5′-dideoxynucleoside analogues, and four 2′,5′-dideoxynucleoside analogues was achieved in a collective manner.

Topics & Concepts

ChemistryGlycosylationGlycosylDeoxyribonucleosidesNucleosidePyrimidinePurineCladribineDeoxyadenosineCombinatorial chemistryHydroaminationStereochemistryGlycosyl donorCatalysisBiochemistryAdenosineDNAGeneticsBiologyEnzymeCarbohydrate Chemistry and SynthesisCatalytic Alkyne ReactionsAfrican history and culture studies
Synthesis of Nucleosides and Deoxynucleosides via Gold(I)-Catalyzed <i>N</i>-Glycosylation of Glycosyl (<i>Z</i>)-Ynenoates | Litcius