6-azido and 6-azidomethyl uracil nucleosides

AbstractAzido nucleosides have been utilized for click reactions, metabolic incorporation into cellular DNA, and fluorescent imaging of live cells. Two classes of 6-azido modified uracil nucleosides; one with azido group directly attached to uracil ring and second with azido group attached via methylene linker are described. The 6-azido-2'-deoxyuridine (6-AdU) was prepared in 55% overall yield by lithiation-based regioselective C6-iodination of silyl protected 2'-deoxyuridine followed by treatment with sodium azide and deprotection with TBAF. Lithiation-based C6-alkylation of the protected uridine with methyl iodide followed by the oxidation of the 6-methyl product with selenium dioxide and the subsequent mesylation and azidation of the resulting 6-hydroxymethyl group gave after deprotection 6-azidomethyluridine (6-AmU) in 61% overall yield. Direct lithiation-based C6-hydroxymethylation followed by mesylation/azidation sequence and deprotection provided 6-AmU or 6-azidomethyl-2'-deoxyuridine (6-AmdU). Yields for the lithiation-based regioselective C6-iodination and alkylation were higher for uridine than 2'-deoxyuridine derivatives and they appear to be less dependent on the sugar protection group used. Strain promoted click reactions of 6-AdU and 6-AmdU with symmetrically fused cyclopropyl cyclooctyne (OCT) provided fluorescent triazoles. DFT-calculated dihedral angles and energy differences for the favored anti and syn conformation of 6-AdU and 6-AmdU versus their C5 azido counterparts are discussed.Keywords: Azido nucleosides6-azidouridine6-azidomethyluridineuracil C6-lithiationC6-alkylationclick reactions AcknowledgementsYR thanks Florida Education Fund (FEF) for McKnight Dissertation Year Fellowship.Disclosure statementNo conflict of interest has been reported by the authors.Additional informationFundingThe author(s) reported there is no funding associated with the work featured in this article.