A series of eleven 5-substituted-indole nucleoside residues were synthesized and incorporated into 15-mer oligodeoxynucleotide duplexes with each of the four natural bases (A, G, C, T) paired with the non-natural residues. The universal base properties of these residues were evaluated by comparing the stabilities of these complexes determined by UV thermal denaturation experiments. All of the substituted indoles were more stable than an unsubstituted indole residue, and measures of electronic influences of substituents on the indole pi system correlate with stability. Several residues were more promiscuous than the previously studied 5-nitroindole residue, but the relationship between substituents and selectivity is not clear.
Keywords: Indole 2′-deoxynucleosides; duplex stabilities; substituent effects; universal bases.