Synthesis and Photophysical Characterisation of a Fluorescent Nucleoside Analogue that Signals the Presence of an Abasic Site in RNA

The synthesis and site‐specific incorporation of an environment‐sensitive fluorescent nucleoside analogue (2), based on a 5‐(benzofuran‐2‐yl)pyrimidine core, into DNA oligonucleotides (ONs), and its photophysical properties within these ONs are described. Interestingly and unlike 2‐aminopurine (a widely used nucleoside analogue probe), when incorporated into an ON and hybridised with a complementary ON, the emissive nucleoside 2 displays significantly higher emission intensity than the free nucleoside. Furthermore, photophysical characterisation shows that the fluorescence properties of the nucleoside analogue within ONs are significantly influenced by flanking bases, especially by guanosine. By utilising the responsiveness of the nucleoside to changes in base environment, a DNA ON reporter labelled with the emissive nucleoside 2 was constructed; this signalled the presence of an abasic site in a model depurinated sarcin/ricin RNA motif of a eukaryotic 28S rRNA. Environmentally sensitive: An environment‐sensitive fluorescent nucleoside analogue based on a 5‐(benzofuran‐2‐yl)pyrimidine core was synthesised. When incorporated into a DNA oligonucleotide reporter, it signals the presence of an abasic site in a model depurinated sarcin/ricin RNA motif of eukaryotic 28S rRNA (see figure).