Synthesis of 8-oxoguanosine phosphoramidite and its incorporation into Oligoribonucleotides

Recognition and detection of 8-oxo-rG in RNA using the DNA/OMeRNA chimera probes containing fluorescent adenosine-diazaphenoxazine analog

Recent studies indicate that oxidative damage to RNA results in dysfunction of translation and eventual pathogenesis. A representative oxidized base in RNA is 8-hydroxyguanosine (8-oxo-rG), however, unlike its DNA counterpart (8-oxo-dG), its role in pathogenesis has not attracted much attention until recently. The 2'-deoxyadenosine derivative with a diazaphenoxazine skeleton at the 6-amino group (Adap) was shown to be selective for 8-oxo-dG in DNA. In this study, the 2'-O-methoxy derivative of Adap (2'-OMeAdap) was designed as a selective molecule for 8-oxo-rG in RNA. 8-Oxo-rG in the homopurine RNA was selectively recognized by the ODN probe incorporating Adap. In contrast, although it was not possible by the Adap-containing ODN prove due to the instability of the corresponding duplex, 8-oxo-rG in homopyrimidine RNA was selectively detected by the 2'-OMeRNA probe incorporating 2'-OMeAdap.