부산대학교 도서관

Chemically modified siRNAs are expected to have resistance toward nuclease degradation and good thermal stability in duplex formation for in vivo applications. We have recently found that 2′-OMe-4′-thioRNA, a hybrid chemical modification based on 2′-OMeRNA and 4′-thioRNA, has high hybridization affinity for complementary RNA and significant resistance toward degradation in human plasma. These results prompted us to develop chemically modified siRNAs using 2′-OMe-4′-thioribonucleosides for therapeutic application. Effective modification patterns were screened with a luciferase reporter assay. The best modification pattern of siRNA, which conferred duration of the gene-silencing effect without loss of RNAi activity, was identified. Quantification of the remaining siRNA in HeLa-luc cells using a Heat-in-Triton (HIT) qRT–PCR revealed that the intracellular stability of the siRNA modified with 2′-OMe-4′-thioribonucleosides contributed significantly to the duration of its RNAi activity.