In this paper, we describe the synthesis of 4'-C-aminoalkyl-2'-O-methylnucleosides and the properties of RNAs containing these analogs. Phosphoramidites of 4'-C-aminoethyl and 4'-C-aminopropyl-2'-O-methyluridines were prepared using glucose as starting material, and RNAs containing the analogs were synthesized using the phosphoramidites. Thermal denaturation studies revealed that these nucleoside analogs decreased the thermal stabilities of double-stranded RNAs (dsRNAs). Results of NMR, molecular modeling, and CD spectra measurements suggested that 4'-C-aminoalkyl-2'-O-methyluridine adopts an C2'-endo sugar puckering in dsRNA. The 4'-C-aminoalkyl modifications in the passenger strand and the guide strand outside the seed region were well tolerated for RNAi activity of siRNAs. Single-stranded RNAs (ssRNAs) and siRNAs containing the 4'-C-aminoethyl and 4'-C-aminopropyl analogs showed high stability in buffer containing bovine serum. Thus, siRNAs containing the 4'-C-aminoethyl and 4'-C-aminopropyl analogs are good candidates for the development of therapeutic siRNA molecules.
Keywords: Aminoalkyl groups; Nuclease resistance; Oligonucleotide; RNA; RNA interference; Small interfering RNA; Thermal stability.
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