A simple and convenient synthesis of 3'-5'- or 2'-5'-linked oligoribonucleotide by polymerization of unprotected ribonucleoside using phosphorus tris-azole.

Oligoribonucleotides have been synthesized directly from unprotected ribonucleosides by a chemical polymerization approach using phosphorus tris-azoles. The procedure involves two steps: (i) the reaction of unprotected ribonucleoside with phosphorus tris-azole and (ii) the in situ oxidation of the resulting phosphite with iodine and water. Several phosphorus tris-azoles were investigated for generating oligoribonucleotide chains. Phosphorus tris-azoles of which azoles are imidazole, 2-methylimidazole, and 2-ethyl-4-methylimidazole were found to be most effective. Uridine, adenosine, and cytidine oligonucleotides were obtained rapidly in high yields without any protection. The inter-ribonucleotidic linkage of the oligomers consists of 3'-5'- and 2'-5'-linkages. The linkage isomers were easily separated by a reverse phase column chromatography. The present approach provides a convenient and potentially useful method for preparing 3'-5'- or 2'-5'-linked oligoribonucleotides.