Use of Arabinonucleosides for Development and Implementation of a Novel 2'-O-Protecting Group for Efficient Solid-Phase Synthesis and 2'-O-Deprotection of RNA Sequences

The implementation of protecting groups for 2'-hydroxyl function of ribonucleosides is very demanding in that synthetic RNA sequences must be highly pure to ensure the safety and efficacy of nucleic acid-based drugs for treatment of human diseases. A synthetic approach consisting of a condensation reaction between 2'-O-aminoribonucleosides with ethyl pyruvate has been employed to provide stable 2'-O-imino-2-methyl propanoic acid ethyl esters. Conversion of these esters to fully protected ribonucleoside phosphoramidite monomers has allowed rapid and efficient incorporation of 2'-O-protected ribonucleosides into RNA sequences while minimizing the formation of process-related impurities during solid-phase synthesis. Two chimeric 20-mer RNA sequences have been synthesized and then exposed to a solution of sodium hydroxide to saponify the 2'-O-imino-2-methyl propanoic acid ethyl ester protecting groups to their sodium salts. When subjected to ion-exchange conditions at 65°C and near neutral pH, fully deprotected RNA sequences are isolated without production of alkylating side-products and/or formation of mutagenic nucleobase adducts. © 2022 Wiley Periodicals LLC. This article has been contributed to by US Government employees and their work is in the public domain in the USA. Basic Protocol 1: Synthesis of uridine 2'-O-imino-2-propanoic acid ethyl ester and its fully protected 3'-O-phosphoramidite Basic Protocol 2: Synthesis of N