An Improved PEG-Linked Solid Support for Minimizing Process-Related Impurities During Solid-Phase Synthesis of DNA and RNA Sequences

摘要

The preparation of controlled pore glass (CPG) supports, functionalized with several hexaethylene glycol spacers, to alleviate the problems associated with the porosity of commercial CPG supports is described in this article. The pore size of CPG restricts the diffusion of reagents to the leader nucleoside embedded in porous supports; this inhibits efficient solid-phase syntheses of DNA and RNA sequences and, by default, the purity of those sequences through formation of a shorter than full-length oligonucleotide. Functionalization of a CPG support with five hexaethylene glycol spacers led to a 42% reduction in process-related impurities contaminating oligonucleotide sequences, compared to that obtained using the commercial long-chain alkylamine (LCAA) CPG support.