An Extended Phosphate Linkage: Synthesis, Hybridization and Modeling Studies of Modified Oligonucleotides

Abstract

Abstract Novel stretched oligonucleotides (A-D) containing a 3′-α-C-methylene phosphodiester bridge (5-atoms long) have been synthesized on an automated synthesizer utilizing phosphoramidite chemistry. The key building-block 1-[3′-O-β-cyanoethyldiisopropylaminophosphiryl-2,3-dideoxy-5-O-dimethoxytriphenylmethyl-3-C-(hydroxymethyl)-β-D-erythro-pentofuranosyl]thymine (21) was prepared in a stereoselective manner from thymidine. Hybridization studies indicated a drop (1.8–3.0°C/mod.) in affinity for the complementary RNA and DNA targets. Molecular modeling results indicated that the 5-atom modified backbone had a different geometry around the phosphodiester linkage compared to the natural phosphodiester linkage. The stretched backbone may not be useful for antisense or triplex constructs, however it may find applications in biochemical/enzyme studies. †Present address: Ribozymes Pharmaceuticals Inc., 2950 Wilderness Place, Boulder, CO 80301.