Synthesis and structure assignments of amide protected nucleosides and their use as phosphoramidites in deoxyoligonucleotide synthesis.

Abstract

The syntheses of several amide protected deoxyguanosine- as well as thymidine nucleosides are described. These compounds were synthesized according to the Mitsunobu reaction and Michael addition. In contradiction to previous studies we have discovered that the Michael addition gives only products derived from N-alkylation. The occurrence of N- or O-alkylation was assigned by means of two dimensional 1H, 1 3 C-COLOC-NMR spectroscopy. Further, we have found that the Mitsunobu reaction used for the protection of the amide function of dG is limited to alcohols without acidic hydrogen atoms. Amide protected phosphormidites (15, 16) were used for the preparation of deoxyoligonucleotides with a large number of guanine and thymine bases using two different coupling times. We have shown that there is no experimentally detectable difference in the quality of the products if the starting monomer is amide protected or not.