The 3-(N-tert-butylcarboxamido)-1-propyl group as an attractive phosphate/thiophosphate protecting group for solid-phase oligodeoxyribonucleotide synthesis

Among the various phosphate/thiophosphate protecting groups suitable for solid-phase oligonucleotide synthesis, the 3-(N-tent-butylcarboxamido)-1-propyl group is one of the most convenient, as it can be readily removed, as needed, under thermolytic conditions at neutral pH. The deprotection reaction proceeds rapidly (t(1/2) similar to100 s) through an intramolecular cyclodeesterification reaction involving the amide function and the release of the phosphate/thiophosphate group as a 2-(tert-butylimino)tetrahydrofuran salt. Incorporation of the 3-(N-tent-butylcarboxamido)-1-propyl group into the deoxyribonucleoside phosphoramidites 1a-d is achieved using inexpensive raw materials. The coupling efficiency of 1a-d in the solid-phase synthesis of d(ATCCGTAGCTAAGGTCATGC) and its phosphorothioate analogue is comparable to that of commercial 2-cyanoethyl deoxyribonucleoside phosphoramidites. These oligonucleotides were phosphate/thiophosphate-deprotected within 30 min upon heating at 90 degreesC in Phosphate-Buffered Saline (PBS buffer, pH 7.2). Since no detectable nucleobase modification or significant phosphorothioate desulfurization occurs, the 3-(N-tert-butylcarboxamido)-1-propyl group represents an attractive alternative to the 2-cyanoethyl group toward the large-scale preparation of therapeutic oligonucleotides.