Solution structure of diastereomeric thymidine 3'-O(N,N-diisopropyl-O-beta-cyanoethyl-phosphoramidothioate)s by NMR spectroscopy

Synthesis and structural study of variously oxidized diastereomeric 5'-dimethoxytrityl-thymidine-3'-O-[O-(2-cyanoethyl)-N,N-diisopropyl]-phosphoramidite derivatives. Comparison of the effects of the P=O, P=S, and P=Se functions on the NMR spectral and chromatographic properties

R(P)- and S(P)-diastereomers of 5'-dimethoxytrityl-thymidine-3'-O-[O-(2-cyanoethyl)-N,N-diisopropyl]-phosphoramidite (T-CED) were separated by silica gel chromatography. Oxidation of both isomers with H(2)O(2), elemental sulfur and selenium, respectively, resulted in the corresponding oxidized analogues in nearly quantitative yields. All reactions were found to proceed with retention of P-configuration. This was confirmed by thorough NMR analysis which, in addition, aimed to study the spectral properties of the diastereomers with special respect to differences in the heteroatom effect of the O, S and Se atoms, double-bonded to the phosphorus, on the vicinal carbon-phosphorus couplings. It was found that the changes in the DeltaJ (=(3)J(P,C4') - (3)J(P,C2')) values were basically induced by the electronegativity of the heteroatoms, rather than differences in the rotational preferences about the C3'-O3' bond. The impact of the benzene solvent on the above couplings is also discussed. The effect of these heteroatoms on the chromatographic (normal and reverse phase HPLC) behavior of the compounds was also investigated and the reverse phase HPLC profiles showed an unambiguous correlation between the electronegativity of the heteroatoms and the chromatographic mobility of the analogues.

13C-31P couplings in the study of conformational properties of some diastereomeric nucleoside-3'-thiophosphate derivatives

Synthesis and stereochemical characterization of enantiomerically pure nucleoside-3'-phosphorothioate esters and salts are reported. Vicinal carbon phosphorus couplings reflect different predominance of the epsilon conformation in the isomeric (Rp and Sp) esters, while for the salts the epsilont conformation prevails in both stereoisomers. The influence of solvent and temperature on the conformational preferences is also described.