Aldehyde-hydrate equilibrium in nucleobase 2-oxoethyl derivatives: An NMR, ESI-MS and theoretical study

Abstract

N-2-oxoethyl derivatives of nucleobases are useful starting materials for the preparation of potentially active nucleoside analogues. The 1HNMR,13CNMR, DEPT and ESI-MS spectra of adenine and thymineN-2-oxoethyl derivatives reveal that the different species in equilibrium exist mainly in two forms: aldehydeand hydrate. The NMR spectra show that the equilibrium is shifted towards the hydrate form in waterDMSO 2:1, giving equilibrium constants of 8.3 and 5.3 for adenine and thymine derivatives, respectively.ESI-MS experiments show the dependence of equilibrium shift on pH: in the case of the thymine derivative, the effect on the equilibrium is more important than in the case of the adenine derivative; this difference is explained considering different protonation sites in both structures. All assumptions are supported by theoretical calculations, which suggest the important role played by solvent in the stabilization of molecular structures and equilibrium shift. All aspects analyzed in this work are very important in order to understand the further reactivity of these nucleobase derivatives