New light on tautomerism of purines and pyrimidines and its biological and genetic implications.

ABSTRACT

The tautomerism of the natural 1-substituted pyrimidines and 9-substituted purines found in nucleic acids has been re-examined in the light of new experimental data on various nitrogen heterocycles in solution, in the gas phase and, in part, in low-temperature inert matrices. The results are compared with those obtained by quantum chemical calculations, including improved versions of the latter. Examples are presented of natural nucleosides which exhibit appreciable tautomerism in solution, e.g. formycins A and B, isoguanosine, but are not found in DNA. Illustrations are given of synthetic promutagenic nucleosides with pronounced tautomerism in solution relevant to their role in mutagenesis, such as the N4-hydroxy- and N4-methoxy cytidines. The amino-imino tautomeric equilibria of the promutagenic N6-hydroxy- and N6 -methoxy-adenosines are highly dependent on the solvent medium, the proportion of the imino species varying from 10% in CCl4 to 90% in aqueous medium. The type of base pairing of these is dependent on the conformation of the exocyclic hydroxy or methoxy groups. At the monomer level, addition of a potentially complementary base leads to a shift in the tautomeric equilibrium in favour of the species which pairs with this base. Biological and genetical implications of the foregoing are described.