The interaction of zinc(II) ions with antiparallel-stranded d(GA)n DNA homoduplexes.

In the presence of specific metal-ions (namely zinc but also cadmium, cobalt and manganese), d(GA x TC)n DNA sequences can form non-B-DNA conformations. At low metal-ion concentration they form [GA(GA x TC)] intramolecular triplexes but, upon increasing the metal concentration, the formation of (GA x GA) intramolecular hairpins is detected. In this paper we address the question of the specific effects of zinc on the structure of the d(GA x TC)n sequences. In the presence of zinc, the DMS-reactivity of the (GA x GA) hairpins is strongly reduced suggesting a direct interaction of the metal-ion with the N7-group of the guanines. This effect is specific for antiparallel-stranded d(GA)n homoduplexes. No such strong decrease in DMS-reactivity is observed in B-DNA duplexes or in d(GGA)n and d(GGGA)n homoduplexes. In addition, the thermal stability of antiparallel-stranded d(GA)n homoduplexes increases in the presence of zinc. On the contrary, the melting temperature of similar B-DNA molecules decreases upon increasing the zinc concentration. Altogether, these result indicate that zinc plays an specific role on the stabilization of the (GA x GA) intramolecular hairpins.