[Interaction of Ag+ ions with DNA and its monomers].

V A Sorokin V A Valeev G O Gladchenko I V Sysa I V Volchok Iu P Blagoĭ

Biofizika

Verkin Physicotechnical Institute of Low Temperatures, National Academy of Sciences of Ukaine, Kharkov, Ukraine.

Published: December 2000

Differential UV spectra of DNA and its monomers that were induced by Ag+ ions were measured, and the effect of ions on the parameters of the helix-coil transition was studied. The data obtained confirm the existence of "strong" and "weak" modes of binding of Ag+ to DNA. The earlier proposed proton transfer from N1G to N3C, which is determined by the interaction of Ag+ with N7G (a "strong" complex), follows immediately from the shape of the differential UV spectra. The positive cooperativity of the binding of Ag+ to DNA upon the formation of a "weak" complex is due to the cooperativity of the transition of DNA to a new double-helical conformation. A model of this conformation is proposed which suggests the formation of Hougsteen GC and AT pairs.

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