[Calorimetric study of the helix-coil transition in DNA during interaction with Cu2+ ions]. / Kalorimetricheskoe izuchenie perekhoda spiral'-klubok v DNK pri vzaimodeistvii s ionami Cu2+.

Using the method of differential scanning calorimetry, the DNA helix-coil transition was studied in solutions (10(-3) M Na+, 10(-3) M tris HCl, pH 7.0) containing divalent copper ions at relative metal ion concentrations (Mt2+/PDNA) ranging from 0.2 to 20. Dependences of the melting temperature and enthalpy on relative ion concentration were determined. An aggregation of Cu(2+) + DNA complexes in the range of average ion concentration was established. It is shown that the melting enthalpy of "units" increases with copper ion concentration. The data obtained were compared with values determined by UV-spectroscopy. Association constants for Cu2+ binding to DNA were defined by the ligand theory.

[The "condensation" and "ligand" theory in describing DNA helix-coil transition: comparative analysis]. / Teorii "kondensatsii" i "skrepok" pri opisanii perekhoda spiral'-klubok DNK: sravnitel'nyi analiz.

Experimental data on DNA melting in the presence of magnesium and calcium ions are compared with the calculated results by the "ligand" theory and "condensation" theory developed by de Marky and Manning (TMM). The maximum is observed in TMM dependences of DNA melting temperature change (delta Tm) on the ion concentration (D), absent in the experimental dependences and the "ligand" theory. The main cause of the discrepancy of calculated and experimental dependences delta Tm (D) is the fact that TMM neglects Na+ ion effects on Me2+ ion binding ("condensation") to DNA. The results obtained show that in comparison with TMM the "ligand" theory describes more adequately DNA helix-coil transition in the presence of divalent metal ions in the region of both low and high ionic strengths of solution.