The effect of ionic strength on melting of DNA modified by platinum(II) complexes

The pK, of 3.8-diamino-6-phenyl-phenanthridine (DAPP), a nonquaternary analog of ethidium bromide, has been determined spectrophotometrically as a function of sodium ion concentration both free in solution and complexed to DNA. Unwinding angle determinations with this compound were determined with C

Thermal denaturation of direct-mixed and reconstituted polylysine-DNA complexes in 2.5 X 10-4 M EDTA, pH 8.0 and various concentrations of NaCl has been studied. For both complexes, increasing ionic strength of the solution raises T,, the melting temperature of free base pairs. The linear dependence

Quasielastic light scattering is used to study the effect of ionic strength on the dynamic behavior of DNA. In a first approach the spectrum of scattered light is analyzed in terms of a single relaxation process. T h e large difference between the ohserved behavior and that expected according to a p

## Abstract Quasielastic light‐scattering data on DNA in 0.1, 0.5, and 1.0__M__ NaCl, neutral pH, have been obtained in the scattering angle range 15 ⩽ θ ⩽ 50. The relaxation curves have been analyzed as a single exponential with a reciprocal relaxation time of the form 2__D__~eff~__K__^2^, where _