Effect of temperature on the buoyant density of bacterial and viral DNA in CsCl solutions in the ultracentrifuge

## Abstract The effects of pressure on the composition density distribution in a binary density gradient at sedimentation equilibrium in the analytical ultracentrifuge are rigorously examined. A computer algorithm is described for the necessary iterative computations. The pressure effect is found t

## Abstract The effects is solution of the alkali‐metal chlorides on the gel‐like phase of DNA formed in the ultracentrifuge cell have been studied. The polycations, spermidine and spermine, also were shown to affect strongly the swelling pressure of the DNA gel, with evidence for the destabilizati

## Abstract The work examines the structural transitions of DNA under the action of Cu^2+^ and Ca^2+^ ions in aqueous solution at temperatures of 29 and 45°C by ir spectroscopy. Upon binding to the divalent ions studied, DNA transits into the compact state both at 29 and 45°C. In the compact state

The time required for the completion of the process of strand separation ill X bacteriophage DNA preparations exposed to strongly alkaline conditions in aqueous glycerol solutions was directly proportional to the viscosity of the solvent. This finding s u p ports the idea that the rate-limiting step