DNA interaction with biologically active divalent metal ions: binding constants calculation

## Abstract DNA with Mn^2+^ as the only counterion has been prepared, and the extent of the Mn^2+^ binding was determined under a variety of conditions through measurements of the proton relaxation enhancement of water. The total extent of Mn^2+^ binding per DNA phosphate is found to be 0.43 ± 0.04

## Abstract The extent and modes of binding of the divalent metal ions Mn^2+^ and Co^2+^ to DNA and the effects of salt on the binding have been studied by measurements of the effects of these paramagnetic metal ions on the longitudinal and transverse relaxation rates of the protons of the solvent

## Abstract It has been inferred from previous studies that Mn^2+^ ions bind preferentially to G·C base pairs in DNA, and it has even been suggested that this preference for G·C pairs might be responsible for some of the Mn^2+^ specific effects observed in various biochemical reactions. In this pap

## Abstract The interaction of magnesium ions with Des‐Trp^1^‐Nle^12^‐minigastrin I (Nle^11^‐HG‐13) and Nle^115^‐little gastrin I (Nle^15^‐HG‐17) has been studied by CD and spectrophotometric techniques in trifluoroethanol. Spectrophotometric titrations using murexide as a metallochromic indicator