Relaxation of chromatin structure induced by ethidium binding. Involvement of the intercalation process.

In this paper we study the effects of the binding of ethidium on the structure of chromatin, using micrococcal nuclease as a structural probe. This binding induces two structural changes of chromatin either isolated or in the nuclei. (a) An unfolding of the overall structure which results in an activation of the rate of degradation by the nuclease. (b) A disorganisation of the core particle structure which has the effect of unwrapping the DNA from the histone core, this disruption can go on so far as to leave only 90 base pairs. By comparing the bindings of ethidium and tetramethylethidium, we conclude that the first type of structural change is due to an electrostatic effect and does not depend upon intercalation. On the other hand, the second one is due to the intercalation process and to the change of topological constraints on the DNA that such a process involves.