Abstract
We have studied the interaction of the A:T specific minorβgroove binding ligand 4β², 6βdiamidinoβ2βphenylindole (DAPI) with synthetic DNA oligomers containing specific binding sites in order to investigate possible longβrange interactions between bound ligands. We find that DAPI binds cooperatively to the oligomers. The degree of cooperativity increases with increasing number of binding sites and decreases with the separation between them. This dependence is paralleled by changes in the induced circular dichroism spectrum of DAPI, which decreases in intensity at 335 nm and increases at 365 nm. These results are consistent with an allosteric interaction of DAPI with DNA, where bound ligands cooperatively alter the structure of the DNA molecule. This structural change seems possible to induce under various conditions, including physiological. One consequence of allosteric binding is that ligands bound at a distance from each other sense each other's presence and influence each other's properties. If some regulatory proteins the same conformational change as DAPI, novel mechanisms for controlling gene expression can be anticipated.