High resolution hydroxyi radical footprinting of the binding of mithramydn and related antibiotics to DNA

Abstract

The preferred binding sites for mithramycin on three different DNA fragments have been determined by hydroxyl radical footprinting. Sequences which appear as one long protected region using DNAase I as a footprinting probe are resolved into several discrete binding domains. Each drug molecule protects three bases from radical attack, though adjacent regions show attenuated cleavage. Mithramycin and the other related compounds induce similar footprinting patterns and appear to recognise GC rich region with a preference for those containing the dinucleotide step GpG. The ability of each such site to bind the drug depends on the sequence environment in which it is located. The data are consistent with mithramycin binding to the DNA minor groove.