![]() ![]() To test the hypothesis that differences in stacking interactions between the chromophores of the drug and the DNA base pairs could account for the differences in binding affinities, models of 2QN bound to two DNA hexamers containing either a central CpG or a central TpD step were built. ![]() Quantitative footprinting plots confirm that sequences surrounding TpD steps bind 2QN several hundred-fold more tightly than do CpG-containing sequences, with dissociation constants of the order of 25 nM. However, newly created binding sites in DNA molecules substituted with diaminopurine (D), all located round TpD steps, bind 2QN with so much higher affinity than the canonical CpG steps that the latter fail completely to appear as footprints in D-substituted DNA indeed CpG sequences appear in regions of enhanced susceptibility to nuclease cleavage as do CpI steps in doubly D + I-substituted DNA. Using tyrT DNA molecules variously substituted with inosine and/or 2,6-diaminopurine residues it is shown that the location of the 2-amino group of purine nucleotides in the minor groove of the double helix exerts a dominant influence in determining where the antibiotic will bind, as it does for echinomycin. ![]() Footprinting experiments with DNase I provide a starting-point for investigating the molecular basis of nucleotide sequence recognition by 2QN, a bis-quinoline derivative of the quinoxaline antibiotic echinomycin produced by directed biosynthesis in Streptomyces echinatus. ![]()
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