Abstract
An original approach using electric linear dichroism (ELD) and natural DNAs and polynucleotides of differing base composition has been developed with the aim to investigate the sequence-dependent recognition of DNA by drugs. Both intercalators and minor groove binders have been studied as well as certain hybrid molecules. The results indicate that the orientation of drugs upon binding to nucleic acids can change markedly according to the target sequence. Among the intercalators tested, only actinomycin D and hycanthone show a clear preference for GC- and AT -rich sequences, respectively. For minor groove binders, the linear dichroism showing a strong dependence on base composition of the DNA and polynucleotides is most pronounced. Netropsin and distamycin bind to DNA with a marked AT specificity. Hoechst 33258, berenil and DAPI exhibit positive and negative dichroism signals at AT and GC sites respectively, suggesting that at least two types of drug-DNA interaction are involved depending on the AT GC content of the DNA. Further investigations using polynucleotides with inosine substituted for guanosine, and competition experiments with intercalative drugs suggest that Hoechst 33258, berenil and DAPI interact with GC sequences via a non-classical intercalation process.
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