The interaction of the antitumor drug Adriamycin with nucleotides, polynucleotides, RNA, calf thymus nucleosomes, and DNA (including pBR322 supercoiled DNA) has been studied using fluorescent probes. The lanthanide terbium is known to interact with guanine and xanthosine to produce high fluorescence enhancement. The nature of the interaction of the lanthanide with the heterocyclic ring in guanine appears to involve both the C-2 and N-7 groups. A striking decrease in fluorescence enhancement was observed with all of the polynucleotides, RNA, DNA, and nucleosomes after treatment with Adriamycin at molar ratios of 1:200 or less. It appears that Adriamycin interacts with the guanine ring, displacing or preventing terbium access to its second site of binding. However, with supercoiled DNA and nucleosomes, the displacement followed a destabilization of the helix at very low drug concentrations. The binding affinities of calf thymus DNA, pBR322 DNA, and calf thymus nucleosomes at 37 degrees for Adriamycin were of the same order of magnitude. Reaction with N-pyrene maleimide, a fluorescent probe which binds to histone H3, showed that Adriamycin interacted with the nucleosome to increase the binding of the probe (only, however, at drug ratios far greater than those required to produce effects with DNA). No compositional changes of supercoiled or nucleosomal DNA or nucleosomal histones were observed by agarose gel or sodium dodecyl sulfate:polyacrylamide gel electrophoresis, respectively. The classic intercalating agent, ethidium bromide, produced minimal displacement of the lanthanide from DNA, although an effect with RNA at high drug concentrations was observed.