The binding of the phenothiazinium dye methylene blue to single stranded poly(riboadenylic acid) was investigated by spectroscopic and calorimetric techniques. The binding was cooperative and the affinity was of the order of 106?M? at 100?mM [Na+] as determined from absorbance, fluorescence and calorimetric studies. Ferrocyanide quenching studies showed intercalative binding of methylene blue to poly(riboadenylic acid). The binding perturbed the circular dichroism spectrum of poly(riboadenylic acid) with concomitant formation of prominent exciton split type of extrinsic CD bands in the 550?00?nm region. The interaction involved a single binding mode with a 1:2 binding stoichiometry. The binding affinity increased with [Na+] ion concentration in the range 10?00?mM [Na+]. Dye binding induced self-assembled duplex formation in poly(riboadenylic acid). The biological utility of the dye methylene blue in probing nucleic acid structure is revealed from these studies.