The photophysical and photochemical properties of the cationic Zn(II) complex of 5-triethyl ammonium methyl salicylidene ortho-phenylendiimine (ZnL(2+)) interacting with native DNA were investigated by steady state and time-resolved fluorescence spectroscopies. Experimental results indicate that, in the presence of DNA, ZnL(2+) is efficiently protected from a photochemical process, which occurs when it is in the free state dispersed in aqueous solution. The analysis of the absorption and emission spectra of ZnL(2+), both stored in the dark and after exposure to tungsten lamp light for 24 h, corroborated by quantum chemical calculations, allowed us to point out that ZnL(2+) undergoes a photoinduced two-electron oxidation process. According to this picture, the protective action of DNA toward the intercalated ZnL(2+) was attributed to an effective inhibition of the ZnL(2+) photooxidation. In this context, it can be considered that DNA-intercalated ZnL(2+) is located in a region more hydrophobic than that sensed in the bulk water solvent. Moreover, by a thorough analysis of steady state and time-resolved fluorescence spectra, the interaction process can be consistently explained in terms of a complete intercalation of the complex molecules and that the polarity of the environment sensed by intercalated ZnL(2+) is comprised between that of methanol and ethanol.
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