Polycyclic aromatic alkaloids, such as palmatine and berberine, are potential DNA-targeting drugs that can intercalate into the AT-minor groove of DNA. Because the associated adducts are highly fluorescent and can convert 3O2 into 1O2 under UV irradiation, they are potential inhibitors of cancer cells. Despite the fruitful study in this aspect, research on other aspects, such as anion recognition, seems to be relatively rare. According to our study, palmatine and berberine interact weakly with fluoride, chloride, bromide, iodide, nitrate, perchlorate and sulfate in aqueous media, but they interact strongly with fluoride ion in aprotic environments, reflected in its UV-Vis absorption spectra, emission spectra and electrochemical behavior. The quaternary nitrogen atom in palmatine is responsible for the interaction with F- ions, evidenced by the N K-edge measurements and the characterizations with the analogues of palmatine, berberine and canadine. Because of such a specific interaction, palmatine and berberine show promise in fluoride transport.