Pulse radiolysis studies of anisyl-3,4-semiquinone, formed in the metabolic activation of 4-hydroxyanisole, a possible melanocytotoxic drug under current assessment as a treatment for malignant melanoma, have shown this semiquinone to be unreactive towards oxygen (k less than or equal to 10(5) M-1 s-1), although the reverse reaction of O2- with anisyl-3,4-quinone is very rapid (k = 8.7 x 10(8) M-1 s-1). Since 1,4 benzoquinone is also unreactive towards anisyl-3,4-semiquinone (k less than or equal to 10(5) M-1 s-1), the one-electron reduction potential, E17 (anisyl-3,4-quinone/anisyl-3,4-semiquinone), is likely to be considerably more positive than 0.1 V. This suggests that the cytotoxicity mechanism does not involve the generation of O2- and possible subsequent production of H2O2 and/or OH., leading to lipid peroxidation, as previously proposed, but rather involves as yet unknown reactions of anisyl-3,4-quinone. This quinone is unstable in water and its absorption spectrum was measured immediately (less than 0.1 s) following disproportionation of anisyl-3,4-semiquinone, before significant decay of the quinone had occurred.