Cyclic voltammetry and voltabsorptometry studies of redox mechanism of lumazine

Lumazine is one of the biologically-significant pteridine compounds which may participate in biochemical redox reactions. The present work focuses on the reactive intermediates involved in the redox processes of lumazine to better understand its potential physiological action. Two reactive intermediates are produced during the reduction and re-oxidation of lumazine, as revealed by cyclic voltammetry and voltabsorptometry. The stability of the intermediates is highly pH-dependent. Lumazine can be fully regenerated along a circular redox mechanism involving two electrochemical and two chemical steps. The chemical conversion of the intermediates can be distinguished from the electrochemical steps on the time-derivative cyclic voltabsorptiograms recorded at an appropriate wavelength. •Combination of cyclic voltammetry and cyclic voltabsorptometry•Separated voltabsorptometric peaks corresponding to formation and conversion of intermediates•Two intermediates involved in redox of lumazine•A circular redox mechanism involving two electrochemical and two chemical steps