A proposed mechanism for light emission by bacterial luciferase involving dissociative electron transfer

A new mechanism that involves dissociative electron transfer in the energy transducing step is set forward for bacterial luciferase catalyzed light emission. The proposal involves (1) dissociation of the 4a-hydroperoxyflavin to a flavin radical and ${}^{\mathrm{?}}\text{O}{}_2{}^{\mathrm{?}}$, accounting for 570 and 620nm absorption, (2) ${}^{\mathrm{?}}\text{O}{}_2{}^{\mathrm{?}}$ addition to the aldehyde carbonyl to form a peroxyl radical, (3) abstraction of H from an enzyme thiol group to form RCH(OOH)OH, (4) thiyl radical abstraction of the H on C in RCH(OOH)OH, a step which can show a $\text{k}{}_{\mathrm{H}}\text{k}{}_{\mathrm{D}}$ of ca. 4, and (5) dissociative electron- transfer, a highly exothermic step that leads to a protonated flavin excited state, a carboxylic acid and water.