The isolated Photobacterium phosphoreum luciferase is associated with a bound flavin designated P-flavin and tentatively identified as 6-(3"-myristic acid)-FMN. Since FMN and myristic acid are products of the normal luciferase reaction, we explored the possibility that P-flavin can also be bound by luciferase from other luminous bacteria and serve as an active site probe. P-flavin has never been detected in Vibrio harveyi cells. We found that the V. harveyi luciferase binds P. phosphoreum P-flavin, at a ratio of 1 P-flavin per luciferase alphabeta dimer, and with concomitant absorption spectral perturbation of P-flavin, fluorescence quenching of P-flavin and luciferase, and activity inhibition of luciferase. Isolated P-flavin can be fully reduced photochemically. V. harveyi luciferase bound the oxidized P-flavin with a K-d (or K-i competitively against decanal) of 0.1-0.16 muM, which is three orders of magnitude lower than the Kd for FMN binding but similar to that of reduced FMN binding. The reduced P-flavin exhibited a K-i (competitively against the reduced FMN substrate) of 0.16 muM, also similar to the K-d for reduced FMN. Hence, the covalent attachment of myristic acid to FMN greatly and preferentially enhanced the binding of oxidized P-flavin. The dissociation of P-flavin was slow in comparison with the binding of reduced FMN and decanal substrates. Modification of the alphaCys106 near the active site by N-ethylmaleimide can be retarded by P-flavin. These findings indicate that P-flavin is potentially a superb active site probe for luciferase. We hypothesize that P-flavin is a by-product of luciferase generated by a side reaction which is trivial with the V. harveyi luciferase but significant in the P. phosphoreum luciferase-catalyzed reaction. (C) 2001 Elsevier Science.
