EVIDENCE FOR HIGH ENERGY STORAGE INTERMEDIATES IN BIOLUMINESCENCE

— The bioluminescent enzyme from Photobacterium fischeri is normally activated in vifro by reaction with FMNH 2 and O 2 . in the presence of a long‐chain aldehyde. Emission from enzyme intermediates in this reaction continues for several seconds, and if the mixture is frozen just after initiation of the reaction, this presumptive emission may be delayed until the system is warmed again. Light is then emitted in a fashion analogous to thermo‐luminescent emission, with a maximum intensity at — 10°C. The experiments described here show that the total amount of light which is emitted under these conditions no longer depends so much upon aldehyde, a relatively high quantum yield being obtained both with and without aldehyde. It is further shown that bioluminescence may be activated by light, populating it is believed, the same state which is responsible for the emission in the case of the FMNH 2 ‐induced emission. The light‐induced reaction does not depend on flavin in the enzyme preparations, nor does the activation spectrum resemble that of a flavoprotein. Activation may be carried out in the solid state at temperatures down to at least — 100°C, and so does not involve the diffusion of large molecules. It is proposed that energy storage takes place by charge separation, and that the excited state from which emission takes place is associated with charge recombination.