Mutagenesis evidence that the partial reactions of firefly bioluminescence are catalyzed by different conformations of the luciferase C-terminal domain.

Firefly luciferase catalyzes two sequential partial reactions resulting in the emission of light. The enzyme first catalyzes the adenylation of substrate luciferin with Mg-ATP followed by the multistep oxidation of the adenylate to form the light emitter oxyluciferin in an electronically excited state. The beetle luciferases are members of a large superfamily, mainly comprised of nonbioluminescent enzymes that activate carboxylic acid substrates to form acyl-adenylate intermediates. Recently, the crystal structure of a member of this adenylate-forming family, acetyl-coenzyme A (CoA) synthetase, was determined in complex with an unreactive analogue of its acyl-adenylate and CoA [Gulick, A. M., Starai, V. J., Horswill, A. R., Homick, K. M., and Escalante-Semerena, J. C. (2003) Biochemistry 42, 2866−2873]. This structure presented a new conformation for this enzyme family, in which a significant rotation of the C-terminal domain brings residues of a conserved β-hairpin motif to interact with the active site....