Red- and green-emitting firefly luciferase mutants for bioluminescent reporter applications.

Light emission from the North American firefly Photinus pyralis, which emits yellow-green (557-nm) light, is widely believed to be the most efficient bioluminescence system known, making this luciferase an excellent tool for monitoring gene expression. Here, we present studies leading to the production of a set of red- and green-emitting luciferase mutants with bioluminescent properties suitable for expanding the use of the P. pyralis system to dual-color reporter assays, biosensor measurements with internal controls, and imaging techniques.

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.