Project description:Photinus pyralis overview

Project description:Pyralis farinalis

Project description:Pyralis farinalis genome assembly, ilPyrFari1

Project description:Photinus pyralis posterior abdomen de novo transcriptome assembly

Project description:Pyralis farinalis, genomic and transcriptomic data

Project description:Sequencing and de novo assembly of the Photinus pyralis genome

Project description:Molecular composition of the male nuptial gift in the firefly Photinus pyralis

Project description:Pyralis farinalis genome assembly, ilPyrFari1, alternate haplotype

Project description:Metatranscriptome sequencing of Photinus pyralis

Project description:Firefly luciferase catalyses a two-step reaction, using ATP-Mg2+, firefly luciferin and molecular oxygen as substrates, leading to the efficient emission of yellow-green light. We report the identification of novel luciferase mutants which combine improved pH-tolerance and thermostability and that retain the specific activity of the wild-type enzyme. These were identified by the mutagenesis of solvent-exposed non-conserved hydrophobic amino acids to hydrophilic residues in Photinus pyralis firefly luciferase followed by in vivo activity screening. Mutants F14R, L35Q, V182K, I232K and F465R were found to be the preferred substitutions at the respective positions. The effects of these amino acid replacements are additive, since combination of the five substitutions produced an enzyme with greatly improved pH-tolerance and stability up to 45 degrees C. All mutants, including the mutant with all five substitutions, showed neither a decrease in specific activity relative to the recombinant wild-type enzyme, nor any substantial differences in kinetic constants. It is envisaged that the combined mutant will be superior to wild-type luciferase for many in vitro and in vivo applications.