Ground-state vibrational analyses of firefly luciferin and its conjugate acids and bases are performed. The Gibbs free energies obtained from these analyses are used to estimate pKa values for phenolic hydroxy and carboxy groups and the N-H(+) bond in the N-protonated thiazoline or benzothiazole ring of firefly luciferin. The theoretical pKa values are corrected using the experimental values. The concentrations of these chemical species in solutions with different pH values are estimated from their corrected pKa values, and the pH dependence of their relative absorption intensities is elucidated. With the results obtained we assign the experimental spectra unequivocally. Especially, the small peak near 400 nm at pH 1-2 in experimental absorption spectra is clarified to be due to the excitation of carboxylate anion with N-protonated thiazoline ring of firefly luciferin. Our results show that the pKa values of chemical species, which are contained in the aqueous solutions, are effective to assign experimental absorption spectra.
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http://dx.doi.org/10.1111/php.12052 | DOI Listing |
Sci Rep
December 2024
Graduate School of Bioagricultural Sciences, Nagoya University, Nagoya, 464-8601, Japan.
The bioluminescence reaction of firefly luciferase with D-luciferin has become an indispensable imaging technique in modern biology and life science experiments, but the high cost of D-luciferin is limiting its further application. Here, we report a practical, one-pot synthesis of D-luciferin from p-benzoquinone (p-BQ), L-cysteine methyl ester and D-cysteine, with an overall yield of 46%. Our route, which is six steps in length and proceeds via 2-cyano-6-hydroxybenzothiazole, is inspired by the mechanistic study of our previously reported biomimetic, non-enzymatic, one-pot formation of L-luciferin from p-BQ and L-cysteine.
View Article and Find Full Text PDFACS Chem Biol
January 2025
Department of Molecular Physiology and Biological Physics, University of Virginia School of Medicine, Charlottesville, Virginia 22908, United States.
Bioluminescence imaging (BLI) is a powerful, noninvasive imaging method for animal studies. NanoLuc luciferase and its derivatives are attractive bioluminescent reporters recognized for their efficient photon production and ATP independence. However, utilizing them for animal imaging poses notable challenges.
View Article and Find Full Text PDFACS Chem Neurosci
January 2025
Department of Neurology, University of Alabama at Birmingham, Birmingham, Alabama 35233, United States.
Proinflammatory TREM1 receptors expressed on myeloid-derived cells have recently been recognized as a new oncogenic target in cancer, including gliomas. They are established chemotherapeutic targets in neurodegenerative Parkinson's and Alzheimer's diseases, and they also contribute to stroke and sepsis severities. TREM1 activation requires the TREM1/DAP12 interaction for receptor clustering and signal transduction coordinated by TREM1 ligands.
View Article and Find Full Text PDFBio Protoc
December 2024
Agro-Biotechnology Research Center, Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo, Japan.
Methods Mol Biol
December 2024
Poxvirus and Rabies Branch, Centers for Disease Control and Prevention, Atlanta, GA, USA.
Bioluminescent images of viral replication in live animals (in vivo) reveal disease dynamics and effects of medical countermeasures over time. After selecting an appropriate orthopoxvirus animal model for the study, a recombinant virus with the firefly luciferase gene inserted in the genome is used to infect the animals. On the day of bioluminescent imaging, the substrate, D-luciferin, is prepared; animals are sedated and injected with the substrate and IVIS imager is utilized; various bioluminescent images are acquired; then animals recover and are able to continue in the study.
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