Author
Listed:
- Mary P. Hall
(Promega Corporation)
- Carolyn C. Woodroofe
(Promega Corporation
National Institutes of Health)
- Monika G. Wood
(Promega Corporation)
- Ivo Que
(Leiden University Medical Center)
- Moniek Root
(Erasmus University Medical Center)
- Yanto Ridwan
(Erasmus University Medical Center
Erasmus University Medical Center)
- Ce Shi
(Promega Biosciences Incorporated)
- Thomas A. Kirkland
(Promega Biosciences Incorporated)
- Lance P. Encell
(Promega Corporation)
- Keith V. Wood
(Promega Corporation)
- Clemens Löwik
(Erasmus University Medical Center
Erasmus University Medical Center)
- Laura Mezzanotte
(Erasmus University Medical Center
Erasmus University Medical Center)
Abstract
The sensitivity of bioluminescence imaging in animals is primarily dependent on the amount of photons emitted by the luciferase enzyme at wavelengths greater than 620 nm where tissue penetration is high. This area of work has been dominated by firefly luciferase and its substrate, D-luciferin, due to the system’s peak emission (~ 600 nm), high signal to noise ratio, and generally favorable biodistribution of D-luciferin in mice. Here we report on the development of a codon optimized mutant of click beetle red luciferase that produces substantially more light output than firefly luciferase when the two enzymes are compared in transplanted cells within the skin of black fur mice or in deep brain. The mutant enzyme utilizes two new naphthyl-luciferin substrates to produce near infrared emission (730 nm and 743 nm). The stable luminescence signal and near infrared emission enable unprecedented sensitivity and accuracy for performing deep tissue multispectral tomography in mice.
Suggested Citation
Mary P. Hall & Carolyn C. Woodroofe & Monika G. Wood & Ivo Que & Moniek Root & Yanto Ridwan & Ce Shi & Thomas A. Kirkland & Lance P. Encell & Keith V. Wood & Clemens Löwik & Laura Mezzanotte, 2018.
"Click beetle luciferase mutant and near infrared naphthyl-luciferins for improved bioluminescence imaging,"
Nature Communications, Nature, vol. 9(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-017-02542-9
DOI: 10.1038/s41467-017-02542-9
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