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An improved pathway for autonomous bioluminescence imaging in eukaryotes

Ekaterina S. Shakhova, Tatiana A. Karataeva, Nadezhda M. Markina, Tatiana Mitiouchkina, Kseniia A. Palkina, Maxim M. Perfilov, Monika G. Wood, Trish T. Hoang, Mary P. Hall, Liliia I. Fakhranurova, Anna E. Alekberova, Alena K. Malyshevskaia, D.A. Gorbachev, Evgenia N. Bugaeva, Ludmila K. Pletneva, Vladislav V. Babenko, Daria I. Boldyreva, Andrey Yu. Gorokhovatsky, Anastasia V. Balakireva, Feng Gao, V. V. Choob, Lance P. Encell, Keith V. Wood, Ilia V. Yampolsky, Karen S. Sarkisyan, Alexander S. Mishin

2024Nature Methods45 citationsDOIOpen Access PDF

Abstract

The discovery of the bioluminescence pathway in the fungus Neonothopanus nambi enabled engineering of eukaryotes with self-sustained luminescence. However, the brightness of luminescence in heterologous hosts was limited by performance of the native fungal enzymes. Here we report optimized versions of the pathway that enhance bioluminescence by one to two orders of magnitude in plant, fungal and mammalian hosts, and enable longitudinal video-rate imaging.

Topics & Concepts

BioluminescenceBioluminescence imagingComputational biologyCell biologyBiologyBiophysicsChemistryLuciferaseBiochemistryGeneTransfectionbioluminescence and chemiluminescence researchPhotoreceptor and optogenetics researchAdvanced Fluorescence Microscopy Techniques
An improved pathway for autonomous bioluminescence imaging in eukaryotes | Litcius