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Autonomous multicolor bioluminescence imaging in bacteria, mammalian, and plant hosts

Subhan Hadi Kusuma, Taishi Kakizuka, Mitsuru Hattori, Takeharu Nagai

2024Proceedings of the National Academy of Sciences21 citationsDOIOpen Access PDF

Abstract

Bioluminescence imaging has become a valuable tool in biological research, offering several advantages over fluorescence-based techniques, including the absence of phototoxicity and photobleaching, along with a higher signal-to-noise ratio. Common bioluminescence imaging methods often require the addition of an external chemical substrate (luciferin), which can result in a decrease in luminescence intensity over time and limit prolonged observations. Since the bacterial bioluminescence system is genetically encoded for luciferase-luciferin production, it enables autonomous bioluminescence (auto-bioluminescence) imaging. However, its application to multiple reporters is restricted due to a limited range of color variants. Here, we report five-color auto-bioluminescence system named Nano-lanternX (NLX), which can be expressed in bacterial, mammalian, and plant hosts, thereby enabling auto-bioluminescence in various living organisms. Utilizing spectral unmixing, we achieved the successful observation of multicolor auto-bioluminescence, enabling detailed single-cell imaging across both bacterial and mammalian cells. We have also expanded the applications of the NLX system, such as multiplexed auto-bioluminescence imaging for gene expression, protein localization, and dynamics of biomolecules within living mammalian cells.

Topics & Concepts

BioluminescenceBioluminescence imagingLuciferaseLuciferinPhotobleachingBiologyBiophysicsBiomoleculeFluorescenceBiochemistryGenePhysicsOpticsTransfectionbioluminescence and chemiluminescence researchCell Image Analysis Techniques3D Printing in Biomedical Research
Autonomous multicolor bioluminescence imaging in bacteria, mammalian, and plant hosts | Litcius