Elena B. Guglya scite author profile

SignificanceWe present identification of the luciferase and enzymes of the biosynthesis of a eukaryotic luciferin from fungi. Fungi possess a simple bioluminescent system, with luciferin being only two enzymatic steps from well-known metabolic pathways. The expression of genes from the fungal bioluminescent pathway is not toxic to eukaryotic cells, and the luciferase can be easily co-opted to bioimaging applications. With the fungal system being a genetically encodable bioluminescent system from eukaryotes, it is now possible to create artificially bioluminescent eukaryotes by expression of three genes. The fungal bioluminescent system represents an example of molecular evolution of a complex ecological trait and with molecular details reported in the paper, will allow additional research into ecological significance of fungal bioluminescence.

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Plants with genetically encoded autoluminescence

Mitiouchkina

et al. 2020

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Autoluminescent plants that express a bacterial bioluminescence gene cluster 1 have not been widely adopted due to requisite expression in plastids and low light output. Alternatively, we have engineered tobacco lines expressing a fungal bioluminescent system 2 , which converts caffeic acid present in all plants into luciferin, and report self-sustained luminescence easily visible to the naked eye. Our findings might underpin development of a suite of imaging tools for plants.

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Mechanism and color modulation of fungal bioluminescence

et al. 2017

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Fucoxanthin production by heterokont microalgae

et al. 2017

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Elena B. Guglya

Genetically encodable bioluminescent system from fungi

Plants with genetically encoded autoluminescence

Mechanism and color modulation of fungal bioluminescence

Fucoxanthin production by heterokont microalgae

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