Maintain the light, long-term seasonal monitoring of luminous capabilities in the brittle star Amphiura filiformis

Coubris, Constance; Duchatelet, Laurent; Delroisse, Jérôme; Bayaert, Wendy Shirley; Parise, Laura; Eloy, Marie Christine; Pels, Christophe; Mallefet, Jérôme

doi:10.1038/s41598-024-64010-x

Cited by 2 publications

References 46 publications

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Marine eukaryote bioluminescence: a review of species and their functional biology

Duchatelet,

Dupont

2024

Mar Life Sci Technol

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Bioluminescence, the ability of organisms to produce visible light, has intrigued scientists for centuries. Studies have examined bioluminescence, using a wide range of approaches and organisms, from its ecological role to its underlying molecular mechanisms, leading to various applications and even a Nobel prize. Over the last ten years, an increasing amount of data has been collected leading to a growing number of recognized marine bioluminescent species. This review provides and describes a referenced listing of the eukaryotic luminous marine species, including information related to: (i) intrinsic versus extrinsic source of the bioluminescence, (ii) the color and maximum wavelength of emission, (iii) the bioluminescent system (substrate and enzyme) and the associated molecules, (iv) the availability of light organ/cell(s) pattern and histological structure, (v) the physiological control of the light production, and (vi) the demonstrated or suggested bioluminescent function(s). This listing provides basic information and references for researchers in or entering in the field of marine bioluminescence. Using a semi-quantitative approach, we then highlight major research gaps and opportunities and reflect on the future of the field.

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Marine eukaryote bioluminescence: a review of species and their functional biology

Duchatelet,

Dupont

2024

Mar Life Sci Technol

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Waves of light at the bottom of the ocean: insights into the luminous systems of three sea pens (Pennatuloidea, Octocorallia, Anthozoa)

Duchatelet,

Galeazzo,

Coubris

et al. 2024

Preprint

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Bioluminescence is the production of visible light by living organisms. This process occurs biochemically through the primary oxidation of specific luciferin substrates, facilitated by enzymes known as luciferases. Moreover, the bioluminescent reaction often involves additional elements like auxiliary proteins or cofactors. Auxiliary proteins, such as fluorescent proteins and coelenterazine-binding proteins, for example, may serve various roles, such as altering the wavelength of the emitted light or stabilizing the highly reactive and unstable luciferin, respectively. Calcium has been demonstrated to serve as an essential ion in luminescence processes across various species. Despite the existence of numerous bioluminescent species, only a fraction of bioluminescent systems and their associated molecular actors have been thoroughly studied. Within anthozoans, the bioluminescence system of the Renilla genus stands out as the sole extensively characterized system, involving a coelenterazine-dependent luciferase, a calcium-dependent coelenterazine-binding protein, and a green fluorescent protein. Through a multidisciplinary approach, we investigated the bioluminescent system of three sea pen species: Pennatula phosphorea, Funiculina quadrangularis, and Anthoptilum murrayi (Pennatuloidea, Anthozoa, Cnidaria). We first confirmed or characterized the emission spectra of these species, elucidated the coelenterazine-based reaction, and generated reference transcriptomes for the two first species. Our transcriptomic analysis revealed transcripts encoding luciferases, fluorescent proteins, and coelenterazine-binding proteins, also shedding light on their expression profiles. Immunodetection confirmed the presence of luciferase in P. phosphorea and F. quadrangularis, while autofluorescence patterns attributed to green fluorescent protein or the coelenterazine were observed in P. phosphorea. Furthermore, a recombinant luciferase was expressed for A. murrayi. Our findings also underscore the essential role of calcium ions in bioluminescence, possibly associated with the mechanism of coelenterazine binding and substrate release. Finally, we propose a mechanistic model of bioluminescence in anthozoans, laying the groundwork for further functional characterization and ecological exploration of these sessile and benthic luminous organisms.

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Maintain the light, long-term seasonal monitoring of luminous capabilities in the brittle star Amphiura filiformis

Cited by 2 publications

References 46 publications

Marine eukaryote bioluminescence: a review of species and their functional biology

Marine eukaryote bioluminescence: a review of species and their functional biology

Waves of light at the bottom of the ocean: insights into the luminous systems of three sea pens (Pennatuloidea, Octocorallia, Anthozoa)

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