TY - JOUR
T1 - Acquisition of bioluminescent trait by non-luminous organisms from luminous organisms through various origins
AU - Ramesh, Chatragadda
AU - Bessho-Uehara, Manabu
N1 - Publisher Copyright:
© 2021, The Author(s), under exclusive licence to European Photochemistry Association, European Society for Photobiology.
PY - 2021/11
Y1 - 2021/11
N2 - Abstract: Bioluminescence is a natural light emitting phenomenon that occurs due to a chemical reaction between luciferin and luciferase. It is primarily an innate and inherited trait in most terrestrial luminous organisms. However, most luminous organisms produce light in the ocean by acquiring luminous symbionts, luciferin (substrate), and/or luciferase (enzyme) through various transmission pathways. For instance, coelenterazine, a well-known luciferin, is obtained by cnidarians, crustaceans, and deep-sea fish through multi-level dietary linkages from coelenterazine producers such as ctenophores, decapods, and copepods. In contrast, some non-luminous Vibrio bacteria became bioluminescent by obtaining lux genes from luminous Vibrio species by horizontal gene transfer. Various examples detailed in this review show how non-luminescent organisms became luminescent by acquiring symbionts, dietary luciferins and luciferases, and genes. This review highlights three modes (symbiosis, ingestion, and horizontal gene transfer) that allow organisms lacking genes for autonomous bioluminescent systems to obtain the ability to produce light. In addition to bioluminescence, this manuscript discusses the acquisition of other traits such as pigments, fluorescence, toxins, and others, to infer the potential processes of acquisition. Graphical abstract: [Figure not available: see fulltext.]
AB - Abstract: Bioluminescence is a natural light emitting phenomenon that occurs due to a chemical reaction between luciferin and luciferase. It is primarily an innate and inherited trait in most terrestrial luminous organisms. However, most luminous organisms produce light in the ocean by acquiring luminous symbionts, luciferin (substrate), and/or luciferase (enzyme) through various transmission pathways. For instance, coelenterazine, a well-known luciferin, is obtained by cnidarians, crustaceans, and deep-sea fish through multi-level dietary linkages from coelenterazine producers such as ctenophores, decapods, and copepods. In contrast, some non-luminous Vibrio bacteria became bioluminescent by obtaining lux genes from luminous Vibrio species by horizontal gene transfer. Various examples detailed in this review show how non-luminescent organisms became luminescent by acquiring symbionts, dietary luciferins and luciferases, and genes. This review highlights three modes (symbiosis, ingestion, and horizontal gene transfer) that allow organisms lacking genes for autonomous bioluminescent systems to obtain the ability to produce light. In addition to bioluminescence, this manuscript discusses the acquisition of other traits such as pigments, fluorescence, toxins, and others, to infer the potential processes of acquisition. Graphical abstract: [Figure not available: see fulltext.]
KW - Acquired luminescence
KW - Coelenterazine
KW - Deep-sea organisms
KW - Dietary luciferin
KW - Light organs
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U2 - 10.1007/s43630-021-00124-9
DO - 10.1007/s43630-021-00124-9
M3 - Review article
C2 - 34714534
AN - SCOPUS:85118261959
SN - 1474-905X
VL - 20
SP - 1547
EP - 1562
JO - Photochemical and Photobiological Sciences
JF - Photochemical and Photobiological Sciences
IS - 11
ER -