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Found largely in temperate and tropical climates, currently there are known more than 75 species〔 of bioluminescent fungi, all of which are members of the order Agaricales (Basidiomycota) with one exeptional ascomycete belonging to the order Xylariales.〔 All known bioluminescent Agaricales are mushroom-forming, white-spored agarics that belong to four distinct evolutionary lineages. The Omphalotus lineage (comprising the genera ''Omphalotus'' and ''Neonothopanus'') contains 12 species, the ''Armillaria'' lineage has 10 known species, while the Mycenoid lineage (''Mycena'', ''Panellus'', ''Prunulus'', ''Roridomyces'') has more than 50 species. The recently discovered Lucentipes lineage contains two species, ''Mycena lucentipes'' and ''Gerronema viridilucens'', which belong to a family that has not yet been formally named.〔 ''Armillaria mellea'' is the most widely distributed of the luminescent fungi, found across Asia, Europe, North America, and South Africa.〔 Bioluminescent fungi emit a greenish light at a wavelength of 520–530 nm. The light emission is continuous and occurs only in living cells.〔 No correlation of fungal bioluminescence with cell structure has been found. Bioluminescence may occur in both mycelia and fruit bodies, as in ''Panellus stipticus'' and ''Omphalotus olearius'', or only in mycelia and young rhizomorphs, as in ''Armillaria mellea''.〔 In ''Roridomyces roridus'' luminescence occurs only in the spores, while in ''Collybia tuberosa'', it is only in the sclerotia.〔 Although the biochemistry of fungal bioluminescence has not fully been characterized, the preparation of bioluminescent, cell-free extracts has allowed researchers to characterize the ''in vitro'' requirements of fungal bioluminescence. Experimental data suggest that a two-stage mechanism is required. In the first, a light-emitting substance (called "luciferin") is reduced by a soluble reductase enzyme at the expense of NAD(P)H. In the second stage, reduced luciferin is oxidized by an insoluble luciferase that releases the energy in the form of bluish-green light. Conditions that affect the growth of fungi, such as pH, light and temperature, have been found to influence bioluminescence, suggesting a link between metabolic activity and fungal bioluminescence.〔 All bioluminescent fungi share the same enzymatic mechanism, suggesting that there is a bioluminescent pathway that arose early in the evolution of the mushroom-forming Agaricales.〔 All known luminescent species are white rot fungi capable of breaking down lignin, found in abundance in wood. Bioluminescence is an oxygen-dependent metabolic process because it provides antioxidant protection against the potentially damaging effects of reactive oxygen species produced during wood decay. The physiological and ecological function of fungal bioluminescence has not been established with certainty. It has been suggested that in the dark beneath closed tropical forest canopies, bioluminescent fruit bodies may be at an advantage by attracting grazing animals (including insects and other arthropods) that could help disperse their spores. Conversely, where mycelium (and vegetative structures like rhizomorphs and sclerotia) are the bioluminescent tissues, the argument has been made that light emission could deter grazing.〔 The following list of bioluminescent mushrooms is based on a 2008 literature survey by Dennis Desjardin and colleagues,〔 in addition to accounts of several new species published since then.〔〔〔〔 == Key == 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「List of bioluminescent fungi」の詳細全文を読む スポンサード リンク
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