Lycogala epidendrum

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Lycogala epidendrum
Lycogala epidendrum - Pink and brown slime molds.jpg
Fruiting bodies of L. epidendrum
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Phylum: Amoebozoa
Class: Myxogastria
Order: Liceales
Family: Tubiferaceae
Genus: Lycogala
Species:
L. epidendrum
Binomial name
Lycogala epidendrum
Linnaeus & Fries, 1829

Lycogala epidendrum, commonly known as wolf's milk or groening's slime, is a cosmopolitan species of myxogastrid amoeba which is often mistaken for a fungus. The aethalia, or fruiting bodies, occur either scattered or in groups on damp rotten wood, especially on large logs, from June to November. These aethalia are small, pink to brown cushion-like blobs. They may ooze a pink "paste" if the outer wall is broken before maturity. When mature, the colour tends to become more brownish. When not fruiting, single celled individuals move about as very small, red amoeba-like organisms called plasmodia, masses of protoplasm that engulf bacteria, as well as fungal and plant spores, protozoa, and particles of non-living organic matter through phagocytosis (see slime mould for more information).

Contents

Description

Aethalia on decaying wood Lycogala epidendrum.2009.jpg
Aethalia on decaying wood

During the plasmodial stage, individuals are reddish in colour, but these are almost never seen. When conditions change, the individuals aggregate by means of chemical signalling to form an aethalium, or fruiting body. These appear as small cushion-like blobs measuring about 3–15 millimetres (0.12–0.59 in) in diameter. Colour is quite variable, ranging from pinkish grey to yellowish brown or greenish black, with mature individuals tending towards the darker end. They may be either round or somewhat compressed with a warted or rough texture. While immature they are filled with a pink, paste-like fluid. With maturity the fluid becomes a powdery mass of minute grey spores. The spores measure 6 to 7.5  µm and are round in shape with a netted texture and appearing ochre to lavender in colour. The pseudocapillitia, sterile elements in the spore mass, are long, flattened, branching tubes with transverse wrinkles and folds. [1]

Similar species

Similar species include Hemitrichia calyculata, Physarum cinereum , Physarum nutans, and Trichia varia . [2]

Natural products found in this species

Staurosporine analogues:

Antimicrobal lactones:

Chemically, these are polypropionate lactone glycosides. [5]

Lycogalinoside A contains a 2-deoxy-alpha-L-fucopyranosyl-(1-4)-6-deoxy-beta-D-gulopyranosyl unit.

Lycogalinoside B contains a beta-D-olivopyranosyl-(1-4)-beta-D-fucopyranosyl unit.

Taxonomy

This species is classified in the family Tubiferaceae, [6] although it is accepted in the Reticulariaceae family by the Integrated Taxonomic Information System. [7]

See also

Related Research Articles

<span class="mw-page-title-main">Slime mold</span> Spore-forming organisms

Slime mold or slime mould is an informal name given to a polyphyletic assemblage of unrelated eukaryotic organisms in the Stramenopiles, Rhizaria, Discoba, Amoebozoa and Holomycota clades. Most are microscopic; those in the Myxogastria form larger plasmodial slime molds visible to the naked eye. The slime mold life cycle includes a free-living single-celled stage and the formation of spores. Spores are often produced in macroscopic multicellular or multinucleate fruiting bodies that may be formed through aggregation or fusion; aggregation is driven by chemical signals called acrasins. Slime molds contribute to the decomposition of dead vegetation; some are parasitic.

<i>Physarum polycephalum</i> Species of slime mold, model organism

Physarum polycephalum, an acellular slime mold or myxomycete popularly known as "the blob", is a protist with diverse cellular forms and broad geographic distribution. The “acellular” moniker derives from the plasmodial stage of the life cycle: the plasmodium is a bright yellow macroscopic multinucleate coenocyte shaped in a network of interlaced tubes. This stage of the life cycle, along with its preference for damp shady habitats, likely contributed to the original mischaracterization of the organism as a fungus. P. polycephalum is used as a model organism for research into motility, cellular differentiation, chemotaxis, cellular compatibility, and the cell cycle.

<i>Fuligo septica</i> Species of slime mould

Fuligo septica is a species of slime mold, and a member of the class Myxomycetes. It is commonly known as scrambled egg slime, or flowers of tan because of its peculiar yellowish appearance. It is also known as dog vomit slime mold or Jasmine mold and is relatively common with a worldwide distribution, often being found on bark mulch in urban areas after heavy rain or excessive watering. Their spores are produced on or in aerial sporangia and are spread by wind.

<span class="mw-page-title-main">Protosteliales</span> Group of slime moulds

Protosteliomycetes/Protosteliales (ICBN) or Protostelea/Protostelia/Protosteliida (ICZN) is a grouping of slime molds from the phylum Mycetozoa. The name can vary depending upon the taxon used. Other names include Protostelea, Protostelia, and Protostelida. When not implying a specific level of classification, the term protostelid or protosteloid amoeba is sometimes used.

<span class="mw-page-title-main">Myxogastria</span> Group of slime molds

Myxogastria/Myxogastrea or Myxomycetes (ICN) is a class of slime molds that contains 5 orders, 14 families, 62 genera, and 888 species. They are colloquially known as the plasmodial or acellular slime moulds.

<i>Echinostelium</i> Genus of slime moulds

Echinostelium is a genus of slime mould, and the only genus in the monotypic family Echinosteliaceae, or Echinosteliidae. It was discovered by Heinrich Anton de Bary in 1855, apparently near Frankfurt am Main. Some species of Echinostelium have a sexual life cycle; others have been shown to be asexual. The plasmodium can divide vegetatively, in a process called plasmotomy, to distinguish it from true cell division.

<span class="mw-page-title-main">Trichiales</span> Order of slime moulds

Trichiales is an order of slime moulds in the phylum Amoebozoa. Trichiales is one of five orders in the group Myxomycetes, or the true plasmodial slime molds. It is also currently categorized under the superorder Lucisporidia with its sister group, Liceales. The order was first described by Thomas MacBride in 1922, and has retained the same name and status as a defined order in present phylogeny. In the plasmodium form, members of Trichiales lack a columella but have a well-developed capillitium for spore dispersal. The shape and details of the capillitium are used to define families within the order. Spores are brightly coloured, ranging from clear, white and yellow to pink and red-brown tones. The order currently has 4 families, 14 genera and 174 species. Recent molecular research has shown that while Trichiales probably represents a true taxonomic group, its sister group Liceales is likely paraphyletic, and it has been suggested that several genera from the Liceales should be reclassified under Trichiales instead.

<i>Enteridium lycoperdon</i> Slime mold

Enteridium lycoperdon, the false puffball, is one of the more obvious species of slime mould or Myxogastria, typically seen in its reproductive phase as a white 'swelling' on standing dead trees in the spring, or on large pieces of fallen wood. Alder is a common host.

<i>Phyllotopsis nidulans</i> Species of fungus

Phyllotopsis nidulans, commonly known as the mock oyster or the orange oyster, is a species of fungus in the family Phyllotopsidaceae, and the type species of the genus Phyllotopsis. It is widely dispersed in temperate zones of the Northern Hemisphere, where it grows on decaying wood. The fungus fruit body consists of a fan-shaped, light orange fuzzy cap up to 8 cm (3 in) wide that grows singly or in overlapping clusters. On the cap underside are crowded orange gills. Mock oyster mushrooms have a strong, unpleasant odor, and are regarded as inedible though nonpoisonous.

<i>Brefeldia maxima</i> Species of slime mould

Brefeldia maxima is a species of non-parasitic plasmodial slime mold, and a member of the class Myxomycetes. It is commonly known as the tapioca slime mold because of its peculiar pure white, tapioca pudding-like appearance. A common species with a worldwide distribution, particularly in North America and Europe. It is often found on bark after heavy rain or excessive watering. Their spores are produced on or in aerial sporangia and are spread by wind, however beetles of the family Latridiidae are also reported to disperse the spores. Bonner states that soil invertebrates and rain mainly disperse spores as they are sticky and unlikely to be carried by air currents.

Polysphondylium pallidum is a species of cellular slime mould, a member of the phylum Mycetozoa.

<span class="mw-page-title-main">Hypothallus</span>

In true slime molds (myxogastria), lichens, and in species of the family Clavicipitaceae, the hypothallus is the layer on which the fruit body sits, lying in contact with the substrate. The word is derived from the Ancient Greek root hypó ("under") and thallós.

<i>Trichia decipiens</i> Species of slime mould

Trichia decipiens is a worldwide widespread slime mould species from the order Trichiida.

Prototrichia metallica is a slime mould species from the order Trichiida and the only species from the genus Prototrichia. It is mainly distributed on mountains.

<span class="mw-page-title-main">Plasmodiocarp</span>

A plasmodiocarp is a special form of fruit bodies of slime moulds. It is produced if the plasmodium concentrates during the fructification and pull back into the venetion of the plasmodium, from which the fruit body is created. The fruit body traces the process of the venetion, whereby the structure of its subsurface becomes plainly strand-shaped, branched, net or ring-shaped. The production of plasmodiocarps can be generic, or can be also caused by the deranged development of sporocarps or aethalia.

Physarum aeneum is a slime mould species from the order Physarida. It is one of a few slime moulds mainly common in the tropics and subtropics.

<i>Hemitrichia</i> Genus of slime moulds

Hemitrichia is a genus of slime molds, of the family Trichiidae, found within the order Trichiida. It was first described by Josef Rostafinski in 1873 and remains a well-defined genus of the slime molds. Hemitrichia species exhibit either plasmodiocarp or sporangium fruiting bodies, both of which are well-known and recognizable slime molds seen on multiple continents. The genus includes Hemtrichia serpula, known as the pretzel slime mold, an iconic and widespread species that has been used to examine speciation in slime molds.

Anisotoma blanchardi is a species of round fungus beetle in the family Leiodidae. It is found in North America. It feeds on slime molds such as Lycogala epidendrum and multiple species of Stemonitis.

<i>Elaeomyxa</i> Genus of slime moulds

Elaeomyxa is a genus of slime molds in the family Lamprodermataceae. As of May 2022, there are four known species in the genus. Species in this genus have been documented in North America, Eurasia, Africa, and Australasia.

<i>Trichia crateriformis</i> Species of slime mould

Trichia crateriformis is a slime mold species in the order Trichiida found in temperate areas throughout the world.

References

  1. Lincoff, Gary H. (1981). National Audubon Society Field Guide to North American Mushrooms. New York: Random House. p. 848. ISBN   0-394-51992-2.
  2. Davis, R. Michael; Sommer, Robert; Menge, John A. (2012). Field Guide to Mushrooms of Western North America. Berkeley: University of California Press. p. 411. ISBN   978-0-520-95360-4. OCLC   797915861.
  3. Frode, R.; et al. (1994). "Isolation and synthesis of 3,4-bis(Indol-3-Yl)pyrrole-2,5-dicarboxylic acid-derivatives from the slime-mold Lycogala epidendrum". Tetrahedron Letters. 35: 1689–1690. doi:10.1016/0040-4039(94)88320-3.
  4. Hosoya, T.; et al. (2005). "New cytotoxic bisindole alkaloids with protein tyrosine kinase inhibitory activity from a myxomycete Lycogala epidendrum". Bioorg Med Chem Lett. 15 (11): 2776–2780.
  5. Řezanka, Tomáš; Dvořáková, Radmila (2003). "Polypropionate lactones of deoxysugars glycosides from slime mold Lycogala epidendrum". Phytochemistry. 63 (8): 945–952. doi:10.1016/S0031-9422(03)00214-0. ISSN   0031-9422.
  6. The Global Biodiversity Information Facility: GBIF Backbone Taxonomy, 2013-07-01. Accessed via https://www.gbif.org/species/3213352 on 2013-11-10
  7. Integrated Taxonomic Information System [Internet] 2013. [updated 2013 April; cited 2013 Nov 10] Available from: https://www.itis.gov/servlet/SingleRpt/SingleRpt?search_topic=TSN&search_value=181336

Sources

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