Most slime molds are terrestrial and free-living, typically in damp shady habitats such as in or on the surface of rotting wood. Some myxogastrians and protostelians are aquatic or semi-aquatic. The phytomyxea are parasitic, living inside their plant hosts. Geographically, slime molds are cosmopolitan in distribution. A small number of species occur in regions as dry as the Atacama Desert and as cold as the Arctic; they are abundant in the tropics, especially in rainforests.
Slime molds have a variety of behaviors otherwise seen in animals with brains. Species such as Physarum polycephalum have been used to simulate traffic networks. Some species have traditionally been eaten in countries such as Ecuador.
Evolution
Taxonomic history
Lycogala epidendrum was the first slime mold to be discussed scientifically, by Thomas Panckow in 1654.[1]
The first account of slime molds was Thomas Panckow [de]'s 1654 discussion of Lycogala epidendrum. He called it Fungus cito crescentes, "a fast-growing fungus".[2][1]
In 1932 and 1960, the American mycologist George Willard Martin argued that the slime molds evolved from fungi.[7][8] In 1956, the American biologist Herbert Copeland placed the Mycetozoa (the myxomycetes and plasmodiophorids) and the Sarkodina (the labyrinthulids and the cellular slime molds) in a phylum called Protoplasta, which he placed alongside the fungi and the algae in a new kingdom, Protoctista.[4][9]
In 1969, the taxonomist R. H. Whittaker observed that slime molds were highly conspicuous and distinct within the Fungi, the group to which they were then classified. He concurred with Lindsay S. Olive's proposal to reclassify the Gymnomycota, which includes slime molds, as part of the Protista.[10] Whittaker placed three phyla, namely the Myxomycota, Acrasiomycota, and Labyrinthulomycota in a subkingdom Gymnomycota within the Fungi.[4] The same year, Martin and Alexopoulos published their influential textbook The Myxomycetes.[6]
In 1975, Olive distinguished the dictyostelids and the acrasids as separate groups.[4] In 1992, David J. Patterson and M. L. Sogin proposed that the dictyostelids diverged before plants, animals, and fungi.[11]
Phylogeny
Slime molds have little or no fossil history, as might be expected given that they are small and soft-bodied.[12] The grouping is polyphyletic, consisting of multiple clades (emphasised in the phylogenetic tree) widely scattered across the Eukaryotes. Paraphyletic groups are shown in quotation marks:[13][14]
Various estimates of the number of species of slime molds agree that there are around 1000 species, most being Myxogastria. Collection of environmental DNA gives a higher estimate, from 1200 to 1500 species.[6] These are diverse both taxonomically and in appearance, the largest and most familiar species being among the Myxogastria. The growth forms most commonly noticed are the sporangia, the spore-forming bodies, which are often roughly spherical; these may be directly on the surface, such as on rotting wood, or may be on a thin stalk which elevates the spores for release above the surface. Other species have the spores in a large mass, which may be visited by insects for food; they disperse spores when they leave.[15]
The Myxogastria or plasmodial slime molds are the only macroscopic scale slime molds; they gave the group its informal name, since for part of their life cycle they are slimy to the touch.[16] A myxogastrian consists of a large cell with thousands of nuclei within a single membrane without walls, forming a syncytium.[17] Most are smaller than a few centimeters, but some species may reach sizes up to several square meters, and in the case of Brefeldia maxima, a mass of up to 20 kilograms (44 lb).[18][19][20]
Stemonitis shows stalked sporangia for airborne spore dispersal.
The Dictyosteliida or cellular slime molds do not form huge coenocytes like the Myxogastria; their amoebae remain individual for most of their lives as individual unicellular protists, feeding on microorganisms. When food is depleted and they are ready to form sporangia, they form swarms. The amoebae join up into a tiny multicellular slug which crawls to an open lit place and grows into a fruiting body, a sorocarp. Some of the amoebae become spores to begin the next generation, but others sacrifice themselves to become a dead stalk, lifting the spores up into the air.[23][24]
Dictyostelium discoideum is a microscopic organism. The cells can aggregate to form a grex or slug, and then to a sorocarp or fruiting body (shown) on a delicate stalk.
The Protosteliida, a polyphyletic group, have characters intermediate between the previous two groups, but they are much smaller, the fruiting bodies only forming one to a few spores.[25]
Ceratiomyxa is microscopic; each stalk is topped by only one or a very few spores.
Among the non-amoebozoan slime molds are the Acrasids, which have sluglike amoebae. In locomotion, the amoebae's pseudopodia are eruptive, meaning that hemispherical bulges appear at the front.[28] The Phytomyxea are obligate parasites, with hosts among the plants, diatoms, oomycetes, and brown algae. They cause plant diseases like cabbage club root and powdery scab.[29] The Labyrinthulomycetes are marine slime nets, forming labyrinthine networks of tubes in which amoeba without pseudopods can travel.[30] The Fonticulida are cellular slime molds that form a fruiting body in a "volcano" shape.[31]
Slime mold beetles such as Sphindus dubius feed exclusively on slime molds.
Slime molds, with their small size and moist surface, live mostly in damp habitats including shaded forests, rotting wood, fallen or living leaves, and on bryophytes.[32][18] Most Myxogastria are terrestrial,[18] though some, like Didymium aquatilis are aquatic,[33][34] and D. nigripes is semi-aquatic.[34] Myxogastria are not limited to wet regions; 34 species are known from Saudi Arabia, living on bark, in plant litter, and rotting wood, even in deserts.[35] They occur, too, in Arizona's Sonoran Desert (46 species), and in Chile's exceptionally dry Atacama Desert (24 species). In contrast, the semi-dry Tehuacán-Cuicatlán Biosphere Reserve has 105 species, and Russia and Kazakhstan's Volga river basin has 158 species.[35] In tropical rainforests of Latin America, species such as of Arcyria and Didymium are commonly epiphyllous, growing on the leaves of liverworts.[36]
The dictyostelids are mostly terrestrial.[37] On Changbai Mountain in China, six species of dictyostelids were found in forest soils at elevations up to 2,038 m (6,686 ft), the highest recorded species there being Dictyostelium mucoroides.[38]
The protostelids live mainly on dead plant matter, where they consume the spores of bacteria, yeasts, and fungi.[37] They include some aquatic species, which live on dead plant parts submerged in ponds.[33] Cellular slime molds are most numerous in the tropics, decreasing with latitude, but are cosmopolitan in distribution, occurring in soil even in the Arctic and the Antarctic.[39] In the Alaskan tundra, the only slime molds are the dictyostelids D. mucoroides and D. sphaerocephalum.[36]
Some myxogastrians have their spores dispersed by animals. The slime mold fly Epicypta testata lay its eggs within the spore mass of Enteridium lycoperdon, which the larvae feed on. These pupate, and the hatching adults carry and disperse spores that have stuck to them.[21] While various insects consume slime molds, Sphindidae slime mold beetles, both larvae and adults, exclusively feed on them.[40]
Life cycle
Plasmodial slime molds
Long strands of Physarum polycephalum streaming along as it forms a plasmodium with many nuclei without individual cell membranes
Plasmodial slime molds begin life as amoeba-like cells. These unicellular amoebae are commonly haploid and feed on small prey such as bacteria, yeast cells, and fungal spores by phagocytosis, engulfing them with its cell membrane. These amoebae can mate if they encounter the correct mating type and form zygotes that then grow into plasmodia. These contain many nuclei without cell membranes between them, and can grow to meters in size. The species Fuligo septica is often seen as a slimy yellow network in and on rotting logs. The amoebae and the plasmodia engulf microorganisms.[41] The plasmodium grows into an interconnected network of protoplasmic strands.[42] Within each protoplasmic strand, the cytoplasmic contents rapidly stream, periodically reversing direction. The streaming protoplasm within a plasmodial strand can reach speeds of up to 1.35 mm per second in Physarum polycephalum, the fastest for any microorganism.[43]
Life cycle of a plasmodial slime mold. Haploid gametes undergo sexual fusion to form a diploid cell. Its nucleus divides (but the cell does not) to form a multinucleate plasmodium. Meiosis halves the number of chromosomes to form haploid cells with just one nucleus.[44]
Slime molds are isogamous, which means that their gametes (reproductive cells) are all the same size, unlike the eggs and sperms of animals.[45]Physarum polycephalum has three genes involved in reproduction: matA and matB, with thirteen variants each, and matC with three variants. Each reproductively mature slime mold is diploid, meaning that it contains two copies of each of the three reproductive genes.[46] When P. polycephalum is ready to make its reproductive cells, it grows a bulbous extension of its body to contain them.[47] Each cell has a random combination of the genes that the slime mold contains within its genome. Therefore, it can create cells of up to eight different gene types. Released cells then independently seek another compatible cell for fusion. Other individuals of P. polycephalum may contain different combinations of the matA, matB, and matC genes, allowing over 500 possible variations. It is advantageous for organisms with this type of reproductive cell to have many mating types because the likelihood of the cells finding a partner is greatly increased, and the risk of inbreeding is drastically reduced.[46]
The cellular slime molds are a group of approximately 150 described species. They occur primarily in the humus layer of forest soils[48] and feed on bacteria but also are found in animal dung and agricultural fields. They exist as single-celled organisms while food is plentiful. When food is in short supply, many of the single-celled amoebae congregate and start moving as a single body, called a 'slug'. The ability of the single celled organisms to aggregate into multicellular forms are why they are also called the social amoebae. In this state they are sensitive to airborne chemicals and can detect food sources. They readily change the shape and function of parts, and may form stalks that produce fruiting bodies, releasing countless spores, light enough to be carried on the wind or on passing animals.[23] The cellular slime mold Dictyostelium discoideum has many different mating types. When this organism has entered the stage of reproduction, it releases a chemical attractant.[49] When it comes time for the cells to fuse, Dictyostelium discoideum has mating types of its own that dictate which cells are compatible with each other. There are at least eleven mating types; macrocysts form after cell contact between compatible mating types.[50]
Chemical signals
The first acrasin to be discovered was cyclic AMP, a small molecule common in cells. Acrasins are signals that cause cellular slime mold amoebae to aggregate.[51]
The chemicals that aggregate cellular slime molds are small molecules called acrasins; motion towards a chemical signal is called chemotaxis. The first acrasin to be discovered was cyclic adenosine monophosphate (cyclic AMP), a common cell signaling molecule, in Dictyostelium discoideum. During the aggregation phase of their life cycle, Dictyostelium discoideum amoebae communicate with each other using traveling waves of cyclic AMP.[51][52][53] There is an amplification of cyclic AMP when they aggregate.[54] Pre-stalk cells move toward cyclic AMP, but pre-spore cells ignore the signal.[55] Other acrasins exist; the acrasin for Polysphondylium violaceum, purified in 1983, is the dipeptide glorin.[56]Calcium ions too serve to attract slime mold amoebae, at least at short distances. It has been suggested that acrasins may be taxon-specific, since specificity is required to form an aggregation of genetically similar cells. Many dictyostelid species indeed do not respond to cyclic AMP, but as of 2023 their acrasins remained unknown.[57]
Study
Use in research and teaching
The practical study of slime molds was facilitated by the introduction of the "moist culture chamber" by H. C. Gilbert and G. W. Martin in 1933.[58] Slime molds can be used to teach convergent evolution, as the habit of forming a stalk with a sporangium that can release spores into the air, off the ground, has evolved repeatedly, such as in myxogastria (eukaryotes) and in myxobacteria (prokaryotes).[59] Further, both the (macroscopic) dictyostelids and the (microscopic) protostelids have a phase with motile amoebae and a phase with a stalk; in the protostelids, the stalk is tiny, supporting just one spore, but the logic of airborne spore dispersal is the same.[59]
O. R. Collins showed that the slime mold Didymium iridis had two strains (+ and −) of cells, equivalent to gametes, that these could form immortal cell lines in culture, and that the system was controlled by alleles of a single gene. This made the species a model organism for exploring incompatibility, asexual reproduction, and mating types.[59]
Biochemicals
Slime molds have been studied for their production of unusual organic compounds, including pigments, antibiotics, and anti-cancer drugs.[59] Pigments include naphthoquinones, physarochrome A, and compounds of tetramic acid. Bisindolylmaleimides produced by Arcyria denudata include some phosphorescent compounds.[60] The sporophores (fruiting bodies) of Arcyria denudata are colored red by arcyriaflavins A–C, which contain an unusual indolo[2,3-a]carbazolealkaloid ring.[61] By 2022, more than 100 pigments had been isolated from slime molds, mostly from sporophores. It has been suggested that the many yellow-to-red pigments might be useful in cosmetics.[15] Some 42% of patients with seasonal allergic rhinitis reacted to myxogastrian spores, so the spores may contribute significantly as airborne allergens.[62]
Computation
Slime molds share some similarities with neural systems in animals.[63] The membranes of both slime molds and neural cells contain receptor sites, which alter electrical properties of the membrane when it is bound.[64] Therefore, some studies on the early evolution of animal neural systems are inspired by slime molds.[65][66][67] When a slime mold mass or mound is physically separated, the cells find their way back to re-unite. Studies on Physarum polycephalum have even shown the organism to have an ability to learn and predict periodic unfavorable conditions in laboratory experiments.[68]John Tyler Bonner, a professor of ecology known for his studies of slime molds, argues that they are "no more than a bag of amoebae encased in a thin slime sheath, yet they manage to have various behaviors that are equal to those of animals who possess muscles and nerves with ganglia – that is, simple brains."[69]
Toshiyuki Nakagaki and colleagues studies slime molds and their abilities to solve mazes by placing nodes at two point separated by a maze of plastic film. The mold explored all possible paths and solves it for the shortest path.[71]
Traffic system inspirations
Physarum polycephalum network grown in a period of 26 hours (6 stages shown) to simulate greater Tokyo's rail network[72]
Atsushi Tero and colleagues grew Physarum in a flat wet dish, placing the mold in a central position representing Tokyo, and oat flakes surrounding it corresponding to the locations of other major cities in the Greater Tokyo Area. As Physarum avoids bright light, light was used to simulate mountains, water and other obstacles in the dish. The mold first densely filled the space with plasmodia, and then thinned the network to focus on efficiently connected branches. The network closely resembled Tokyo's rail system.[72][73]P. polycephalum was used in experimental laboratory approximations of motorway networks of 14 geographical areas: Australia, Africa, Belgium, Brazil, Canada, China, Germany, Iberia, Italy, Malaysia, Mexico, the Netherlands, UK and US.[74][75][76] The filamentary structure of P. polycephalum forming a network to food sources is similar to the large scale galaxy filament structure of the universe. This observation has led astronomers to use simulations based on the behaviour of slime molds to inform their search for dark matter.[77][78]
Use as food
In central Mexico, the false puffballEnteridium lycoperdon was traditionally used as food; it was one of the species which mushroom-collectors or hongueros gathered on trips into the forest in the rainy season. One of its local names is "cheese mushroom", so called for its texture and flavor when cooked. It was salted, wrapped in a maize leaf, and baked in the ashes of a campfire; or boiled and eaten with maize tortillas. Fuligo septica was similarly collected in Mexico, cooked with onions and peppers and eaten in a tortilla. In Ecuador, Lycogala epidendrum was called "yakich" and eaten raw as an appetizer.[79]
In popular culture
Oscar Requejo and N. Floro Andres-Rodriguez suggest that Fuligo septica may have inspired Irvin Yeaworth's 1958 film The Blob, in which a giant amoeba from space sets about engulfing people in a small American town.[79]
See also
Swarming motility – rapid and coordinated translocation of a bacterial population across solid or semi-solid surfacesPages displaying wikidata descriptions as a fallback
Water mold – Fungus-like eukaryotic microorganismPages displaying short descriptions of redirect targets
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The Uzbek police emblem. Law enforcement in Uzbekistan is the responsibility of the Ministry of Internal Affairs (MIA) and the National Security Service (NSS). The MIA commands the national police force, and led the border service until 2005, when it, along with the customs service, was placed under command of the NSS.[1] References ^ Ўзбекистон Республикаси Ички Ишлар Вазирлиги. mvd.uz. Retrieved Jul 18, 2019. vteLaw enforcement in AsiaSovereign s…
American convicted murderer For the British theologian, see Mark Chapman (theologian). Mark David ChapmanMug shot of Chapman following his arrestBorn (1955-05-10) May 10, 1955 (age 68)Fort Worth, Texas, U.S.Known forMurder of John LennonCriminal statusIncarcerated at Green Haven Correctional FacilitySpouse Gloria Abe (m. 1979)[3][4]MotivePersonal resentment against John Lennon and a desire to emulate Holden Caulfield[1][2]C…
Library in Oxford, England Weston LibraryView of the library building.LocationBroad Street, Oxford, United KingdomTypeAcademic libraryEstablished2015 (2015)CollectionItems collectedBooks, journals, newspapers, magazines, sound and music recordings, maps, prints, drawings and manuscriptsAccess and useAccess requirementsBy reader card for the library itself. The Blackwell Hall, two exhibition rooms, a gift shop, and cafe are open to the public.MembersStudents and fellows of University of Oxfo…
Diplomatic mission from Mexico to the United States Embassy of Mexico in the United StatesEmbajada de Mexico en los Estados UnidosIncumbentEsteban Moctezuma Barragánsince 16 January 2021StyleExcellencyTypeDiplomatic missionStatusActiveReports toSecretariat of Foreign AffairsSeatChancery building 1911 Pennsylvania Avenue N.W. Washington, D.C.AppointerPresident of Mexicowith Senate advice and consentTerm lengthNo set term lengthFormation1822First holderJosé Manuel Zozaya BermúdezWebsitewww…
2020 American filmEnemies of the StateTheatrical release posterDirected bySonia KennebeckProduced by Ines Hoffman Kanna Sonia Kennebeck CinematographyTorsten LappEdited byMaxine GoedickeMusic byInsa RudolphProductioncompanies Codebreaker Films Reva & David Logan Foundation International Documentary Association Chicken & Egg Pictures JustFilms/Ford Foundation Distributed byIFC FilmsRelease dates September 11, 2020 (2020-09-11) (TIFF) July 30, 2021 (2021-0…
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