Polytolypa

Last updated

Polytolypa
Scientific classification Red Pencil Icon.png
Kingdom: Fungi
Division: Ascomycota
Class: Eurotiomycetes
Order: Onygenales
Family: Ajellomycetaceae
Genus: Polytolypa
J.A.Scott & Malloch (1993)
Type species
Polytolypa hystricis
J.A.Scott & Malloch (1993)

Polytolypa is a monotypic genus of fungus containing the single species Polytolypa hystricis. First classified in the Onygenaceae family, as of 2008 it is considered to be in the Ajellomycetaceae, although there is still uncertainty as to its phylogenetic relationships with other similar genera. This species is only known from a single specimen derived in the laboratory from a specimen of dung of the North American porcupine, Erethizon dorsatum, collected in Ontario, Canada. [1] Polytolypa hystricis contains bioactive compounds that have antifungal activity.

Contents

Taxonomy, phylogeny, and naming

Polytolypa hystricis was initially grown from the dung of the North American porcupine, Erethizon dorsatum (pictured). Porcupine-BioDome.jpg
Polytolypa hystricis was initially grown from the dung of the North American porcupine, Erethizon dorsatum (pictured).

The genus was first described in 1993 by University of Toronto mycologists J.A. Scott and D.W. Malloch, who grew the fungus in moist chamber cultures of porcupine dung collected in Stoneleigh, Ontario, Canada. The generic name Polytolypa is from the Greek word poly (πολυ) meaning "many", and tolype (τολυπη), meaning "skein of yarn". The specific epithet hystricis comes from the Greek hystrix (υστριξ), or "porcupine". [1]

The genus has been classified in the Onygenaceae, [2] a fungal family characterized by species capable of digesting human hair in vitro, and with spores that are punctate (with minute surface punctures) when viewed with scanning electron microscopy. However, as Scott and colleagues demonstrated using traditional laboratory tests to determine keratinolytic activity, P. hystricus is not able to digest hair. [1] There is still uncertainty as to its phylogenetic relationships with other similar genera. Polytolypa is thought to be evolutionarily most closely related to the genera Malbranchea and Spiromastix . The grouping of Polytolypa and Spiromastix represent a sister clade to the Ajellomyces clade, based on analysis of partial nuclear LSU sequence data. [3] However, the phylogenetics of Polytolypa are still unclear and await further study. [4] The 10th edition of the Dictionary of the Fungi (2008) considers the genus to be in the Ajellomycetaceae family, although uncertainty with this classification is indicated in the entry; [5] in contrast, the online mycological database MycoBank classifies the genus in the Onygenaceae. [6]

Description

The ascus-containing reproductive structures, or ascomata , are minute, spherical bodies, typically 200–400  μm in diameter. They start out white, but gradually become rusty brown in maturity. The ascomata, which may be clustered together in groups or scattered about, grow in a shallow layer of "hairs" (actually fungal mycelia) called a tomentum. The ascomata have "appendages" composed of numerous coiled, sometimes branched helices of hyphae that are coiled 3–15 times. [1]

The ascospores produced by Polytolypa are ellipsoidal, yellow to yellow-orange in color, with dimensions of 2.5–5 by 3–4 μm. Viewed with a light microscope their surfaces appear to be smooth, but under scanning electron microscopy, they are revealed to be densely marked with punctures and small, hard, sharp projections. The structures that produce the ascospores are called asci. In Polytolypa they are numerous, spherical, and measure 9–10 by 12–13 μm. Each ascus contains eight ascospores, which are released when the ascus dissolves away at maturity. The anamorph (asexual form of the fungus) resembles the genus Chrysosporium . [1]

Habitat and distribution

Polytolypa hystricis is known only from the dung of the North American porcupine, Erethizon dorsatum. Porcupine dens accumulate thick layers of nutrient-rich dung, hair and urine that are degraded by a succession of fungi. These fungi are disseminated by arthropods (such as insects) or by the porcupine themselves. [1]

Bioactive compounds

Chemical analysis has shown that Polytolypa hystricis contains a unique triterpenoid chemical named polytolypin, as well two compounds known previously as metabolites from Scleroderris Canker ( Gremmeniella abietina ). Both polytolypin and one of the previously identified compounds have "moderate" antifungal activity against the species Ascobolus furfuraceous , while polytopin alone can inhibit the growth of Candida albicans . [7]

See also

Related Research Articles

<i>Sordaria fimicola</i> Species of fungus

Sordaria fimicola is a species of microscopic fungus. It is commonly found in the feces of herbivores. Sordaria fimicola is often used in introductory biology and mycology labs because it is easy to grow on nutrient agar in dish cultures. The genus Sordaria, closely related to Neurospora and Podospora, is a member of the large class Sordariomycetes, or flask-fungi. The natural habitat of the three species of Sordaria that have been the principal subjects in genetic studies is dung of herbivorous animals. The species S. fimicola is common and worldwide in distribution. The species of Sordaria are similar morphologically, producing black perithecia containing asci with eight dark ascospores in a linear arrangement. These species share a number of characteristics that are advantageous for genetic studies. They all have a short life cycle, usually 7–12 days, and are easily grown in culture. Most species are self-fertile and each strain is isogenic. All kinds of mutants are easily induced and readily obtainable with particular ascospore color mutants. These visual mutants aid in tetrad analysis, especially in analysis of intragenic recombination.

<i>Blastomyces dermatitidis</i> Species of fungus

Blastomyces dermatitidis is a dimorphic fungus that causes blastomycosis, an invasive and often serious fungal infection found occasionally in humans and other animals. It lives in soil and wet, decaying wood, often in an area close to a waterway such as a lake, river or stream. Indoor growth may also occur, for example, in accumulated debris in damp sheds or shacks. The fungus is endemic to parts of eastern North America, particularly boreal northern Ontario, southeastern Manitoba, Quebec south of the St. Lawrence River, parts of the U.S. Appalachian mountains and interconnected eastern mountain chains, the west bank of Lake Michigan, the state of Wisconsin, and the entire Mississippi Valley including the valleys of some major tributaries such as the Ohio River. In addition, it occurs rarely in Africa both north and south of the Sahara Desert, as well as in the Arabian Peninsula and the Indian subcontinent. Though it has never been directly observed growing in nature, it is thought to grow there as a cottony white mold, similar to the growth seen in artificial culture at 25 °C (77 °F). In an infected human or animal, however, it converts in growth form and becomes a large-celled budding yeast. Blastomycosis is generally readily treatable with systemic antifungal drugs once it is correctly diagnosed; however, delayed diagnosis is very common except in highly endemic areas.

Ajellomyces is a genus of fungi in the division Ascomycota, in the family Ajellomycetaceae. The genus contains two species, which have a widespread distribution, especially in tropical areas. The species Ajellomyces capsulatus is significant to human health as the causative agent of histoplasmosis. This species is more usually referred to as Histoplasma capsulatum, with the designation Ajellomyces capsulatus referring to the ascomycetous perfect stage.

<i>Chlamydosauromyces</i> Genus of fungi

Chlamydosauromyces punctatus is the sole species in the monotypic genus of fungi, Chlamydosauromyces in the family, Onygenaceae. It was found in the skin shed from frilled lizard. This fungus is mesophilic and digests hair. It reproduces both sexually and asexually. The fungus has so far not been reported to be pathogenic.

The Ajellomycetaceae are a family of fungi in the Ascomycota, class Eurotiomycetes. The family contains eight genera.

Keissleriella rara is a rare species of fungus in the family Lophiostomataceae. The species fruits exclusively on dead or dying standing culms of the saltmarsh plant Juncus roemerianus. It is known only from the Atlantic Coast of North Carolina.

<i>Paraphaeosphaeria pilleata</i> Species of fungus

Paraphaeosphaeria pilleata is a species of fungus in the Lophiostomataceae family. The species fruits exclusively in the lower parts of the culms of the black needlerush. It is found on the Atlantic Coast of North Carolina.

<i>Aphanoascus fulvescens</i> Species of fungus

Aphanoascus fulvescens is a mould fungus that behaves as a keratinophilic saprotroph and belongs to the Ascomycota. It is readily isolated from soil and dung containing keratin-rich tissues that have been separated from their animal hosts. This organism, distributed worldwide, is most commonly found in areas of temperate climate, in keeping with its optimal growth temperature of 28 °C (82 °F). While A. fulvescens is recognized as a geophilic fungal species, it is also a facultative opportunistic pathogen. Although it is not a dermatophyte, A. fulvescens has occasionally been shown to cause onychomycosis infections in humans. Its recognition in the laboratory is clinically important for correct diagnosis and treatment of human dermal infections.

Amauroascus kuehnii is a fungus in the phylum Ascomycota, class Eurotiomycetes. It is keratinophilic but not known to cause any human disease. It has been isolated from animal dungs, soil, and keratinous surfaces of live or deceased animals.

<i>Keratinophyton durum</i> Species of fungus

Keratinophyton durum is a keratinophilic fungus, that grows on keratin found in decomposing or shed animal hair and bird feathers. Various studies conducted in Canada, Japan, India, Spain, Poland, Ivory Coast and Iraq have isolated this fungus from decomposing animal hair and bird feathers using SDA and hair-bait technique. Presence of fungus in soil sediments and their ability to decompose hairs make them a potential human pathogen.

Collariella bostrychodes is a fungal decomposer of lignin and carbohydrate in the family Chaetomiaceae commonly found in soil and dung. The fungus is distinguished by a darkened collar-like ostiole around the ostiolar pore, giving the fungus its name. The fungus is highly variable in shape and form, giving raise to the belief that there are two subclades in the species. The ascospores range from lemon-shaped to nearly spherical with slightly pointed ends. It can grow to be pale green and later turn pale bluish grey or olivaceous with age. The fungus produces the toxic secondary metabolite, chaetochromin.

Botryotrichum piluliferum is a fungal species first identified in 1885 by Saccardo and Marchal. It was discovered to be the asexual state of a member of the ascomycete genus, Chaetomium. The name B. piluliferum now applies to the fungus in all its states. B. piluliferum has been found worldwide in a wide range of habitats such as animal dung and vegetation. The colonies of this fungus start off white and grow rapidly to a brown colour. The conidia are smooth and white. B. piluliferum grows optimally at a temperature of 25-30 °C and a pH of 5.5.

<i>Myxotrichum chartarum</i> Species of fungus

Myxotrichum chartarum is a psychrophilic and cellulolytic fungus first discovered in Germany by Gustav Kunze in 1823. Its classification has changed many times over its history to better reflect the information available at the time. Currently, M. chartarum is known to be an ascomycete surrounded by a gymnothecium composed of ornate spines and releases asexual ascospores. The presence of cellulolytic processes are common in fungi within the family Myxotrichaceae. M. chartarum is one of many Myxotrichum species known to degrade paper and paper products. Evidence of M. chartarum "red spot" mold formation, especially on old books, can be found globally. As a result, this fungal species and other cellulolytic molds are endangering old works of art and books. Currently, there is no evidence that suggests that species within the family Myxotrichaceae are pathogenic.

Zopfiella ebriosa is an unharmful fungus discovered covering the corks of wine bottles in 1991 in Tarragona, Spain. A member of the division Ascomycota, Zopfiella ebriosa is characterized by small and asymmetrical asci, presence of ostioles, and possession of germ slits.

Podospora appendiculata is a coprophilous fungus that is most commonly found in the dung of lagomorphs, such as hares and rabbits, in temperate to warm climates. A member of the division Ascomycota, P. appendiculata is characterized by ovoid, hair-studded perithecia which can bear a distinctive violaceous colouring and peridia which are coriaceous, or leathery, in texture. Podospora appendiculata has been shown to produce three compounds with antimicrobial properties.

Triangularia setosa is a member of the Ascomycota, and of the genus Triangularia. This genus is notable for its widespread appearance on the excrement of herbivores, and is therefore seen as a coprophilous fungus. The fungus itself is characteristically dark in colour and produces sac-like perithecium with a covering of hair. Its dispersion involves the ingestion, passage, and projectile ejection of spores. It has preference for colonizing the dung of lagomorphs, such as hares and rabbits.

Capronia mansonii is a mesophilic black yeast that is a part of the Herpotrichiellaceae. The species is uncommon in nature but is saprotrophic in nature and been discovered on decaying plant matter, particularly wood. This fungus is naturally found in the Netherlands and has successfully been cultured in lab. It is a teleomorph of the ascomycota division and possesses brown spores.

Ascodesmis nigricans is a coprophilous fungus that could be isolated from the dung of various animals. It was firstly introduced by Philippe Édouard Léon Van Tieghem, a French botanist, and was the type species of the genus Ascodesmis. It is an uncommon species but its development of the fruit body has been the subject of much laboratory study due to the easy nature of its cultivation. Ascodesmis nigricans is not pathogenic to human, animals or plants. This species has world-wide distribution.

Auxarthron californiense is a fungus within the family Onygenaceae family and one of the type species of the genus Auxarthron. A. californiense is generally distributed around the world and it is frequently found on dung and in soil near the entrances of animal burrows.

Cercophora areolata is a member of the Ascomycota division, and is grouped into the Lasiosphaeriaceae family based on morphology. C. areolata is a coprophilous fungus that has been most recently isolated from porcupine dung. Defining features of C. areolata include: 1) ovoid-conical, glabrous ascomata, 2) black, carbonaceous, areolate peridium and 3) clavate-shaped, single-walled asci. From studies on C. areolata, this fungus produces multiple antifungal compounds, which inhibit other competitor fungi.

References

  1. 1 2 3 4 5 6 Scott JA, Malloch DW, Gloer JB (1993). "Polytolypa, an undescribed genus in the Onygenales". Mycologia. 85 (3): 503–8. doi:10.2307/3760710. JSTOR   3760710.
  2. Lumbsch TH, Huhndorf SM (December 2007). "Outline of Ascomycota – 2007". Myconet. Chicago, USA: The Field Museum, Department of Botany. 13: 1–58. Archived from the original on March 18, 2009. Retrieved 2010-10-08.
  3. Untereiner WA, Scott JA, Naveau FA, Currah RS, Bachewich J (2002). "Phylogeny of Ajellomyces, Polytolypa and Spiromastix (Onygenaceae) inferred from rDNA sequence and non-molecular data" (PDF). Studies in Mycology. 47: 25–35.
  4. Untereiner WA, Scott JA, Naveau FA, Sigler L, Bachewich J, Angus A (2004). "The Ajellomycetaceae, a new family of vertebrate-associated Onygenales". Mycologia. 96 (4): 812–21. doi:10.2307/3762114. JSTOR   3762114. PMID   21148901.
  5. Kirk PM, Cannon PF, Minter DW, Stalpers JA (2008). Dictionary of the Fungi (10th ed.). Wallingford, UK: CABI. p.  556. ISBN   978-0-85199-826-8.
  6. "Polytolypa J.A. Scott & Malloch 1993". MycoBank. International Mycological Association. Retrieved 2010-10-06.
  7. Gamble WR, Gloer JB, Scott JA, Malloch D (1995). "Polytopin, a new antifungal triterpenoid from the coprophilous fungus Polytolypa hystricus". Journal of Natural Products. 58 (12): 1984–6. doi:10.1021/np50126a034. PMID   8691217.