Neolecta

Neolecta
	Neolecta irregularis
Scientific classification
Domain:	Eukaryota
Kingdom:	Fungi
Division:	Ascomycota
Subdivision:	Taphrinomycotina
Class:	Neolectomycetes ; O.E. Erikss. & Winka 1997
Order:	Neolectales ; Landvik, O.E. Erikss, Gargas & P. Gustaffs. 1993
Family:	Neolectaceae ; Redhead 1977
Genus:	Neolecta ; Speg. 1881
Species
	Neolecta flavovirescens ; Neolecta irregularis (Irregular Earth Tongue); Neolecta vitellina (=N. aurantiaca) (Egg-yellow Earth Tongue);

Last updated February 09, 2024

Neolecta is a genus of ascomycetous fungi. The species share the English designation "Earth tongues" along with some better-known fungi (e.g. Geoglossum , Microglossum ) with a similar general form, but in fact they are only distantly related.

Description

Fruiting bodies take the shape of unbranched to lobed bright yellowish, orangish to pale yellow-green colored, club-shaped, smooth, fleshy columns up to about 7 centimetres (3 inches) tall.^[3]^[5]

Neolecta fruitbodies consist of hyphae and a hymenium. The hymenium lacks paraphyses and the asci lack croziers, which makes the genus distinctive among other earth-tongues.^[3]^[5]Neolecta vitellina forms masses of conidia by budding, hinting at the possibility that it also produces a yeast state.^[3]

Similar species

Species of the genus may resemble those of Clavulinopsis and Spathularia .^[6]

Taxonomy

Neolecta does not have any close relatives. Phylogenetically, it clusters weakly with a bizarre group of basal Ascomycota^[4]^[7] including: Taphrina , a dimorphic, half yeast, half filamentous genus parasitic on leaves, branches, and catkins; Schizosaccharomyces , a genus of fission yeasts (e.g. Schizosaccharomyces pombe ); and Pneumocystis , a yeast-like genus of mammalian parasites. To date, the genus has been unculturable, suggesting it is either obligately parasitic or symbiotic. It provides important evidence for the evolutionary history of the Ascomycota and has been called a living fossil.^[8]

Distribution and habitat

Neolecta is found in Asia, North America, Northern Europe and southern Brazil.^[5] The species all live in association with trees, and at least one, N. vitellina, grows from rootlets of its host,^[9] but it is not known whether the fungus is parasitic, saprotrophic, or mutualistic.^[5] It is said to be edible.^[3]

Neolecta irregularis genome

The Neolecta irregularis genome has been sequenced.^[10] Sequence analysis has revealed that rudimentary multicellularity is deeply rooted in the Ascomycota.

Related Research Articles

Ascomycota is a phylum of the kingdom Fungi that, together with the Basidiomycota, forms the subkingdom Dikarya. Its members are commonly known as the sac fungi or ascomycetes. It is the largest phylum of Fungi, with over 64,000 species. The defining feature of this fungal group is the "ascus", a microscopic sexual structure in which nonmotile spores, called ascospores, are formed. However, some species of Ascomycota are asexual and thus do not form asci or ascospores. Familiar examples of sac fungi include morels, truffles, brewers' and bakers' yeast, dead man's fingers, and cup fungi. The fungal symbionts in the majority of lichens such as Cladonia belong to the Ascomycota.

Eurotiomycetes is a large class of ascomycetes with cleistothecial ascocarps within the subphylum Pezizomycotina, currently containing around 3810 species according to the Catalogue of Life. It is the third largest lichenized class, with more than 1200 lichen species that are mostly bitunicate in the formation of asci. It contains most of the fungi previously known morphologically as "Plectomycetes".

Sordariomycetes is a class of fungi in the subdivision Pezizomycotina (Ascomycota). It is the second-largest class of Ascomycota, with a worldwide distribution that mostly accommodates terrestrial based taxa, although several can also be found in aquatic habitats. Some are phytopathogens that can cause leaf, stem, and root diseases in a wide variety of hosts, while other genera can cause diseases in arthropods and mammals.

Saccharomycetes belongs to the Ascomycota division of the kingdom Fungi. It is the only class in the subdivision Saccharomycotina, the budding yeasts. Saccharomycetes contains a single order, Saccharomycetales.

The Taphrinomycotina are one of three subdivisions constituting the Ascomycota and is more or less synonymous with the slightly older invalid name Archiascomycetes. Recent molecular studies suggest that the group is monophyletic and basal to the rest of the Ascomycota.

Dothideomycetes is the largest and most diverse class of ascomycete fungi. It comprises 11 orders 90 families, 1,300 genera and over 19,000 known species. Wijayawardene et al. in 2020 added more orders to the class.

Schizosaccharomycetes is a class in the kingdom of fungi. It contains the order Schizosaccharomycetales, the fission yeasts. The genus Schizosaccharomyces is a broad and ancient clade within Ascomycota including five known fission yeast: Schizosaccharomyces pombe, Schizosaccharomyces japonicius, Schizosaccharomyces octosporus, and Schizosaccharomyces cryophilus, and Schizosaccharomyces osmophilus.

The Ustilaginomycotina is a subdivision within the division Basidiomycota of the kingdom Fungi. It consists of the classes Ustilaginomycetes and Exobasidiomycetes, and in 2014 the subdivision was reclassified and the two additional classes Malasseziomycetes and Monilielliomycetes added. The name was first published by Doweld in 2001; Bauer and colleagues later published it in 2006 as an isonym. Ustilagomycotina and Agaricomycotina are considered to be sister groups, and they are in turn sister groups to the subdivision Pucciniomycotina.

Taphrina is a fungal genus within the Ascomycota that causes leaf and catkin curl diseases and witch's brooms of certain flowering plants. One of the more commonly observed species causes peach leaf curl. Taphrina typically grow as yeasts during one phase of their life cycles, then infect plant tissues in which typical hyphae are formed, and ultimately they form a naked layer of asci on the deformed, often brightly pigmented surfaces of their hosts. No discrete fruit body is formed outside of the gall-like or blister-like tissues of the hosts. The asci form a layer lacking paraphyses, and they lack croziers. The ascospores frequently bud into multiple yeast cells within the asci. Phylogenetically, Taphrina is a member of a basal group within the Ascomycota, and type genus for the subphylum Taphrinomycotina, the class Taphrinomycetes, and order Taphrinales.

Pucciniomycotina is a subdivision of fungus within the division Basidiomycota. The subdivision contains 10 classes, 21 orders, and 38 families. Over 8400 species of Pucciniomycotina have been described - more than 8% of all described fungi. The subdivision is considered a sister group to Ustilaginomycotina and Agaricomycotina, which may share the basal lineage of Basidiomycota, although this is uncertain due to low support for placement between the three groups. The group was known as Urediniomycetes until 2006, when it was elevated from a class to a subdivision and named after the largest order in the group, Pucciniales.

Hypocreomycetidae is a subclass of sac fungi.

The Hysteriaceae are a taxonomic family of fungi and the only extant family of the order Hysteriales. Members of the Hysteriaceae are defined by the possession of a sexual structure called the hysterothecium, an elongated structure that opens by a longitudinal slit and releases sexually produced spores. The family is widely distributed, with many species found in temperate regions, and most are saprobic on wood and bark, although a few are parasitic on plants.

A fungus is any member of the group of eukaryotic organisms that includes microorganisms such as yeasts and molds, as well as the more familiar mushrooms. These organisms are classified as one of the traditional eukaryotic kingdoms, along with Animalia, Plantae and either Protista or Protozoa and Chromista.

The Pyronemataceae are a family of fungi in the order Pezizales. It is the largest family of the Pezizales, encompassing 75 genera and approximately 500 species. Phylogenetic analyses does not support the prior classifications of this family, and suggest that the family is not monophyletic as it is currently circumscribed.

<span class="mw-page-title-main">Arthoniales</span> Order of fungi

The Arthoniales is the second largest order of mainly crustose lichens, but fruticose lichens are present as well. The order contains around 1500 species, while the largest order with lichenized fungi, the Lecanorales, contains more than 14000 species.

Geoglossaceae is a family of fungi in the order Geoglossales, class Geoglossomycetes. These fungi are broadly known as earth tongues. The ascocarps of most species in the family Geoglossaceae are terrestrial and are generally small, dark in color, and club-shaped with a height of 2–8 cm. The ascospores are typically light-brown to dark-brown and are often multiseptate. Other species of fungi have been known to parasitize ascocarps. The use of a compound microscope is needed for accurate identification.

The Orbiliaceae are a family of saprobic sac fungi in the order Orbiliales. The family, first described by John Axel Nannfeldt in 1932, contains 288 species in 12 genera. Members of this family have a widespread distribution, but are more prevalent in temperate regions. Some species in the Orbiliaceae are carnivorous fungi, and have evolved a number of specialized mechanisms to trap nematodes.

Tremella is a genus of fungi in the family Tremellaceae. All Tremella species are parasites of other fungi and most produce anamorphic yeast states. Basidiocarps, when produced, are gelatinous and are colloquially classed among the "jelly fungi". Over 100 species of Tremella are currently recognized worldwide. One species, Tremella fuciformis, is commercially cultivated for food.

Conioscyphales is an order of freshwater and terrestrial fungi within the division Ascomycota. It is in the subclass Savoryellomycetidae and the class Sordariomycetes and the subdivision of Pezizomycotina.

Savoryellaceae is a family of aquatic based fungi. It is the only family in the monotypic order Savoryellales within the class Sordariomycetes, division Ascomycota.

References

↑ Eriksson OE, Winka K (1997). "Supraordinal taxa of Ascomycota". Myconet . 1: 1–16.
↑ Landvik S.; et al. (1993). "Relationships of the genus Neolecta (Neolectales ordo nov., Ascomycotina) inferred from 18S rDNA sequences" (PDF). Systema Ascomycetum. 11: 114.
1 2 3 4 5 Redhead SA (1977). "The genus Neolecta (Neolectaceae fam. nov., Lecanorales, Ascomycetes) in Canada". Canadian Journal of Botany. 55 (3): 301–6. doi:10.1139/b77-041.
1 2 Lutzoni F, Kauff F, Cox CJ, McLaughlin D, Celio G, Dentinger B, Padamsee M, Hibbett D, James TY, Baloch E, Grube M, Reeb V, Hofstetter V, Schoch C, Arnold AE, Miadlikowska J, Spatafora J, Johnson D, Hambleton S, Crockett M, Shoemaker R, Sung GH, Lücking R, Lumbsch T, O'Donnell K, Binder M, Diederich P, Ertz D, Gueidan C, Hansen K, Harris RC, Hosaka K, Lim YW, Matheny B, Nishida H, Pfister D, Rogers J, Rossman A, Schmitt I, Sipman H, Stone J, Sugiyama J, Yahr R, Vilgalys R (2004). "Assembling the fungal tree of life: progress, classification, and evolution of subcellular traits". American Journal of Botany. 91 (10): 1446–80. doi:10.3732/ajb.91.10.1446. PMID 21652303.
1 2 3 4 Landvik S, Schumacher TK, Eriksson OE, Moss ST (2003). "Morphology and ultrastructure of Neolecta species". Mycological Research. 107 (9): 1021–31. doi:10.1017/S0953756203008219. PMID 14563128.
↑ Audubon (2023). Mushrooms of North America. New York: Knopf. p. 22. ISBN 9780593319987.{{cite book}}: CS1 maint: date and year (link)
↑ Landvik S. (1996). "Neolecta, a fruit-body-producing genus of the basal ascomycetes, as shown by SSU and LSU rDNA sequences". Mycological Research. 100 (2): 199–202. doi:10.1016/S0953-7562(96)80122-5.
↑ Landvik S, Eriksson E, Berbee ML (2001). "Neolecta—a fungal dinosaur? Evidence from β-tubulin amino acid sequences". Mycologia. Mycological Society of America. 93 (6): 1151–63. doi:10.2307/3761675. JSTOR 3761675.
↑ Redhead SA (1979). "Mycological observations: 1, on Cristulariella; 2, on Valdensinia; 3, on Neolecta". Mycologia. Mycological Society of America. 71 (6): 1248–53. doi:10.2307/3759112. JSTOR 3759112.
↑ Nguyen, T.A.; Cisse, O.H.; Yun Wong, J.; Zheng, P.; Hewitt, D.; Nowrousian, M.; Stajich, J.E.; Jedd, G. (2017). "Innovation and constraint leading to complex multicellularity in the Ascomycota". Nat Commun. 8: 14444. Bibcode:2017NatCo...814444N. doi:10.1038/ncomms14444. PMC 5309816 . PMID 28176784.

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[1] Eriksson OE, Winka K (1997). "Supraordinal taxa of Ascomycota". Myconet . 1: 1–16.

[2] Landvik S.; et al. (1993). "Relationships of the genus Neolecta (Neolectales ordo nov., Ascomycotina) inferred from 18S rDNA sequences" (PDF). Systema Ascomycetum. 11: 114.

[Redhead_1977-3] 1 2 3 4 5 Redhead SA (1977). "The genus Neolecta (Neolectaceae fam. nov., Lecanorales, Ascomycetes) in Canada". Canadian Journal of Botany. 55 (3): 301–6. doi:10.1139/b77-041.

[Lutzoni_2004-4] 1 2 Lutzoni F, Kauff F, Cox CJ, McLaughlin D, Celio G, Dentinger B, Padamsee M, Hibbett D, James TY, Baloch E, Grube M, Reeb V, Hofstetter V, Schoch C, Arnold AE, Miadlikowska J, Spatafora J, Johnson D, Hambleton S, Crockett M, Shoemaker R, Sung GH, Lücking R, Lumbsch T, O'Donnell K, Binder M, Diederich P, Ertz D, Gueidan C, Hansen K, Harris RC, Hosaka K, Lim YW, Matheny B, Nishida H, Pfister D, Rogers J, Rossman A, Schmitt I, Sipman H, Stone J, Sugiyama J, Yahr R, Vilgalys R (2004). "Assembling the fungal tree of life: progress, classification, and evolution of subcellular traits". American Journal of Botany. 91 (10): 1446–80. doi:10.3732/ajb.91.10.1446. PMID 21652303.

[Landvik_2003-5] 1 2 3 4 Landvik S, Schumacher TK, Eriksson OE, Moss ST (2003). "Morphology and ultrastructure of Neolecta species". Mycological Research. 107 (9): 1021–31. doi:10.1017/S0953756203008219. PMID 14563128.

[6] Audubon (2023). Mushrooms of North America. New York: Knopf. p. 22. ISBN 9780593319987.{{cite book}}: CS1 maint: date and year (link)

[Landvik_1996-7] Landvik S. (1996). "Neolecta, a fruit-body-producing genus of the basal ascomycetes, as shown by SSU and LSU rDNA sequences". Mycological Research. 100 (2): 199–202. doi:10.1016/S0953-7562(96)80122-5.

[Landvik_2001-8] Landvik S, Eriksson E, Berbee ML (2001). "Neolecta—a fungal dinosaur? Evidence from β-tubulin amino acid sequences". Mycologia. Mycological Society of America. 93 (6): 1151–63. doi:10.2307/3761675. JSTOR 3761675.

[Redhead_1979-9] Redhead SA (1979). "Mycological observations: 1, on Cristulariella; 2, on Valdensinia; 3, on Neolecta". Mycologia. Mycological Society of America. 71 (6): 1248–53. doi:10.2307/3759112. JSTOR 3759112.

[10] Nguyen, T.A.; Cisse, O.H.; Yun Wong, J.; Zheng, P.; Hewitt, D.; Nowrousian, M.; Stajich, J.E.; Jedd, G. (2017). "Innovation and constraint leading to complex multicellularity in the Ascomycota". Nat Commun. 8: 14444. Bibcode:2017NatCo...814444N. doi:10.1038/ncomms14444. PMC 5309816 . PMID 28176784.

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Neolecta

Neolecta irregularis
Scientific classification
Domain:	Eukaryota
Kingdom:	Fungi
Division:	Ascomycota
Subdivision:	Taphrinomycotina
Class:	Neolectomycetes O.E. Erikss. & Winka 1997^[1]
Order:	Neolectales Landvik, O.E. Erikss, Gargas & P. Gustaffs. 1993^[2]
Family:	Neolectaceae Redhead 1977^[3]
Genus:	Neolecta Speg. 1881
Species
Neolecta flavovirescens Neolecta irregularis (Irregular Earth Tongue) Neolecta vitellina (=N. aurantiaca) (Egg-yellow Earth Tongue)