Nidula

Nidula is a genus of fungi in the family Agaricaceae. Their fruit bodies resemble tiny egg-filled birds' nests, from which they derive their common name "bird's nest fungi". Originally described in 1902, the genus differs from the related genera Cyathus and Crucibulum by the absence of a cord that attaches the eggs to the inside of the fruit body. The life cycle of this genus allows it to reproduce both sexually, with meiosis, and asexually via spores. Species in this genus produce a number of bioactive compounds, including 4-(p-hydroxyphenyl)-2-butanone, a major component of raspberry flavor and insect attractor used in pesticides.

Nidula
Nidula candida
Scientific classification
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Nidula

V.S.White (1902)
Type species
Nidula candida
(Peck) V.S.White (1902)
Species

N. baltica
N. candida
N. emodensis
N. macrocarpa
N. niveotomentosa
N. shingbaensis

Taxonomy

The genus Nidula was originally proposed by Violet S. White in her monograph on the North American species of the Nidulariaceae, and included the species N. candida and N. microcarpa.[1] The genus name is derived from the Latin nidula, meaning "little nest".[2] Although originally classified in the family Nidulariaceae, molecular phylogenetics demonstrated that the Nidulariaceae are part of the agaricoid clade,[3] and Nidula was later transferred to the family Agaricaceae.[4]

Description

The fruit bodies (peridia) of species in Nidula are typically between 3–8 mm in diameter, 5–15 mm tall, and cup- or urn-shaped—having almost vertical sides with the lip flared outwards. Depending on the species, the color may range from white, grey, buff, or tawny.[2] The peridia are covered on the external surface with closely matted, shaggy hairs, technically called a tomentum. Immature peridia have a membrane covering the mouth (an epiphragm), which later ruptures into 4–7 lobes when mature. The "eggs", or peridioles, are numerous, grey-brown or reddish-brown in color, and embedded in a gelatinous matrix when young and fresh. In contrast to other genera of the Nidulariaceae, such as Cyathus or Crucibulum, the peridioles of the Nidula are not attached to the peridia by a cord of mycelia known as a funiculus. Spores are ovoid to elliptical in shape, thick-walled, light brown, and have dimensions of 8–10 by 4–6 µm.[5]

Habitat and distribution

Species in Nidula have been found in North America, the Himalayas, and mountains in Japan. N. niveo-tomentosa has been collected at an elevation of 5,000 feet (1,500 m) on Blue Mountains in Jamaica.[6]

Life cycle

The life cycle of the genus Nidula, which contains both haploid and diploid stages, is typical of taxa in the basidiomycetes that can reproduce both asexually (via vegetative spores), or sexually (with meiosis). Basidiospores produced in the peridioles each contain a single haploid nucleus. After dispersal, the spores germinate and grow into homokaryotic hyphae, with a single nucleus in each compartment. When two homokaryotic hyphae of different mating compatibility groups fuse with one another, they form a dikaryotic mycelia in a process called plasmogamy. Like other members of the Nidulariaceae, species in Nidula have a heterothallic (bifactorial) mating system.[6] After a period of time and under the appropriate environmental conditions, fruit bodies may be formed from the dikaryotic mycelia. These fruit bodies produce peridioles containing the basidia upon which new basidiospores are made. Young basidia contain a pair of haploid sexually compatible nuclei which fuse, and the resulting diploid fusion nucleus undergoes meiosis to produce haploid basidiospores.[7]

Species

There are five extant and one extinct species of Nidula:

  • N. baltica
Described in 2014 from a fossil found in Baltic amber.[8]
Peridia are 10 to 15 mm tall, grey to dark buff, with a recurved rim at maturity. The peridioles are 1.5–2 mm wide, and light grey-brown, and smooth. The spores are elliptical, with dimensions of 4–6 by 8–10 µm.[9]
  • N. macrocarpa
Peridia are 5 to 10 mm tall, and white to yellowish in color; the rim is either straight or slightly recurved. Peridioles are 0.5 to 1 mm wide, wrinkled, and colored red-brown. Spores are elliptical or roughly spherical, with dimensions of 6–9 by 5–6 µm.[10]
N. niveo-tomentosa
  • N. niveo-tomentosa
Peridia are 4–6 mm tall with rims that have a fringe of white hairs. Peridioles are mahogany-brown and 0.5–1 mm wide. Spores have an elliptical or roughly spherical shape, and are 6–9 by 5–6 µm.[10]
Peridia are 4–6 mm tall by 4–5 mm wide at the mouth. The exterior surface is a grey color, the interior smooth and whitish. Peridioles are reddish-brown to black, have minute wrinkles, and dimensions of 0.5–1 mm. The spores are somewhat elliptical, obovate, or pyriform.[9]
  • N. shingbaensis
Peridia are 6–9 mm tall by 5–7 mm wide at the mouth. Found in India, it differs from other Nidula in having a six-layered peridium.[12]

Bioactive compounds

The Nidula are known to produce a number of bioactive compounds. N. niveo-tomentosa grown in liquid culture makes niduloic acid (3-hydroxy-5-(p-hydroxyphenol)pentanoic acid), 4-(p-hydroxyphenyl)-2-butanol, trans-4-p-hydroxyphenylbut-3-en-2-one, 4-(3',4'-dihydroxyphenyl)-2-butanol, 4-(3',4'-dihydroxyphenyl)-2-butanone, zingerone, 3-(p-hydroxyphenyl)-1,2-propanediol, and 4-(p-hydroxyphenyl)-2-butanone.[13] The latter compound is commonly known as "raspberry ketone", one of the major chemicals contributing to the flavour of raspberries.[14] This chemical is used (in its acetate form) as an insect attractor in the pesticide Cue-lure,[13] structurally related to the sex pheromone that female melon flies (sp. Bactrocera cucurbitae) use to attract males for mating.[15]

Nidula candida contains the sesquiterpene compounds nidulal and niduloic acid, both of which have weak cytotoxic and antibiotic activities.[16]

gollark: Yes, for some silly reason you're not meant to chain SI prefixes like that.
gollark: If you mix various color dyes, you can get black. Obviously light works that way too.
gollark: At the specified maximum input power. Not more.
gollark: That sounds like destroying them.
gollark: How are you meant to identify me using *favors*?

References

  1. White VS. (1902). "The Nidulariaceae of North America". Bulletin of the Torrey Botanical Club. 29 (5): 251–80. doi:10.2307/2478721. JSTOR 2478721.
  2. Brodie, The Bird's Nest Fungi, p. 142.
  3. Matheny PB, Curtis JM, Hofstetter V, Aime MC, Moncalvo JM, Ge ZW, Yang ZL, Slot JC, Ammirati JF, Baroni TJ, Bougher NL, Hughes KW, Lodge DJ, Kerrigan RW, Seidl MT, Aanen DK, DeNitis M, Daniele GM, Desjardin DE, Kropp BR, Norvell LL, Parker A, Vellinga EG, Vilgalys R, Hibbett DS (2006). "Major clades of Agaricales: a multilocus phylogenetic overview". Mycologia. 98 (6): 982–95. doi:10.3852/mycologia.98.6.982. PMID 17486974.
  4. Kirk PM, Cannon PF, Minter DW, Stalpers JA (2008). Dictionary of the Fungi (10th ed.). Wallingford, UK: CAB International. ISBN 978-0-85199-826-8.
  5. Miller HR, Miller OK (1988). Gasteromycetes: Morphological and Developmental Features, with Keys to the Orders, Families, and Genera. Eureka, California: Mad River Press. p. 71. ISBN 0-916422-74-7.
  6. Brodie HJ. (1951). "Two heterothallic species of the genus Nidula". Mycologia. 43 (3): 329–37. doi:10.2307/3755596. JSTOR 3755596.
  7. Deacon J. (2005). Fungal Biology. Cambridge, Massachusetts: Blackwell Publishers. pp. 31–2. ISBN 1-4051-3066-0.
  8. Poinar G Jr. (2014). "Bird's nest fungi (Nidulariales: Nidulariaceae) in Baltic and Dominican amber". Fungal Biology. 118 (3): 325–9. doi:10.1016/j.funbio.2014.01.004. PMID 24607356.
  9. Brodie, The Bird's Nest Fungi, p. 144.
  10. Brodie, The Bird's Nest Fungi, p. 143.
  11. Lloyd CG. (1906). "The Nidulariaceae". Mycological Writings. 2: 1–30.
  12. Das K, Zhao RL (2013). "Nidula shingbaensis sp. nov., a new bird's nest fungus from India". Mycotaxon. 125: 53–8. doi:10.5248/125.53.
  13. Ayer WA, Singer PP (1980). "Phenolic metabolites of the bird's nest fungus Nidula niveo-tomentosa". Phytochemistry. 19 (12): 2717–21. doi:10.1016/S0031-9422(00)83949-7.
  14. Böker A, Fischer M, Berger RG (2001). "Raspberry ketone from submerged cultured cells of the basidiomycete Nidula niveo-tomentosa". Biotechnology Progress. 17 (3): 568–72. doi:10.1021/bp010011b. PMID 11386881.
  15. "Cuelure (4-[p-Acetoxyphenyl]-2-butanone) (128916) Fact sheet | Pesticides | US EPA". Retrieved 2009-03-20.
  16. Erkel G, Becker U, Anke T, Sterner O (December 1996). "Nidulal, a novel inducer of differentiation of human promyelocytic leukemia cells from Nidula candida". Journal of Antibiotics. 49 (12): 1189–95. doi:10.1002/chin.199725178. PMID 9031663.

Cited works

  • Brodie HJ. (1975). The Bird's Nest Fungi. Toronto: University of Toronto Press. ISBN 0-8020-5307-6.
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