Biology:Labyrinthulomycetes

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Short description: Class of protists that produce a filamentous network

Labyrinthulomycetes
Aplanonet3.jpg
Cell with network of ectoplasmic filaments (Aplanochytrium sp.)
Scientific classification e
Domain: Eukaryota
Clade: Diaphoretickes
Clade: SAR
Clade: Stramenopiles
Phylum: Bigyra
Subphylum: Sagenista
Class: Labyrinthulomycetes
Arx, 1970, Dick, 2001
Orders[1]
Synonyms
  • Labyrinthulomycota Whittaker, 1969
  • Labyrinthomorpha Page in Levine et al., 1980
  • Labyrinthulea Olive, 1975
    ex Cavalier-Smith, 1989

Labyrinthulomycetes (ICBN) or Labyrinthulea[2] (ICZN) is a class of protists that produce a network of filaments or tubes,[3] which serve as tracks for the cells to glide along and absorb nutrients for them. The two main groups are the labyrinthulids (or slime nets) and thraustochytrids. They are mostly marine, commonly found as parasites on algae and seagrasses or as decomposers on dead plant material. They also include some parasites of marine invertebrates and mixotrophic species that live in a symbiotic relationship with zoochlorella.[4][5][6]

Characteristics

Although they are outside the cells, the filaments of Labyrinthulomycetes are surrounded by a membrane. They are formed and connected with the cytoplasm by a unique organelle called a sagenogen or bothrosome. The cells are uninucleated and typically ovoid, and move back and forth along the amorphous network at speeds varying from 5-150 μm per minute. Among the labyrinthulids, the cells are enclosed within the tubes, and among the thraustochytrids, they are attached to their sides.

Evolution

Evolutionary origin

Labyrinthulomycetes are not fungi, but a monophyletic group of eukaryotes within the Stramenopiles. They belong to the phylum Bigyra, which contains other heterotrophic microorganisms such as the bicosoecids. Considering that the plastids from Stramenopiles are possibly the result of an event of endosymbiosis in their last common ancestor, the bicosoecids and the labyrinthulomycetes could have originated from a mixotrophic algal common ancestor that secondarily lost their plastids.[3]

Some characteristics of the labyrinthulomycetes can be explained by their origin from ancestral plastids. They produce omega-3 poly-unsaturated fatty acids using a desaturase usually present in chloroplasts. The zoospores of labyrinthulids have an eyespot composed of membrane-bound granules that resembles eyespots of photosynthetic stramenopiles, which are either within a plastid or believed to be derived from a plastid.[3]

Within Bigyra, the labyrinthulomycetes are the sister group to Eogyrea, a class containing the species Pseudophyllomitus vesiculosus and the environmental clade called MAST-4. Together they compose the subphylum Sagenista.[7][8]

Stramenopiles
Gyrista

Ochrophyta 50px

Pseudofungi Phytophthora cactorum.jpg

plastid loss
Bigyra
Opalozoa

Placidozoa Protozelleriella devilliersi from Capensibufo rosei (South Africa).jpg

Bicosoecida 50px

Sagenista

Labyrinthulomycetes 50px

Eogyrea

plastid loss

Platysulcea

Classification

Labyrinthulomycetes or Labyrinthulea used to compose the defunct fungal phylum Labyrinthulomycota.[9] They were originally considered unusual slime moulds, although they are not very similar to the other sorts. The structure of their zoospores and genetic studies show them to be a primitive group of heterokonts, but their classification and treatment remains somewhat unsettled.

This class usually contained two orders, Labyrinthulales and Thraustochytriales (ICBN), or Labyrinthulida and Thraustochytrida (ICZN), but a different classification has recently been proposed.[6][10][11][1][9]

  • Order Labyrinthulales/Labyrinthulida E. A. Bessey 1950/Doffein 1901
    • Family Aplanochytriaceae/Aplanochytriidae Leander ex Cavalier-Smith 2012
      • Aplanochytrium Bahnweg & Sparrow 1972 [=Labyrinthuloides Perkins 1973]
    • Family Labyrinthulaceae/Labyrinthulidae Haeckel 1868/Cinekowksa 1867
      • Labyrinthomyxa Duboscq 1921
      • Pseudoplasmodium Molisch 1925
      • Labyrinthula Cienkowski 1864 [=Labyrinthodictyon Valkanov 1969; Labyrinthorhiza Chadefaud 1956]
    • Family-level clade "Stellarchytriaceae/Stellarchytriidae" – this group is provisionally placed in Labyrinthulida[9][1] but, according to phylogenetic analyses, diverges before the rest of labyrinthulean clades.[11]
      • Stellarchytrium FioRito & Leander 2016
  • Order Oblongichytriales/Oblongichytrida
    • Family Oblongichytriaceae/Oblongichytriidae Cavalier-Smith 2012
      • Oblongichytrium Yokoyama & Honda 2007
  • Order Thraustochytriales/Thraustochytrida Sparrow 1973
    • Pyrrhosorus Juel 1901
    • Thanatostrea Franc & Arvy 1969
    • Family Althornidiaceae/Althorniidae Jones & Alderman 1972
      • Althornia Jones & Alderman 1972
    • Family Thraustochytriacae/Thraustochytriidae Sparrow ex Cejp 1959
      • Japanochytrium Kobayasi & Ôkubo 1953
      • Monorhizochytrium Doi & Honda 2017
      • Sicyoidochytrium Yokoy., Salleh & Honda 2007
      • Aurantiochytrium Yokoy. & Honda 2007
      • Ulkenia Gaertn. 1977
      • Parietichytrium Yokoy., Salleh & Honda 2007
      • Botryochytrium Yokoy., Salleh & Honda 2007
      • Schizochytrium Goldst. & Belsky emend. Booth & Mill.
      • Thraustochytrium Sparrow 1936
      • Hondaea Amato & Cagnac 2018
      • Labyrinthulochytrium Hassett & Gradinger 2018[12]
  • Order "Amphitremidales"/Amphitremida Gomaa et al. 2013
    • Family "Amphitremidiaceae"/Amphitremidae Poch 1913
      • Paramphitrema Valkanov 1970
      • Archerella Loeblich & Tappan 1961
      • Amphitrema Archer 1867
    • Family "Diplophrydaceae"/Diplophryidae Cavalier-Smith 2012
      • Diplophrys Barker 1868
  • Order "Amphifilales"/Amphifilida Cavalier Smith 2012
    • Family Sorodiplophryidae Cavalier-Smith 2012
      • Sorodiplophrys Olive & Dykstra 1975
      • Fibrophrys Takahashi et al. 2016
    • Family Amphifilidae Cavalier-Smith 2012
      • Genus Amphifila Cavalier-Smith 2012

Genetic code

The labyrinthulomycete Thraustochytrium aureum is notable for the alternative genetic code of its mitochondria which use TTA as a stop codon instead of coding for Leucine.[13] This code is represented by NCBI translation table 23, Thraustochytrium mitochondrial code.[14]

Genetic code Translation
table
DNA codon RNA codon Translation
with this code
Standard code
(Translation table 1)
Thraustochytrium mitochondrial 23 TTA UUA STOP = Ter (*) Leu (L)

Gallery

References

  1. 1.0 1.1 1.2 "Revisions to the Classification, Nomenclature, and Diversity of Eukaryotes". Journal of Eukaryotic Microbiology 66 (1): 4–119. 2019. doi:10.1111/jeu.12691. PMID 30257078. 
  2. Cavalier-Smith, T. (1997). "Sagenista and bigyra, two phyla of heterotrophic heterokont chromists". Archiv für Protistenkunde 148 (3): 253–267. doi:10.1016/S0003-9365(97)80006-1. 
  3. 3.0 3.1 3.2 Tsui, Clement K M; Marshall, Wyth; Yokoyama, Rinka; Honda, Daiske; Lippmeier, J Casey; Craven, Kelly D; Peterson, Paul D; Berbee, Mary L (January 2009). "Labyrinthulomycetes phylogeny and its implications for the evolutionary loss of chloroplasts and gain of ectoplasmic gliding". Molecular Phylogenetics and Evolution 50 (1): 129–40. doi:10.1016/j.ympev.2008.09.027. PMID 18977305. 
  4. Schärer, L.; Knoflach, D.; Vizoso, D. B.; Rieger, G.; Peintner, U. (2007). "Thraustochytrids as novel parasitic protists of marine free-living flatworms: Thraustochytrium caudivorum sp. nov. Parasitizes Macrostomum lignano". Marine Biology 152 (5): 1095. doi:10.1007/s00227-007-0755-4. http://doc.rero.ch/record/319983/files/227_2007_Article_755.pdf. 
  5. Pan, Jingwen (2016). Labyrinthulomycetes diversity meta-analysis (MSc). University of British Columbia. doi:10.14288/1.0223199.
  6. 6.0 6.1 Gomaa, Fatma; Mitchell, Edward A. D.; Lara, Enrique (2013). "Amphitremida (poche, 1913) is a new major, ubiquitous labyrinthulomycete clade". PLoS One 8 (1): e53046. doi:10.1371/journal.pone.0053046. PMID 23341921. Bibcode2013PLoSO...853046G. 
  7. Cavalier-Smith, Thomas (2017). "Kingdom Chromista and its eight phyla: a new synthesis emphasising periplastid protein targeting, cytoskeletal and periplastid evolution, and ancient divergences". Protoplasma 255 (1): 297–357. doi:10.1007/s00709-017-1147-3. PMID 28875267. 
  8. Thakur, Rabindra; Shiratori, Takashi; Ishida, Ken-ichiro (2019). "Taxon-rich Multigene Phylogenetic Analyses Resolve the Phylogenetic Relationship Among Deep-branching Stramenopiles". Protist 170 (5): 125682. doi:10.1016/j.protis.2019.125682. ISSN 1434-4610. PMID 31568885. https://www.sciencedirect.com/science/article/pii/S1434461018300865. 
  9. 9.0 9.1 9.2 Bennett, Reuel M.; Honda, D.; Beakes, Gordon W.; Thines, Marco (2017). "Chapter 14. Labyrinthulomycota". Handbook of the Protists. Springer. pp. 507–542. doi:10.1007/978-3-319-28149-0_25. ISBN 978-3-319-28147-6. 
  10. Anderson, O. Roger; Cavalier-Smith, Thomas (2012). "Ultrastructure of Diplophrys parva, a New Small Freshwater Species, and a Revised Analysis of Labyrinthulea (Heterokonta)". Acta Protozoologica 8 (1): 291–304. doi:10.4467/16890027AP.12.023.0783. http://www.eko.uj.edu.pl/ap. 
  11. 11.0 11.1 FioRito, Rebecca; Leander, Celeste; Leander, Brian (2016). "Characterization of three novel species of Labyrinthulomycota isolated from ochre sea stars (Pisaster ochraceus)". Marine Biology 163 (8): 170. doi:10.1007/s00227-016-2944-5. 
  12. Hassett, Brandon T.; Gradinger, Rolf (2018). "New Species of Saprobic Labyrinthulea (=Labyrinthulomycota) and the Erection of a gen. nov. to Resolve Molecular Polyphyly within the Aplanochytrids" (in en). Journal of Eukaryotic Microbiology 65 (4): 475–483. doi:10.1111/jeu.12494. ISSN 1550-7408. PMID 29265676. 
  13. Wideman, Jeremy G.; Monier, Adam; Rodríguez-Martínez, Raquel; Leonard, Guy; Cook, Emily; Poirier, Camille; Maguire, Finlay; Milner, David S. et al. (2019-11-25). "Unexpected mitochondrial genome diversity revealed by targeted single-cell genomics of heterotrophic flagellated protists" (in en). Nature Microbiology 5 (1): 154–165. doi:10.1038/s41564-019-0605-4. ISSN 2058-5276. PMID 31768028. https://www.nature.com/articles/s41564-019-0605-4. 
  14. Elzanowski, Andrzej; Ostell, Jim; Leipe, Detlef; Soussov, Vladimir. "The Genetic Codes". Taxonomy browser. National Center for Biotechnology Information (NCBI), U.S. National Library of Medicine. https://www.ncbi.nlm.nih.gov/Taxonomy/taxonomyhome.html/index.cgi?chapter=tgencodes#thetop. 
  15. Cienkowski, L. (1867). Ueber den Bau und die Entwicklung der Labyrinthuleen. Arch. mikr. Anat., 3:274, [1].

External links

Wikidata ☰ {{{from}}} entry