The Full Wiki

Microsporidia: Wikis

Advertisements
  

Note: Many of our articles have direct quotes from sources you can cite, within the Wikipedia article! This article doesn't yet, but we're working on it! See more info or our list of citable articles.

Encyclopedia

From Wikipedia, the free encyclopedia

Microsporidia
Sporoblast of
Fibrillanosema crangonycis
Scientific classification
Domain: Eukaryota
Kingdom: Fungi
Phylum: Microsporidia

Dihaplophasea
Haplophasea

The microsporidia constitute a phylum of spore-forming unicellular parasites. They were once thought to be Protists but are now known to be Fungi. Loosely 1500 of the probably more than one million species are named now. Microsporidia are restricted to animal hosts, and all major groups of animals host microsporidia. Most infect insects, but they are also responsible for common diseases of crustaceans and fish. The distinguished species of microsporidia usually infect one specific host or a related group of hosts. Several species, most of which are opportunistic, also infect humans.

Approximately 10 percent of the species are parasites of vertebrates, including in humans.

After infection they influence their hosts in various ways and all organs and tissues are invaded. Some species are lethal, and a few are used in biological control of insect pests. Parasitic castration, gigantism, change of host sex are effects of microsporidian parasitism. In the most advanced cases of parasitism the microsporidium rules the host cell completely and controls its metabolism and reproduction, forming a xenoma. [1].

Replication takes place within the host's cells, which are infected by means of unicellular spores. These vary from 1-40 μm, making them some of the smallest eukaryotes. They also have the smallest eukaryotic genomes.

Microsporidium was once the vernacular name for a member of the class Microsporea.[2]

Xenoma on flatfish caused by Glugea stephani

Contents

Anatomy

Microsporidia are lacking mitochondria and possess, instead, mitosomes. They also lack motile structures such as flagella.
Microsporidia produce highly resistant spores to survive outside the host for up to several years. Spore morphology is useful in distinguishing between different species. Spores of most species are oval or pyriform, but rod-shaped or spherical spores are not unusual. A few genera produce spores of unique shape for the genus.

The spore is protected by a wall, consisting of three layers:

  • an outer electron-dense exospore
  • a median, wide and seemingly structureless endospore, containing chitin
  • a thin internal plasma membrane

In most cases there are two closely associated nuclei, forming a diplokaryon, but sometimes there is only one.
The anterior half of the spore contains a harpoon-like apparatus with a long thread-like polar filament, which is coiled up in the posterior half of the spore. The anterior part of the polar filament is surrounded by a polaroplast, a lamella of membranes. Behind the polar filament there is a posterior vacuole. [1]

Infection

In the gut of the host the spore germinates. It builds up osmotic pressure until its rigid wall ruptures at its thinnest point at the apex. The posterior vacuole swells, forcing the polar filament to rapidly eject the infectious content into the cytoplasm of the potential host. Simultaneously the material of the filament is rearranged to form a tube which functions as a hypodermic needle and penetrates the gut epithelium.

Once inside the host cell, a sporoplasm grows, dividing or forming a multinucleate plasmodium, before producing new spores. The life cycle varies considerably. Some have a simple asexual life cycle,[3] while others have a complex life cycle involving multiple hosts and both asexual and sexual reproduction. Different types of spores may be produced at different stages, probably with different functions including autoinfection (transmission within a single host).

Medical implications

The microsporidia often cause chronic, debilitating diseases rather than lethal infections. Effects on the host include reduced longevity, fertility, weight, and general vigor. Vertical transmission of microsporidia is frequently reported. In the case of insect hosts, vertical transmission often occurs as transovarial transmission, where the microsporidian parasites pass from the ovaries of the female host into eggs and eventually multiply in the infected larvae. Amblyospora salinaria n. sp. which infects the mosquito Culex salinarius Coquillett, and Amblyospora californica which infects the mosquito Culex tarsalis Coquillett, provide typical examples of transovarial transmission of microsporidia.[4][5][6][7]

Microsporidia, specifically the mosquito-infecting Vavraia culicis, are being explored as a possible 'evolution-proof' malaria-control method.[8] Microsporidian infection of Anopheles gambiae (the principal vector of Plasmodium falciparum malaria) reduces malarial infection within the mosquito, and shortens the mosquito lifespan.[9] As the majority of malaria-infected mosquitoes naturally die before the malaria parasite is mature enough to transmit, any increase in mosquito mortality through microsporidian-infection may reduce malaria in humans.

Classification

For some time microsporidia were considered as very primitive eukaryotes, especially because of the lack of mitochondria, and placed along with the other protozoa diplomonads, parabasalia and archamoebae in the protist-group "Archezoa". More recent research has falsified this theory of early origin (for all of these). Yet microsporidia are proposed to be highly developed and specialized organisms, which just dispensed functions that are needed no longer, because they are supplied by the host.[10] Furthermore, spore-forming organisms in general do have a complex system of reproduction, both sexual and asexual, which look far from primitive.

Nowadays microsporidia are placed within the Fungi or as a sister-group of the Fungi with a common ancestor.[11][12][13][14]

Forming of clades is largely based on habitat and host. Three classes of Microsporidia are proposed by Vossbrinck and Debrunner-Vossbrinck, based on the habitat: Aquasporidia, Marinosporidia and Terresporidia.[15]

One classification could be:

1. Subclass: Dihaplophasea

    • Order: Meiodihaplophasida
      • Superfamily Thelohanioidea
        • Family Thelohaniidae
        • Family Duboscqiidae
        • Family Janacekiidae
        • Family Pereziidae
        • Family Striatosporidae
        • Family Cylindrosporidae
      • Superfamily Burenelloidea
        • Family Burenellidae
      • Superfamily Amblyosporoidae
        • Family Amblyosporidae
    • Order Dissociodihaplophasida
      • Superfamily Nosematoidea
        • Family Nosematidae
        • Family Ichthyosporidiidae
        • Family Caudosporidae
        • Family Pseudopleistophoridae
        • Family Mrazekiidae
      • Superfamily Culicosporoidea
        • Family Culicosporidae
        • Family Culicosporellidae
        • Family Golbergiidae
        • Family Spragueidae
      • Superfamily Ovavesiculoidea
        • Family Ovavesiculidae
        • Family Tetramicridae

2. Subclass Haplophasea

    • Order Glugeida
        • Family Glugeidae
        • Family Pleistophoridae
        • Family Encephalitozoonidae
        • Family Abelsporidae
        • Family Tuzetiidae
        • Family Microfilidae
        • Family Unikaryonidae
    • Order Chyridiopsida
        • Family Chytridiopsida
        • Family Buxtehudiidae
        • Family Enterocytozoonidae
        • Family Burkeidae

See also

References

  1. ^ a b Ronny Larsson, Lund University (Department of Cell and Organism Biology) Cytology and taxonomy of the microsporidia 2004.
  2. ^ Corliss JO, Levine ND (1963). "Establishment of the Microsporidia as a new class in the protozoan subphylum Cnidospora". The Journal of Protozoology 10 (Suppl.): 26–27.  
  3. ^ Ironside JE (2007). "Multiple losses of sex within a single genus of Microsporidia". BMC Evolutionary Biology 7: 48. doi:10.1186/1471-2148-7-48. PMID 17394631.  
  4. ^ Andreadis TG, Hall DW (August 1979). "Development, ultrastructure, and mode of transmission of Amblyospora sp. (Microspora) in the mosquito". The Journal of Protozoology 26 (3): 444–52. PMID 536933.  
  5. ^ Andreadis TG, Hall DW (September 1979). "Significance of transovarial infections of Amblyospora sp. (Microspora:Thelohaniidae) in relation to parasite maintenance in the mosquito Culex salinarius". Journal of Invertebrate Pathology 34 (2): 152–7. doi:10.1016/0022-2011(79)90095-8. PMID 536610.  
  6. ^ Jahn GC, Hall DW, Zam SG (1986). "A comparison of the life cycles of two Amblyospora (Microspora: Amblyosporidae) in the mosquitoes Culex salinarius and Culex tarsalis Coquillett". Journal of the Florida Anti-Mosquito Association 57 (1): 24–27.  
  7. ^ Becnel JJ, Andreadis TG (May 1998). "Amblyospora salinaria n. sp. (Microsporidia: amblyosporidae), parasite of Culex salinarius (Diptera: culicidae): its life cycle stages in an intermediate host". Journal of Invertebrate Pathology 71 (3): 258–62. doi:10.1006/jipa.1998.4729. PMID 9538031.  
  8. ^ Jacob C. Koella, Lena Lorenz and Irka Bargielowski (2009). "Chapter 12 Microsporidians as Evolution-Proof Agents of Malaria Control?". Advances in Parasitology 68: 315–327. doi:10.1016/S0065-308X(08)00612-X. PMID 19289199. http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B7CTH-4VV12XM-J&_user=10&_rdoc=1&_fmt=&_orig=search&_sort=d&_docanchor=&view=c&_searchStrId=1044703236&_rerunOrigin=scholar.google&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=a609ddaf0d507caa811b51b67e10ae1e. Retrieved 2009-12-10.  
  9. ^ Bargielowski I, Koella JC (2009). "A possible mechanism for the suppression of Plasmodium berghei development in the mosquito Anopheles gambiae by the microsporidian Vavraia culicis". PLoS ONE 4 (3): e4676. doi:10.1371/journal.pone.0004676. PMID 19277119.  
  10. ^ Keeling PJ, Slamovits CH (December 2004). "Simplicity and complexity of microsporidian genomes". Eukaryotic Cell 3 (6): 1363–9. doi:10.1128/EC.3.6.1363-1369.2004. PMID 15590811.  
  11. ^ Fischer WM, Palmer JD (September 2005). "Evidence from small-subunit ribosomal RNA sequences for a fungal origin of Microsporidia". Molecular Phylogenetics and Evolution 36 (3): 606–22. doi:10.1016/j.ympev.2005.03.031. PMID 15923129.  
  12. ^ Liu YJ, Hodson MC, Hall BD (2006). "Loss of the flagellum happened only once in the fungal lineage: phylogenetic structure of kingdom Fungi inferred from RNA polymerase II subunit genes". BMC Evolutionary Biology 6: 74. doi:10.1186/1471-2148-6-74. PMID 17010206.  
  13. ^ Gill EE, Fast NM (June 2006). "Assessing the microsporidia-fungi relationship: Combined phylogenetic analysis of eight genes". Gene 375: 103–9. doi:10.1016/j.gene.2006.02.023. PMID 16626896.  
  14. ^ Lee SC, Corradi N, Byrnes EJ, et al. (November 2008). "Microsporidia evolved from ancestral sexual fungi". Current Biology 18 (21): 1675–9. doi:10.1016/j.cub.2008.09.030. PMID 18976912.  
  15. ^ Vossbrinck CR, Debrunner-Vossbrinck BA (May 2005). "Molecular phylogeny of the Microsporidia: ecological, ultrastructural and taxonomic considerations". Folia Parasitologica 52 (1-2): 131–42; discussion 130. PMID 16004372.  

External links

Advertisements

Wiktionary

Up to date as of January 15, 2010

Definition from Wiktionary, a free dictionary

Translingual

Proper noun

Wikipedia-logo.png
Wikipedia has an article on:

Wikipedia

Microsporidia

  1. a taxonomic class, within phylum Zygomycota - the microsporidians
Wikispecies-logo.svg
Wikispecies has information on:

Wikispecies

See also

  • Apansporoblastina
  • Pansporoblastina

Wikispecies

Up to date as of January 23, 2010

From Wikispecies

Fibrillanosema crangonycis

Taxonavigation

Main Page
Cladus: Eukaryota
Supergroup: Unikonta
Cladus: Opisthokonta
Regnum: Fungi
Phylum: Zygomycota
Classis: Microsporidia
Ordines: Apansporoblastina - Pansporoblastina - Incertae sedis

Name

Microsporidia Balbiani, 1892

Vernacular names

Français: Microsporidies
Wikimedia Commons For more multimedia, look at Microsporidia on Wikimedia Commons.

Advertisements






Got something to say? Make a comment.
Your name
Your email address
Message