Biology:Plasmodium yoelii
Plasmodium yoelii | |
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Scientific classification | |
Domain: | Eukaryota |
Clade: | Diaphoretickes |
Clade: | SAR |
Clade: | Alveolata |
Phylum: | Apicomplexa |
Class: | Aconoidasida |
Order: | Haemospororida |
Family: | Plasmodiidae |
Genus: | Plasmodium |
Species: | P. yoelii
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Binomial name | |
Plasmodium yoelii Landau, Michel and Adam, 1968
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Subspecies | |
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Plasmodium yoelii is a parasite of the genus Plasmodium subgenus Vinckeia. As in all Plasmodium species, P. yoelii has both vertebrate and insect hosts. The vertebrate hosts for this parasite are mammals.
Taxonomy
This species was described in 1968 by Landau, Michel and Adam. Three subspecies are recognised:
- Plasmodium yoelii killicki
- Plasmodium yoelii nigeriensis
- Plasmodium yoelii yoelli
Strains
- P. yoelii 17XNL[1]
Distribution
This species occurs in Africa.
Vectors
The natural vectors of this species are not currently known. One possible is the female Anopheles mosquito which serves as a vector for Plasmodium vivax.
Hosts
This species infects Thamnomys rutilans.
Pathogenesis
P. yoelii impairs immune responses including impairing responses to other pathogens. Fewer granulocytes move out from the bone marrow and in a separate action induces the rodent's own heme oxygenase 1 (HO-1). Although HO-1 induction is a tolerance response by the host to malaria – preventing damage caused by the host's own immune response – the reduced reactive oxygen species production takes away a weapon vital to fighting some unrelated microbes. Cunnington et al. 2012 find mice tolerating P. yoelii 17XNL do not clear coinfections with other pathogens as easily as they normally would.[1]
Notes
It is used in the laboratory to infect mice, as a model of human malaria, particularly with respect to the immune response. It is advantageous to have a whole-animal model of malaria because often it is difficult to know which factors to study in vitro, particularly in a complex system like the immune system. Moreover, for many experiments it is not ethical or practical to use humans.
One of the special things about this particular model is that it has two strains with vastly different pathogenicity. These are generally referred to as the "lethal" and "non-lethal" strains of the species. Comparison of these two strains can be used to deduce which factors may contribute to more serious malaria infections in humans.
References
- ↑ 1.0 1.1 Moxon, Christopher A.; Gibbins, Matthew P.; McGuinness, Dagmara; Milner, Danny A.; Marti, Matthias (2020-01-24). "New Insights into Malaria Pathogenesis". Annual Review of Pathology: Mechanisms of Disease (Annual Reviews) 15 (1): 315–343. doi:10.1146/annurev-pathmechdis-012419-032640. ISSN 1553-4006. PMID 31648610.
Further reading
- Charoenvit, Yupin; Leef, Mary; Yuan, Leo; Sedegah, Martha; Beaudoin, Richard (March 1987). "Characterization of Plasmodium yoelii Monoclonal Antibodies Directed Against Stage-specific Sporozoite Antigens". Infection and Immunity 55 (1987): 604–608. doi:10.1128/iai.55.3.604-608.1987. PMID 2434426.
- Keitany, Gladys J.; Sack, Brandon; Smithers, Hannah; Chen, Lin; Jang, Ihn K.; Sebastian, Leslie (December 2012). "Immunization of Mice with Live-Attenuated Late Liver Stage-Arresting Plasmodium yoelii Parasites Generates Protective Antibody Responses to Preerythrocytic Stages of Malaria". Infection and Immunity 82 (12): 5143–5153. doi:10.1128/IAI.02320-14. PMID 25267837.
- White, Chelsi E.; Villarino, Nicolas F.; Sloan, Sarah S.; Ganusov, Vitaly V.; Schmidt, Nathan W. (10 December 2014). "Plasmodium Suppresses Expansion of T Cell Responses to Heterologous Infections". The Journal of Immunology 194 (2): 697–708. doi:10.4049/jimmunol.1401745. PMID 25505280.
- Valeelat O., Okeola; Oluwatosin A., Adaramoye; Chiaka M., Nneji (January 2011). "Antimalarial and antioxidant activities of methanolic extract of Nigella sativa seeds (black cumin) in mice infected with Plasmodium yoelli nigeriensis". Parasitology Research 108 (6): 1507–1512. doi:10.1007/s00436-010-2204-4. PMID 21153838.
- Harupa, Anke; Sack, Brandon; Lashmanan, Viswanathan (2014). "SSP3 Is a Novel Plasmodium yoelii Sporozoite Surface Protein with a Role in Gliding Motility". Infection and Immunity 82 (11): 4643–4653. doi:10.1128/IAI.01800-14. PMID 25156733.
- Kaushansky, Alexis; Austin, Laura S.; Mikolajczak, Sebastian A.; Fang, Y. Lo; Miller, Jessica A.; Douglass, Alyse N.; Arang, Nadia; Vaughan, Ashley M. et al. (January 2015). "Susceptibility to Plasmodium yoelii Preerythrocytic Infection in BALB/c Substrains Is Determined at the Point of Hepatocyte Invasion". Infection and Immunity 83 (1): 39–47. doi:10.1128/IAI.02230-14. PMID 25312960.
External links
- Information about the genome and genes of P. yoelii
Wikidata ☰ Q12065970 entry
Original source: https://en.wikipedia.org/wiki/Plasmodium yoelii.
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