Jaroslav Flegr

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Jaroslav Flegr
Jaroslav Flegr - portrait.jpg
Born (1958-03-12) 12 March 1958 (age 65) [1]
Prague, Czechoslovakia (now Czech Republic)
Nationality Czech
Known forresearch into toxoplasmosis
Awards Ig Nobel Prize in Public Health (2014)
Scientific career
Fields Parasitology
Institutions Charles University in Prague

Jaroslav Flegr (born 12 March 1958) is a Czech parasitologist, evolutionary biologist, and author of the book Frozen Evolution. [2] He is professor of biology at the Faculty of Science, Charles University in Prague, [3] and is a member of the editorial board of the journal Neuroendocrinology Letters. [4]

Contents

His work on how toxoplasmosis—an infection caused by the protozoan parasite T. gondii—influences personality, [5] sex ratios, [6] and rates of traffic accidents, [7] [8] has received coverage in The Atlantic , [9] Salon , [10] and The Guardian . [11] Flegr maintains that toxoplasmosis might increase the rate of traffic accidents by as much as one million collisions per year. [12] [13] [14] He also believes that T. gondii contributes to suicides and mental disorders such as schizophrenia. [9]

Frozen Evolution

Frozen Evolution is a popular science book which aims to explain current developments in evolutionary biology to a wide audience. It also contains information boxes which clarify important topics in science like peer review, scientific journals, citation metrics, philosophy of science, paradigm shifts, and Occam's razor. Flegr's previous research in toxoplasmosis is also mentioned.

The book also discusses Flegr's model of frozen plasticity, a hypothesis that describes a possible mechanism for the origin of adaptive traits. This hypothesis proposes that natural selection can only explain adaptation in limited conditions, for example when populations are genetically homogeneous. He describes frozen plasticity as being more general, and maintains that it better explains the origin of adaptive traits in genetically heterogeneous populations of sexual reproducing organisms. [15] His hypothesis of frozen plasticity is an extension of Niles Eldredge and Stephen Jay Gould's theory of punctuated equilibria, [16] which describes the history of most fossil species as being relatively stable for millions of years, later punctuated by swift periods of evolutionary change during speciation.

Bibliography

Related Research Articles

<span class="mw-page-title-main">Toxoplasmosis</span> Protozoan parasitic disease

Toxoplasmosis is a parasitic disease caused by Toxoplasma gondii, an apicomplexan. Infections with toxoplasmosis are associated with a variety of neuropsychiatric and behavioral conditions. Occasionally, people may have a few weeks or months of mild, flu-like illness such as muscle aches and tender lymph nodes. In a small number of people, eye problems may develop. In those with a weak immune system, severe symptoms such as seizures and poor coordination may occur. If a person becomes infected during pregnancy, a condition known as congenital toxoplasmosis may affect the child.

<i>Toxoplasma gondii</i> Type of protozoan parasite

Toxoplasma gondii is a parasitic protozoan that causes toxoplasmosis. Found worldwide, T. gondii is capable of infecting virtually all warm-blooded animals, but felids are the only known definitive hosts in which the parasite may undergo sexual reproduction.

<span class="mw-page-title-main">Steak tartare</span> Starter dish composed of finely chopped raw meat

Steak tartare or tartar steak is a French dish of raw ground (minced) beef. It is usually served with onions, capers, mushrooms, pepper, Worcestershire sauce, and other seasonings, often presented separately, to be added to taste. It is often served topped with a raw egg yolk. It is similar to the Levantine kibbeh nayyeh, the Turkish çiğ köfte and the Korean yukhoe.

<span class="mw-page-title-main">Coccidia</span> Subclass of protists

Coccidia (Coccidiasina) are a subclass of microscopic, spore-forming, single-celled obligate intracellular parasites belonging to the apicomplexan class Conoidasida. As obligate intracellular parasites, they must live and reproduce within an animal cell. Coccidian parasites infect the intestinal tracts of animals, and are the largest group of apicomplexan protozoa.

AIDS-defining clinical conditions is the list of diseases published by the Centers for Disease Control and Prevention (CDC) that are associated with AIDS and used worldwide as a guideline for AIDS diagnosis. CDC exclusively uses the term AIDS-defining clinical conditions, but the other terms remain in common use.

Coccidiosis is a parasitic disease of the intestinal tract of animals caused by coccidian protozoa. The disease spreads from one animal to another by contact with infected feces or ingestion of infected tissue. Diarrhea, which may become bloody in severe cases, is the primary symptom. Most animals infected with coccidia are asymptomatic, but young or immunocompromised animals may suffer severe symptoms and death.

<span class="mw-page-title-main">Microneme</span>

Micronemes are secretory organelles, possessed by parasitic apicomplexans. Micronemes are located on the apical third of the protozoan body. They are surrounded by a typical unit membrane. On electron microscopy they have an electron-dense matrix due to the high protein content. They are specialized secretory organelles important for host-cell invasion and gliding motility.

<span class="mw-page-title-main">Rhoptry</span>

A rhoptry is a specialized secretory organelle. They are club-shaped organelles connected by thin necks to the extreme apical pole of the parasite. These organelles, like micronemes, are characteristic of the motile stages of Apicomplexa protozoans. They can vary in number and shape and contain numerous enzymes that are released during the process of host penetration. The proteins they contain are important in the interaction between the host and the parasite, including the formation of the parasitophorous vacuole (PV).

<span class="mw-page-title-main">Gregarinasina</span> Subclass of protists

The gregarines are a group of Apicomplexan alveolates, classified as the Gregarinasina or Gregarinia. The large parasites inhabit the intestines of many invertebrates. They are not found in any vertebrates. Gregarines are closely related to both Toxoplasma and Plasmodium, which cause toxoplasmosis and malaria, respectively. Both protists use protein complexes similar to those that are formed by the gregarines for gliding motility and for invading target cells. This makes the gregarines excellent models for studying gliding motility, with the goal of developing treatment options for both toxoplasmosis and malaria. Thousands of different species of gregarine are expected to be found in insects, and 99% of these gregarine species still need to be described. Each insect species can be the host of multiple gregarine species. One of the most-studied gregarines is Gregarina garnhami. In general, gregarines are regarded as a very successful group of parasites, as their hosts are distributed over the entire planet.

An obligate parasite or holoparasite is a parasitic organism that cannot complete its life-cycle without exploiting a suitable host. If an obligate parasite cannot obtain a host it will fail to reproduce. This is opposed to a facultative parasite, which can act as a parasite but does not rely on its host to continue its life-cycle. Obligate parasites have evolved a variety of parasitic strategies to exploit their hosts. Holoparasites and some hemiparasites are obligate.

An apicoplast is a derived non-photosynthetic plastid found in most Apicomplexa, including Toxoplasma gondii, and Plasmodium falciparum and other Plasmodium spp., but not in others such as Cryptosporidium. It originated from algae through secondary endosymbiosis; there is debate as to whether this was a green or red alga. The apicoplast is surrounded by four membranes within the outermost part of the endomembrane system. The apicoplast hosts important metabolic pathways like fatty acid synthesis, isoprenoid precursor synthesis and parts of the heme biosynthetic pathway.

<span class="mw-page-title-main">Toll-like receptor 11</span>

Toll-like receptor 11 (TLR11) is a protein that in mice and rats is encoded by the gene TLR11, whereas in humans it is represented by a pseudogene. TLR11 belongs to the toll-like receptor (TLR) family and the interleukin-1 receptor/toll-like receptor superfamily. In mice, TLR11 has been shown to recognise (bacterial) flagellin and (eukaryotic) profilin present on certain microbes, it helps propagate a host immune response. TLR11 plays a fundamental role in both the innate and adaptive immune responses, through the activation of Tumor necrosis factor-alpha, the Interleukin 12 (IL-12) response, and Interferon-gamma (IFN-gamma) secretion. TLR11 mounts an immune response to multiple microbes, including Toxoplasma gondii, Salmonella species, and uropathogenic E. coli, and likely many other species due to the highly conserved nature of flagellin and profilin.

<span class="mw-page-title-main">Apicomplexan life cycle</span> Apicomplexa life cycle

Apicomplexans, a group of intracellular parasites, have life cycle stages that allow them to survive the wide variety of environments they are exposed to during their complex life cycle. Each stage in the life cycle of an apicomplexan organism is typified by a cellular variety with a distinct morphology and biochemistry.

<span class="mw-page-title-main">Toxoplasmic chorioretinitis</span> Type of eye infection

Toxoplasma chorioretinitis, more simply known as ocular toxoplasmosis, is possibly the most common cause of infections in the back of the eye worldwide. The causitive agent is Toxoplasma gondii, and in the United States, most cases are acquired congenitally. The most common symptom is decreased visual acuity in one eye. The diagnosis is made by examination of the eye, using ophthalmoscopy. Sometimes serologic testing is used to rule out the disease, but due to high rates of false positives, serologies are not diagnostic of toxoplasmic retinitis.

<span class="mw-page-title-main">Cats in New Zealand</span> Overview of the role and status of cats in New Zealand

Cats are a popular pet in New Zealand. Cat ownership is occasionally raised as a controversial conservation issue due to the predation of endangered species, such as birds and lizards, by feral cats.

Behavior-altering parasites are parasites with two or more hosts, capable of causing changes in the behavior of one of their hosts to enhance their transmission, sometimes directly affecting the hosts' decision-making and behavior control mechanisms. They do this by making the intermediate host, where they may reproduce asexually, more likely to be eaten by a predator at a higher trophic level which becomes the definitive host where the parasite reproduces sexually; the mechanism is therefore sometimes called parasite increased trophic facilitation or parasite increased trophic transmission. Examples can be found in bacteria, protozoa, viruses, and animals. Parasites may also alter the host behaviour to increase protection of the parasites or their offspring; the term bodyguard manipulation is used for such mechanisms.

Hammondia hammondi is a species of obligate heteroxenous parasitic alveolates of domestic cats. Intracellular cysts develop mainly in striated muscle. After the ingestion of cysts by cats, a multiplicative cycle precedes the development of gametocytes in the epithelium of the small intestine. Oocyst shedding persists for 10 to 28 days followed by immunity. Cysts in skeletal muscle measure between 100 and 340 μm in length and 40 and 95 μm in width. Some of the intermediate hosts develop low levels of antibody and some cross-immunity against Toxoplasma.

<span class="mw-page-title-main">Parasitophorous vacuole</span>

The parasitophorous vacuole (PV) is a structure produced by apicomplexan parasites in the cells of its host. The PV allows the parasite to develop while protected from the phagolysosomes of the host cell.

<i>Frozen Evolution</i>

Frozen Evolution is a 2008 book written by parasitologist Jaroslav Flegr, which aims to explain modern developments in evolutionary biology. It also contains information boxes which clarify important topics in science like peer review, scientific journals, citation metrics, philosophy of science, paradigm shifts, and Occam's razor. Flegr's previous research in toxoplasmosis is also mentioned.

References

  1. "Jaroslav Flegr – nakladatelství Academia". Archived from the original on 3 March 2016. Retrieved 12 May 2013.
  2. Hall, B.K. (2009). "A review of Frozen Evolution: Or That's Not the Way It is, Mr. Darwin, edited by Jaroslav Flegr". Evolution & Development. 11 (1): 126–129. doi:10.1111/j.1525-142X.2008.00310.x . Retrieved 24 June 2009.[ dead link ]
  3. Jaroslav Flegr University website
  4. Board of Editors Archived 16 September 2009 at the Wayback Machine Neuroendocrinology Letters website
  5. Flegr J (May 2007). "Effects of Toxoplasma on Human Behavior". Schizophr Bull. 33 (3): 757–60. doi:10.1093/schbul/sbl074. PMC   2526142 . PMID   17218612.
  6. Kanková S, Sulc J, Nouzová K, Fajfrlík K, Frynta D, Flegr J (February 2007). "Women infected with parasite Toxoplasma have more sons". Naturwissenschaften. 94 (2): 122–7. Bibcode:2007NW.....94..122K. doi:10.1007/s00114-006-0166-2. PMID   17028886. S2CID   9610443.
  7. Flegr J, Havlícek J, Kodym P, Malý M, Smahel Z (July 2002). "Increased risk of traffic accidents in subjects with latent toxoplasmosis: a retrospective case-control study". BMC Infect. Dis. 2: 11. doi: 10.1186/1471-2334-2-11 . PMC   117239 . PMID   12095427.
  8. Flegr J, Klose J, Novotná M, Berenreitterová M, Havlícek J (2009). "Increased incidence of traffic accidents in Toxoplasma-infected military drivers and protective effect RhD molecule revealed by a large-scale prospective cohort study". BMC Infect. Dis. 9: 72. doi: 10.1186/1471-2334-9-72 . PMC   2692860 . PMID   19470165.
  9. 1 2 McAuliffe, Kathleen (2012). "How Your Cat Is Making You Crazy." March issue.
  10. Catherine Price (13 March 2007). "Want a boy? Change the kitty litter". Salon.com. Retrieved 24 June 2009.
  11. Adam, David (25 September 2003). "Can a parasite carried by cats change your personality?". The Guardian. London. Retrieved 24 June 2009.
  12. "Cat bug link to 1m crashes". Edinburgh: Scotsman.com. 4 June 2009. Retrieved 24 June 2009.
  13. "Czech scientists make unique finding on Rh factor effect". Prague Monitor. Archived from the original on 7 June 2009. Retrieved 24 June 2009.
  14. Caroline Davis (8 August 2002). "Times Higher Education – Findings: 'Harmless' bug may be killer". Times Higher Education Supplement. Retrieved 24 June 2009.
  15. Flegr, Jaroslav (1999). Frozen Evolution: Or, That's Not the Way It Is, Mr. Darwin–Farewell to Selfish Gene. CIP Press (English translation).
  16. Flegr, Jaroslav (1999). Frozen Evolution, pp. 141–146, 149–156.
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