Cephaloidophoridae | |
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Family: | Cephaloidophoridae |
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Cephaloidophoridae is a family of parasitic alveolates of the phylum Apicomplexia
There are three genera in this taxon and seventy named species.
This taxon was created by Kamm in 1922. [1]
Species in this family infect crustaceans and infect only a single host during their life cycle.
They are spread by the orofaecal route and infect the intestine of the host.
Their early development is within the cells of the intestine. Once mature they rupture the cell and escape into the intestinal lumen.
The primite is distinguishable from satellite.
The parasites associate with one another prior to syzygy in a head to tail (caudofrontal) fashion.
There is marked anisogamy.
The gametocysts open by simple rupture;
The oocysts are ovoid or spherical in shape. There is a protruding equatorial ridge but there is no distinct epispore;
The Apicomplexa are organisms of a large phylum of mainly parasitic alveolates. Most possess a unique form of organelle structure that comprises a type of (non-photosynthetic) plastid called an apicoplast—with an apical complex membrane. The organelle's apical shape is an adaptation that the apicomplexan applies in penetrating a host cell.
Retortamonas is a genus of flagellated excavates. It is one of only two genera belonging to the family Retortamonadidae along with the genus Chilomastix. The genus parasitizes a large range of hosts including humans. Species within this genus are considered harmless commensals which reside in the intestine of their host. The wide host diversity is a useful factor given that species are distinguished based on their host rather than morphology. This is because all species share similar morphology, which would present challenges when trying to make classifications based on structural anatomy. Although Retortamonas currently includes over 25 known species, it is possible that some defined species are synonymous, given that such overlapping species have been discovered in the past. Further efforts into learning about this genus must be done such as cross-transmission testing as well as biochemical and genetic studies. One of the most well-known species within this genus is Retortamonas intestinalis, a human parasite that lives in the large intestine of humans.
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.
The Archigregarinorida are an order of parasitic alveolates in the phylum Apicomplexa. Species in this order infect marine invertebrates — usually annelids, ascidians, hemichordates and sipunculids.
The Neogregarinorida are an order of parasitic alveolates in the phylum Apicomplexa. Species in this order infect insects and are usually found in the fat body, hemolymph, hypodermis, intestine or Malpighian tubules. The most common site of infection is the fat body: many species are pathogenic for their hosts.
The Eugregarinorida are the most large and diverse order of gregarines — parasitic protists belonging to the phylum Apicomplexa. Eugregarines are found in marine, freshwater and terrestrial habitats. These species possess large trophozoites that are significantly different in morphology and behavior from the sporozoites. This taxon contains most of the known gregarine species.
Siedleckia are a genus of parasitic alveolates in the phylum Apicomplexa. Species in this genus infect marine invertebrates.
Allantocystis is a genus in the family Allantocystidae. Its only species is Allantocystis dasyhelei, a gregarine parasite of the larval biting midge Dasyhelea obscura.
The Ganymedidae are a family of parasites in the phylum Apicomplexa.
Septatorina is a suborder of parasitic alveolates of the phylum Apicomplexa
Porosporidae is a family of parasitic alveolates of the phylum Apicomplexia
Stylocephaloidea is a superfamily of parasitic alveolates of the phylum Apicomplexia
Actinocephalidae is a family of parasitic alveolates of the phylum Apicomplexia
Stylocephalidae is a family of parasitic alveolates of the phylum Apicomplexia
Stylocephaloidea is a superfamily of parasites of the phylum Apicomplexia.
Apicystis is a genus of parasitic alveolates of the phylum Apicomplexa.
Siedleckiidae is a family of parasitic alveolates in the phylum Apicomplexa. Species in this family infect marine invertebrates.
Nematopsis (Nee-mah-top-cis) is a genus gregarine Apicomplexan of the family Porosporidae. It is an aquatic parasite of crustaceans with a molluscan intermediate host. Nematopsis has been distinguished from the similar genus Porospora by its resistant and encapsulated oocyst. Little molecular biology has been performed on the members of the Nemaptosis and species are described based on molluscan and crustacean hosts as well as oocyst structure. A total of 38 species have been described and are found all over the world.
Gregarina garnhami is a eukaryotic unicellular organism belonging to the Apicomplexa described in 1956 by Canning as a parasite found in several locusts, such as the desert locust, African migratory locust, and Egyptian locust. Especially, the desert locust is the host for this species, as up to 100% of animals can become infected. An estimated thousands of different species of gregarines can be in insects and 99% of these gregarines still need to be described. Each insect is said to host multiple species. A remarkable feature of G. garnhami is its autofluorescence.
Urospora is a genus of apicomplexan gregarines.