2015
DOI: 10.1073/pnas.1423790112
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Factors mediating plastid dependency and the origins of parasitism in apicomplexans and their close relatives

Abstract: Apicomplexans are a major lineage of parasites, including causative agents of malaria and toxoplasmosis. How such highly adapted parasites evolved from free-living ancestors is poorly understood, particularly because they contain nonphotosynthetic plastids with which they have a complex metabolic dependency. Here, we examine the origin of apicomplexan parasitism by resolving the evolutionary distribution of several key characteristics in their closest free-living relatives, photosynthetic chromerids and predat… Show more

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Cited by 181 publications
(202 citation statements)
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“…The pattern of plastid dependency in dinoflagellates parallels that in apicomplexans and chrompodellids [chromerids and colpodellids (47)] and reinforces conclusions that their common ancestor had a plastid (46) and was reliant on it for isoprenoid units after it lost the capability to synthesize them in the cytosol (47). Despite rare secondary losses of plastids in certain parasites (50,57) and ongoing uncertainties about plastid presence in some organisms (e.g., gregarines, Psammosa, Eudubosquella), plastids are indispensable in all free-living members of this group yet examined (Fig.…”
Section: Cyanobacteria (N=17)supporting
confidence: 72%
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“…The pattern of plastid dependency in dinoflagellates parallels that in apicomplexans and chrompodellids [chromerids and colpodellids (47)] and reinforces conclusions that their common ancestor had a plastid (46) and was reliant on it for isoprenoid units after it lost the capability to synthesize them in the cytosol (47). Despite rare secondary losses of plastids in certain parasites (50,57) and ongoing uncertainties about plastid presence in some organisms (e.g., gregarines, Psammosa, Eudubosquella), plastids are indispensable in all free-living members of this group yet examined (Fig.…”
Section: Cyanobacteria (N=17)supporting
confidence: 72%
“…Despite rare secondary losses of plastids in certain parasites (50,57) and ongoing uncertainties about plastid presence in some organisms (e.g., gregarines, Psammosa, Eudubosquella), plastids are indispensable in all free-living members of this group yet examined (Fig. 3A) (47,48), including multiple uncultured forms (58). This pattern suggests that the metabolic dependency on plastids in free-living species cannot be bypassed by obtaining the relevant compounds from the environment or ingested prey (Fig.…”
Section: Cyanobacteria (N=17)mentioning
confidence: 99%
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