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Tetrapyrrole synthesis of photosynthetic chromerids is likely homologous to the unusual pathway of apicomplexan parasites
L. Koreny, R. Sobotka, J. Janouskovec, PJ. Keeling, M. Oborník,
Language English Country United States
Document type Journal Article, Research Support, Non-U.S. Gov't
NLK
Free Medical Journals
from 1989 to 1 year ago
Freely Accessible Science Journals
from 1989 to 12 months ago
ProQuest Central
from 1998-12-01 to 2012-08-31
Open Access Digital Library
from 1989-01-01
Health & Medicine (ProQuest)
from 1998-12-01 to 2012-08-31
- MeSH
- Acyl Coenzyme A metabolism MeSH
- Alveolata metabolism MeSH
- Chlorophyll biosynthesis MeSH
- Photosynthesis MeSH
- Phylogeny MeSH
- Glycine metabolism MeSH
- Molecular Sequence Data MeSH
- DNA, Protozoan genetics MeSH
- Sequence Analysis, DNA MeSH
- Tetrapyrroles biosynthesis MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
Most photosynthetic eukaryotes synthesize both heme and chlorophyll via a common tetrapyrrole biosynthetic pathway starting from glutamate. This pathway was derived mainly from cyanobacterial predecessor of the plastid and differs from the heme synthesis of the plastid-lacking eukaryotes. Here, we show that the coral-associated alveolate Chromera velia, the closest known photosynthetic relative to Apicomplexa, possesses a tetrapyrrole pathway that is homologous to the unusual pathway of apicomplexan parasites. We also demonstrate that, unlike other eukaryotic phototrophs, Chromera synthesizes chlorophyll from glycine and succinyl-CoA rather than glutamate. Our data shed light on the evolution of the heme biosynthesis in parasitic Apicomplexa and photosynthesis-related biochemical processes in their ancestors.
References provided by Crossref.org
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