Mitochondria and hydrogenosomes are two forms of the same fundamental organelle

Published data suggest that hydrogenosomes, organelles found in diverse anaerobic eukaryotes that make energy and hydrogen, were once mitochondria. As hydrogenosomes generally lack a genome, the conversion is probably one way. The sources of the key hydrogenosomal enzymes, pyruvate : ferredoxin oxid...

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Published in:Philosophical transactions of the Royal Society of London. Series B. Biological sciences 2003-01, Vol.358 (1429), p.191-203
Main Authors: Embley, Martin, der Giezen, Mark van, Horner, David S., Dyal, Patricia L., Foster, Peter
Format: Article
Language:English
Subjects:
Anaerobiosis
Biological Evolution
Endosymbionts
Enzymes
Eukaryotic cells
Eukaryotic Cells - cytology
Eukaryotic Cells - enzymology
Eukaryotic Cells - metabolism
Eukaryotic Evolution
Evolution
Fungi
Genomes
Hydrogen
Hydrogen - metabolism
Hydrogenase
Hydrogenase - genetics
Hydrogenase - metabolism
Hydrogenosomes
Mitochondria
Mitochondria - metabolism
Organelles
Organelles - metabolism
Phylogeny
Proteins
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Summary:Published data suggest that hydrogenosomes, organelles found in diverse anaerobic eukaryotes that make energy and hydrogen, were once mitochondria. As hydrogenosomes generally lack a genome, the conversion is probably one way. The sources of the key hydrogenosomal enzymes, pyruvate : ferredoxin oxidoreductase (PFO) and hydrogenase, are not resolved by current phylogenetic analyses, but it is likely that both were present at an early stage of eukaryotic evolution. Once thought to be restricted to a few unusual anaerobic eukaryotes, the proteins are intimately integrated into the fabric of diverse eukaryotic cells, where they are targeted to different cell compartments, and not just hydrogenosomes. There is no evidence supporting the view that PFO and hydrogenase originated from the mitochondrial endosymbiont, as posited by the hydrogen hypothesis for eukaryogenesis. Other organelles derived from mitochondria have now been described in anaerobic and parasitic microbial eukaryotes, including species that were once thought to have diverged before the mitochondrial symbiosis. It thus seems possible that all eukaryotes may eventually be shown to contain an organelle of mitochondrial ancestry, to which different types of biochemistry can be targeted. It remains to be seen if, despite their obvious differences, this family of organelles shares a common function of importance for the eukaryotic cell, other than energy production, that might provide the underlying selection pressure for organelle retention.
ISSN:0962-8436
1471-2970
DOI:10.1098/rstb.2002.1190