A broad distribution of the alternative oxidase in microsporidian parasites

Microsporidia are a group of obligate intracellular parasitic eukaryotes that were considered to be amitochondriate until the recent discovery of highly reduced mitochondrial organelles called mitosomes. Analysis of the complete genome of Encephalitozoon cuniculi revealed a highly reduced set of pro...

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Bibliographic Details
Published in:PLoS pathogens 2010-02, Vol.6 (2), p.e1000761-e1000761
Main Authors: Williams, Bryony A P, Elliot, Catherine, Burri, Lena, Kido, Yasutoshi, Kita, Kiyoshi, Moore, Anthony L, Keeling, Patrick J
Format: Article
Language:English
Subjects:
Amino acids
Base Sequence
Blotting, Western
Cellular proteins
Colleges & universities
Conserved Sequence
Experiments
Fungal Proteins - chemistry
Fungal Proteins - genetics
Fungal Proteins - metabolism
Genes, Fungal
Genetic aspects
Genomes
Infectious Diseases/Protozoal Infections
Medical research
Microbiology/Microbial Evolution and Genomics
Microbiology/Parasitology
Microsporidia
Microsporidia - enzymology
Microsporidia - genetics
Mitochondria
Mitochondrial Proteins
Molecular Sequence Data
Oxidases
Oxidative phosphorylation
Oxidoreductases
Parasites
Phosphorylation
Phylogenetics
Phylogeny
Physiological aspects
Plant Proteins
Polymerase Chain Reaction
Proteins
Scholarships & fellowships
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Summary:Microsporidia are a group of obligate intracellular parasitic eukaryotes that were considered to be amitochondriate until the recent discovery of highly reduced mitochondrial organelles called mitosomes. Analysis of the complete genome of Encephalitozoon cuniculi revealed a highly reduced set of proteins in the organelle, mostly related to the assembly of iron-sulphur clusters. Oxidative phosphorylation and the Krebs cycle proteins were absent, in keeping with the notion that the microsporidia and their mitosomes are anaerobic, as is the case for other mitosome bearing eukaryotes, such as Giardia. Here we provide evidence opening the possibility that mitosomes in a number of microsporidian lineages are not completely anaerobic. Specifically, we have identified and characterized a gene encoding the alternative oxidase (AOX), a typically mitochondrial terminal oxidase in eukaryotes, in the genomes of several distantly related microsporidian species, even though this gene is absent from the complete genome of E. cuniculi. In order to confirm that these genes encode functional proteins, AOX genes from both A. locustae and T. hominis were over-expressed in E. coli and AOX activity measured spectrophotometrically using ubiquinol-1 (UQ-1) as substrate. Both A. locustae and T. hominis AOX proteins reduced UQ-1 in a cyanide and antimycin-resistant manner that was sensitive to ascofuranone, a potent inhibitor of the trypanosomal AOX. The physiological role of AOX microsporidia may be to reoxidise reducing equivalents produced by glycolysis, in a manner comparable to that observed in trypanosomes.
ISSN:1553-7374
1553-7366
1553-7374
DOI:10.1371/journal.ppat.1000761