Lack of mitochondrial citrate synthase discloses a new meiotic checkpoint in a strict aerobe

Mitochondrial citrate synthase (mCS) is the initial enzyme of the tricarboxylic acid (TCA) cycle. Despite the key position of this protein in respiratory metabolism, very few studies have addressed the question of the effects of the absence of mCS in development. Here we report on the characterizati...

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Bibliographic Details
Published in:The EMBO journal 2002-12, Vol.21 (23), p.6440-6451
Main Authors: Ruprich-Robert, Gwenaël, Zickler, Denise, Berteaux-Lecellier, Véronique, Vélot, Christian, Picard, Marguerite
Format: Article
Language:English
Subjects:
Ascomycota - physiology
Citrate (si)-Synthase - genetics
Citrate (si)-Synthase - metabolism
citrate synthase
development
EMBO06
EMBO21
Enzymatic activity
filamentous fungi
Fungal Proteins - genetics
Fungal Proteins - metabolism
meiosis
Meiosis - physiology
Membrane Proteins - genetics
Membrane Proteins - metabolism
Mitochondria - metabolism
Mutation
organelles
Peroxisomal Biogenesis Factor 2
Peroxisomes - metabolism
Yeasts
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Summary:Mitochondrial citrate synthase (mCS) is the initial enzyme of the tricarboxylic acid (TCA) cycle. Despite the key position of this protein in respiratory metabolism, very few studies have addressed the question of the effects of the absence of mCS in development. Here we report on the characterization of 15 point mutations and a complete deletion of the cit1 gene, which encodes mCS in the filamentous fungus Podospora anserina . This gene was identified genetically through a systematic search for suppressors of the metabolic defect of the peroxisomal pex2 mutants. The cit1 mutant strains exhibit no visible vegetative defects. However, they display an unexpected developmental phenotype: in homozygous crosses, cit1 mutations impair meiosis progression beyond the diffuse stage, a key stage of meiotic prophase. Enzyme assays, immunofluorescence and western blotting experiments show that the presence of the mCS protein is more important for completion of meiosis than its well‐known enzyme activity. Combined with observations made in budding yeast, our data suggest that there is a general metabolic checkpoint at the diffuse stage in eukaryotes.
ISSN:0261-4189
1460-2075
1460-2075
DOI:10.1093/emboj/cdf632