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Cristae-dependent quality control of the mitochondrial genome.

Authors :
Jakubke, Christopher
Jakubke, Christopher
Roussou, Rodaria
Maiser, Andreas
Schug, Christina
Thoma, Felix
Bunk, David
Hörl, David
Leonhardt, Heinrich
Walter, Peter
Klecker, Till
Osman, Christof
Jakubke, Christopher
Jakubke, Christopher
Roussou, Rodaria
Maiser, Andreas
Schug, Christina
Thoma, Felix
Bunk, David
Hörl, David
Leonhardt, Heinrich
Walter, Peter
Klecker, Till
Osman, Christof
Source :
Science advances; vol 7, iss 36, eabi8886; 2375-2548
Publication Year :
2021

Abstract

Mitochondrial genomes (mtDNA) encode essential subunits of the mitochondrial respiratory chain. Mutations in mtDNA can cause a shortage in cellular energy supply, which can lead to numerous mitochondrial diseases. How cells secure mtDNA integrity over generations has remained unanswered. Here, we show that the single-celled yeast Saccharomyces cerevisiae can intracellularly distinguish between functional and defective mtDNA and promote generation of daughter cells with increasingly healthy mtDNA content. Purifying selection for functional mtDNA occurs in a continuous mitochondrial network and does not require mitochondrial fission but necessitates stable mitochondrial subdomains that depend on intact cristae morphology. Our findings support a model in which cristae-dependent proximity between mtDNA and the proteins it encodes creates a spatial “sphere of influence,” which links a lack of functional fitness to clearance of defective mtDNA.

Details

Database :
OAIster
Journal :
Science advances; vol 7, iss 36, eabi8886; 2375-2548
Notes :
application/pdf, Science advances vol 7, iss 36, eabi8886 2375-2548
Publication Type :
Electronic Resource
Accession number :
edsoai.on1367392573
Document Type :
Electronic Resource