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Systematic analysis of nuclear gene function in respiratory growth and expression of the mitochondrial genome in S. cerevisiae

Maria Stenger, Duy Tung Le, Till Klecker, Benedikt Westermann

2020Microbial Cell26 citationsDOIOpen Access PDF

Abstract

Systematic analysis of nuclear gene function in respiratory growth and expression of the mitochondrial genome in S. cerevisiae – The production of metabolic energy in form of ATP by oxidative phosphorylation depends on the coordinated action of hundreds of nuclear-encoded mitochondrial proteins and a handful of proteins encoded by the mitochondrial genome (mtDNA). We used the yeast Saccharomyces cerevisiae as a model system to systematically identify the genes contributing to this process. Integration of genome-wide high-throughput growth assays with previously published large data sets allowed us to define with high confidence a set of 254 nuclear genes that are indispensable for respiratory growth. Next, we induced loss of mtDNA in the yeast deletion collection by growth on ethidium bromide-containing medium and identified twelve genes that are essential for viability in the absence of mtDNA (i.e. petite-negative). Replenishment of mtDNA by cytoduction showed that respiratory (...)

Topics & Concepts

BiologyMitochondrial DNANuclear geneSaccharomyces cerevisiaeGeneRespiratory chainMitochondrionGenomeGeneticsMitochondrial diseaseMitochondrial respiratory chainMitochondrial Function and PathologyFungal and yeast genetics researchMicrobial Metabolic Engineering and Bioproduction