Proteomics

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The ER protein Ema19 facilitates the degradation of non-imported mitochondrial precursor proteins


ABSTRACT: For the biogenesis of mitochondria, hundreds of proteins need to be targeted from the cytosol into the various compartments of this organelle. The intramitochondrial targeting routes these proteins take to reach their respective location in the organelle are well understood. However, the early targeting processes, from cytosolic ribosomes to the membrane of the organelle, are still largely unknown. In this study, we present evidence that an integral membrane protein of the endoplasmic reticulum (ER), Ema19, plays a role in this process. Mutants lacking Ema19 show an increased stability of mitochondrial precursor proteins, indicating that Ema19 promotes the proteolytic degradation of non-productive precursors. The deletion of Ema19 improves the growth of respiration-deficient cells, suggesting that Ema19-mediated degradation can compete with productive protein import into mitochondria. Ema19 is the yeast representative of a conserved protein family. The human Ema19 homolog is known as sigma-2 receptor or TMEM97. Though its molecular function is not known, previous studies suggested a role of the sigma-2 receptor as a quality control factor in the ER, compatible with our observations about Ema19. More globally our data provide an additional demonstration of the important role of the ER in mitochondrial protein targeting.

INSTRUMENT(S): Q Exactive HF

ORGANISM(S): Saccharomyces Cerevisiae (baker's Yeast) Chlamydomonas Reinhardtii

TISSUE(S): Cell Suspension Culture

SUBMITTER: Markus Räschle  

LAB HEAD: Zuzana Storchova

PROVIDER: PXD022660 | Pride | 2021-03-24

REPOSITORIES: Pride

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Publications


For the biogenesis of mitochondria, hundreds of proteins need to be targeted from the cytosol into the various compartments of this organelle. The intramitochondrial targeting routes these proteins take to reach their respective location in the organelle are well understood. However, the early targeting processes, from cytosolic ribosomes to the membrane of the organelle, are still largely unknown. In this study, we present evidence that an integral membrane protein of the endoplasmic reticulum  ...[more]

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