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Biogenesis pathways of α-helical mitochondrial outer membrane proteins

Layla Drwesh, Doron Rapaport

2020Biological Chemistry41 citationsDOI

Abstract

Mitochondria harbor in their outer membrane (OM) proteins of different topologies. These proteins are encoded by the nuclear DNA, translated on cytosolic ribosomes and inserted into their target organelle by sophisticated protein import machineries. Recently, considerable insights have been accumulated on the insertion pathways of proteins into the mitochondrial OM. In contrast, little is known regarding the early cytosolic stages of their biogenesis. It is generally presumed that chaperones associate with these proteins following their synthesis in the cytosol, thereby keeping them in an import-competent conformation and preventing their aggregation and/or mis-folding and degradation. In this review, we outline the current knowledge about the biogenesis of different mitochondrial OM proteins with various topologies, and highlight the recent findings regarding their import pathways starting from early cytosolic events until their recognition on the mitochondrial surface that lead to their final insertion into the mitochondrial OM.

Topics & Concepts

CytosolBiogenesisCell biologyOrganelle biogenesisMitochondrionMitochondrial membrane transport proteinOrganelleRibosomeProtein targetingBacterial outer membraneTranslocase of the inner membraneMembrane proteinBiologyTranslocase of the outer membraneMitochondrial biogenesisChemistryBiochemistryInner mitochondrial membraneMembraneGeneRNAEnzymeEscherichia coliMitochondrial Function and PathologyATP Synthase and ATPases ResearchHeat shock proteins research
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