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Biogenesis of Mitochondrial Metabolite Carriers

Patrick Horten, Lilia Colina-Tenorio, Heike Rampelt

2020Biomolecules52 citationsDOIOpen Access PDF

Abstract

Metabolite carriers of the mitochondrial inner membrane are crucial for cellular physiology since mitochondria contribute essential metabolic reactions and synthesize the majority of the cellular ATP. Like almost all mitochondrial proteins, carriers have to be imported into mitochondria from the cytosol. Carrier precursors utilize a specialized translocation pathway dedicated to the biogenesis of carriers and related proteins, the carrier translocase of the inner membrane (TIM22) pathway. After recognition and import through the mitochondrial outer membrane via the translocase of the outer membrane (TOM) complex, carrier precursors are ushered through the intermembrane space by hexameric TIM chaperones and ultimately integrated into the inner membrane by the TIM22 carrier translocase. Recent advances have shed light on the mechanisms of TOM translocase and TIM chaperone function, uncovered an unexpected versatility of the machineries, and revealed novel components and functional crosstalk of the human TIM22 translocase.

Topics & Concepts

Translocase of the outer membraneTranslocaseIntermembrane spaceATP–ADP translocaseMitochondrial carrierTranslocase of the inner membraneCell biologyMitochondrionBiogenesisBiologyInner membraneInner mitochondrial membraneProtein targetingCrosstalkCytosolMitochondrial intermembrane spaceChaperone (clinical)Bacterial outer membraneBiochemistryMitochondrial membrane transport proteinMembrane proteinMembraneChromosomal translocationPhysicsEscherichia coliEnzymePathologyGeneMedicineOpticsMitochondrial Function and PathologyATP Synthase and ATPases ResearchRNA modifications and cancer
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