Kaye N. Truscott scite author profile

Mitochondria import nuclear‐encoded precursor proteins to four different subcompartments. Specific import machineries have been identified that direct the precursor proteins to the mitochondrial outer membrane, inner membrane or matrix, respectively. However, a machinery dedicated to the import of mitochondrial intermembrane space (IMS) proteins has not been found so far. We have identified the essential IMS protein Mia40 (encoded by the Saccharomyces cerevisiae open reading frame YKL195w). Mitochondria with a mutant form of Mia40 are selectively inhibited in the import of several small IMS proteins, including the essential proteins Tim9 and Tim10. The import of proteins to the other mitochondrial subcompartments does not depend on functional Mia40. The binding of small Tim proteins to Mia40 is crucial for their transport across the outer membrane and represents an initial step in their assembly into IMS complexes. We conclude that Mia40 is a central component of the protein import and assembly machinery of the mitochondrial IMS.

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Mitochondrial Presequence Translocase: Switching between TOM Tethering and Motor Recruitment Involves Tim21 and Tim17

Chacińska

Lind

Frazier

et al. 2005

Cell

333

457

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The presequence translocase of the inner mitochondrial membrane (TIM23 complex) operates at a central junction of protein import. It accepts preproteins from the outer membrane TOM complex and directs them to inner membrane insertion or, in cooperation with the presequence translocase-associated motor (PAM), to the matrix. Little is known of how the TIM23 complex coordinates these tasks. We have identified Tim21 (YGR033c) that interacts with the TOM complex. Tim21 is specific for a TIM23 form that cooperates with TOM and promotes inner membrane insertion. Protein translocation into the matrix requires a switch to a Tim21-free, PAM bound presequence translocase. Tim17 is crucial for the switch by performing two separable functions: promotion of inner membrane insertion and binding of Pam18 to form the functional TIM-PAM complex. Thus, the presequence translocase is not a static complex but switches between TOM tethering and PAM binding in a reaction cycle involving Tim21 and Tim17.

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Protein Insertion into the Mitochondrial Inner Membrane by a Twin-Pore Translocase

Rehling

Model

Brandner

et al. 2003

Science

282

258

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The mitochondrial inner membrane imports numerous proteins that span it multiple times using the membrane potential Deltapsi as the only external energy source. We purified the protein insertion complex (TIM22 complex), a twin-pore translocase that mediated the insertion of precursor proteins in a three-step process. After the precursor is tethered to the translocase without losing energy from the Deltapsi, two energy-requiring steps were needed. First, Deltapsi acted on the precursor protein and promoted its docking in the translocase complex. Then, Deltapsi and an internal signal peptide together induced rapid gating transitions in one pore and closing of the other pore and drove membrane insertion to completion. Thus, protein insertion was driven by the coordinated action of a twin-pore complex in two voltage-dependent steps.

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Isolation of Yeast Mitochondria

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Often preparations of isolated organelles contain other, unwanted, cellular components. For biochemical experiments to determine the localization of newly identified proteins, or to determine the whole set of proteins (or the proteome) from a desired organelle, these unwanted components often confuse the resulting data. For these types of studies, it is crucial to have highly pure fractions of the desired organelle. Here we describe a protocol for purification of mitochondria from Saccharomyces cerevisiae cells devoid of contamination from other cellular compartments.

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Kaye N. Truscott

Essential role of Mia40 in import and assembly of mitochondrial intermembrane space proteins

Mitochondrial Presequence Translocase: Switching between TOM Tethering and Motor Recruitment Involves Tim21 and Tim17

Protein Insertion into the Mitochondrial Inner Membrane by a Twin-Pore Translocase

Isolation of Yeast Mitochondria

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