Publications by authors named "Michael W Woellhaf"

Article Synopsis
  • The study investigates how mitochondria import hundreds of preproteins, focusing on the role of N-terminal matrix-targeting signals (MTSs) that guide these proteins to mitochondrial receptors.
  • Researchers discovered that many preproteins also have internal MTS-like signals (iMTS-Ls) that can be predicted using computational methods, enhancing the proteins' interaction with receptor Tom70.
  • The import process is significantly less efficient without Tom70 for preproteins rich in iMTS-Ls, suggesting a model where Tom70 facilitates the transport of these proteins into the mitochondria.
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Whereas the structure and function of cytosolic ribosomes are well characterized, we only have a limited understanding of the mitochondrial translation apparatus. Using SILAC-based proteomic profiling, we identified 13 proteins that cofractionated with the mitochondrial ribosome, most of which play a role in translation or ribosomal biogenesis. One of these proteins is a homologue of the bacterial ribosome-silencing factor (Rsf).

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Members of the twin Cx9C protein family constitute the largest group of proteins in the intermembrane space (IMS) of mitochondria. Despite their conserved nature and their essential role in the biogenesis of the respiratory chain, the molecular function of twin Cx9C proteins is largely unknown. We performed a SILAC-based quantitative proteomic analysis to identify interaction partners of the conserved twin Cx9C protein Cox19.

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Whereas the structure and function of cytosolic ribosomes have been studied in great detail, we know surprisingly little about the structural basis of mitochondrial protein synthesis. Here we used cryoelectron tomography and subtomogram analysis to visualize mitoribosomes in isolated yeast mitochondria, avoiding perturbations during ribosomal purification. Most mitoribosomes reside in immediate proximity to the inner mitochondrial membrane, in line with their specialization in the synthesis of hydrophobic membrane proteins.

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MPV17 is a mitochondrial protein of unknown function, and mutations in MPV17 are associated with mitochondrial deoxyribonucleic acid (DNA) maintenance disorders. Here we investigated its most similar relative, MPV17L2, which is also annotated as a mitochondrial protein. Mitochondrial fractionation analyses demonstrate MPV17L2 is an integral inner membrane protein, like MPV17.

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Mitochondrial ribosomes of baker's yeast contain at least 78 protein subunits. All but one of these proteins are nuclear-encoded, synthesized on cytosolic ribosomes, and imported into the matrix for biogenesis. The import of matrix proteins typically relies on N-terminal mitochondrial targeting sequences that form positively charged amphipathic helices.

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Most mitochondrial proteins are synthesized in the cytosol and directed into the organelle; matrix proteins contain presequences that guide them through translocases in contact sites of the outer and inner membrane. In contrast, the import of many intermembrane space proteins depends on cysteine residues and the oxidoreductase Mia40. Here, we show that both import machineries can cooperate in the biogenesis of matrix proteins.

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The biogenesis of hydrophobic membrane proteins involves their cotranslational membrane integration in order to prevent their unproductive aggregation. In the cytosol of bacteria and eukaryotes, membrane targeting of ribosomes that synthesize membrane proteins is achieved by signal recognition particles (SRPs) and their cognate membrane-bound receptors. As is evident from the genomes of fully sequenced eukaryotes, mitochondria generally lack an SRP system.

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The terminal enzyme of the respiratory chain, cytochrome c oxidase, consists of a hydrophobic reaction center formed by three mitochondrially encoded subunits with which 9-10 nuclear encoded subunits are associated. The three core subunits are synthesized on mitochondrial ribosomes and inserted into the inner membrane in a co-translational reaction facilitated by the Oxa1 insertase. Oxa1 consists of an N-terminal insertase domain and a C-terminal ribosome-binding region.

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Mitochondria contain their own genome which codes for a small number of proteins. Most mitochondrial translation products are part of the membrane-embedded reaction centers of the respiratory chain complexes. In the yeast Saccharomyces cerevisiae, the expression of these proteins is regulated by translational activators that bind mitochondrial mRNAs, in most cases to their 5'-untranslated regions, and each mitochondrial mRNA appears to have its own translational activator(s).

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The present study explores the impact of the molecular size on the permeation of low-molecular-weight polyethylene glycols (PEG200-1500) through the plasma membrane of Jurkat cells under iso- and hypotonic conditions. To this end, we analyzed the cell volume responses to PEG-substituted solutions of different osmolalities (100-300 mOsm) using video microscopy. In parallel experiments, the osmotically induced changes in the membrane capacitance and cytosolic conductivity were measured by electrorotation (ROT).

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