scholarly article | Q13442814 |
P50 | author | Agnieszka Chacińska | Q21252754 |
Diana Stojanovski | Q30172091 | ||
P2093 | author name string | Judith M Müller | |
Kipros Gabriel | |||
Michael T Ryan | |||
Dusanka Milenkovic | |||
Nikolaus Pfanner | |||
Michael J Baker | |||
Bernard Guiard | |||
Agnes Schulze-Specking | |||
P2860 | cites work | Crystal structure of the mitochondrial chaperone TIM9.10 reveals a six-bladed alpha-propeller | Q24300166 |
Functional and mutational characterization of human MIA40 acting during import into the mitochondrial intermembrane space | Q24336828 | ||
Unfolded cholera toxin is transferred to the ER membrane and released from protein disulfide isomerase upon oxidation by Ero1 | Q24674605 | ||
Oxidative protein folding in eukaryotes: mechanisms and consequences | Q24676827 | ||
A new FAD-binding fold and intersubunit disulfide shuttle in the thiol oxidase Erv2p | Q27636724 | ||
Domain architecture of protein-disulfide isomerase facilitates its dual role as an oxidase and an isomerase in Ero1p-mediated disulfide formation. | Q27930000 | ||
The essential mitochondrial protein Erv1 cooperates with Mia40 in biogenesis of intermembrane space proteins | Q27931567 | ||
Mia40, a novel factor for protein import into the intermembrane space of mitochondria is able to bind metal ions | Q27932936 | ||
Yeast ERV2p is the first microsomal FAD-linked sulfhydryl oxidase of the Erv1p/Alrp protein family | Q27933986 | ||
The sulfhydryl oxidase Erv1 is a substrate of the Mia40-dependent protein translocation pathway | Q27934156 | ||
Machinery for protein sorting and assembly in the mitochondrial outer membrane | Q27935206 | ||
Identification of Tim40 that mediates protein sorting to the mitochondrial intermembrane space | Q27936641 | ||
Essential role of Mia40 in import and assembly of mitochondrial intermembrane space proteins | Q27936684 | ||
A disulfide relay system in the intermembrane space of mitochondria that mediates protein import | Q27937691 | ||
Protein insertion into the mitochondrial inner membrane by a twin-pore translocase | Q27938044 | ||
The role of Hot13p and redox chemistry in the mitochondrial TIM22 import pathway | Q27939814 | ||
A flavoprotein oxidase defines a new endoplasmic reticulum pathway for biosynthetic disulphide bond formation | Q27940305 | ||
Translocation of proteins into mitochondria | Q29616478 | ||
Chaperone activity with a redox switch | Q33852523 | ||
The Tim9p-Tim10p complex binds to the transmembrane domains of the ADP/ATP carrier | Q34086079 | ||
Oxidative protein folding in bacteria | Q34124799 | ||
Functional cooperation and separation of translocators in protein import into mitochondria, the double-membrane bounded organelles | Q35176282 | ||
The small Tim proteins and the twin Cx3C motif | Q35632006 | ||
A disulfide relay system in mitochondria | Q36179912 | ||
Precursor oxidation by Mia40 and Erv1 promotes vectorial transport of proteins into the mitochondrial intermembrane space | Q36325895 | ||
Conservation and diversity of the cellular disulfide bond formation pathways. | Q36505595 | ||
Evolution of the molecular machines for protein import into mitochondria | Q36542525 | ||
Catch me if you can! Oxidative protein trapping in the intermembrane space of mitochondria | Q36740906 | ||
Import of proteins into mitochondria | Q36796315 | ||
Four cysteines of the membrane protein DsbB act in concert to oxidize its substrate DsbA. | Q38289355 | ||
The N-terminal cysteine pair of yeast sulfhydryl oxidase Erv1p is essential for in vivo activity and interacts with the primary redox centre | Q44373795 | ||
Snapshots of DsbA in action: detection of proteins in the process of oxidative folding | Q44739250 | ||
Functional TIM10 chaperone assembly is redox-regulated in vivo. | Q44770006 | ||
Erv1 mediates the Mia40-dependent protein import pathway and provides a functional link to the respiratory chain by shuttling electrons to cytochrome c. | Q46721833 | ||
Functional characterization of Mia40p, the central component of the disulfide relay system of the mitochondrial intermembrane space | Q46932989 | ||
Biogenesis of the essential Tim9-Tim10 chaperone complex of mitochondria: site-specific recognition of cysteine residues by the intermembrane space receptor Mia40. | Q54440157 | ||
Crystal structure of the DsbB-DsbA complex reveals a mechanism of disulfide bond generation. | Q54451866 | ||
Oxidative folding of small Tims is mediated by site-specific docking onto Mia40 in the mitochondrial intermembrane space | Q57832371 | ||
Opening the door to mitochondrial protein import | Q77293044 | ||
A railroad switch in mitochondrial protein import | Q81661910 | ||
P4510 | describes a project that uses | ImageQuant | Q112270642 |
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P1104 | number of pages | 8 | |
P304 | page(s) | 195-202 | |
P577 | publication date | 2008-10-13 | |
P1433 | published in | Journal of Cell Biology | Q1524550 |
P1476 | title | Mitochondrial protein import: precursor oxidation in a ternary complex with disulfide carrier and sulfhydryl oxidase | |
P478 | volume | 183 |
Q34036402 | A small molecule inhibitor of redox-regulated protein translocation into mitochondria |
Q37315634 | Augmenter of liver regeneration: substrate specificity of a flavin-dependent oxidoreductase from the mitochondrial intermembrane space. |
Q24338334 | COA6 is a mitochondrial complex IV assembly factor critical for biogenesis of mtDNA-encoded COX2 |
Q28277615 | Cellular copper distribution: a mechanistic systems biology approach |
Q38134298 | Common players in mitochondria biogenesis and neuronal protection against stress-induced apoptosis |
Q42660664 | Deciphering structural and functional roles of individual disulfide bonds of the mitochondrial sulfhydryl oxidase Erv1p. |
Q46104406 | Disulfide bond formation: sulfhydryl oxidase ALR controls mitochondrial biogenesis of human MIA40. |
Q37508527 | Disulfide formation in the ER and mitochondria: two solutions to a common process. |
Q37589938 | Disulphide bond formation in the intermembrane space of mitochondria |
Q46177582 | Erv1 of Arabidopsis thaliana can directly oxidize mitochondrial intermembrane space proteins in the absence of redox-active Mia40. |
Q37139210 | Folding and biogenesis of mitochondrial small Tim proteins. |
Q41838204 | Identification of the signal directing Tim9 and Tim10 into the intermembrane space of mitochondria |
Q29616477 | Importing mitochondrial proteins: machineries and mechanisms |
Q36312207 | In vivo evidence for cooperation of Mia40 and Erv1 in the oxidation of mitochondrial proteins. |
Q27933826 | Mdm35p imports Ups proteins into the mitochondrial intermembrane space by functional complex formation |
Q38048758 | Mechanisms of protein sorting in mitochondria |
Q37436101 | Metal acquisition and availability in the mitochondria |
Q34481176 | Mia40 Protein Serves as an Electron Sink in the Mia40-Erv1 Import Pathway |
Q53394237 | Mistargeted mitochondrial proteins activate a proteostatic response in the cytosol. |
Q38932389 | Mitochondrial disulfide relay and its substrates: mechanisms in health and disease. |
Q37966824 | Mitochondrial disulfide relay: redox-regulated protein import into the intermembrane space |
Q38076092 | Mitochondrial protein homeostasis |
Q42730868 | Mitochondrial protein import: Mia40 facilitates Tim22 translocation into the inner membrane of mitochondria |
Q37781692 | Mitochondrial protein import: from proteomics to functional mechanisms |
Q24306303 | Molecular chaperone function of Mia40 triggers consecutive induced folding steps of the substrate in mitochondrial protein import |
Q27667208 | Molecular recognition and substrate mimicry drive the electron-transfer process between MIA40 and ALR |
Q28076268 | Oxidative folding in the mitochondrial intermembrane space: A regulated process important for cell physiology and disease |
Q34540380 | Oxidative protein biogenesis and redox regulation in the mitochondrial intermembrane space |
Q37239824 | Oxidative protein-folding systems in plant cells |
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Q49178955 | Quantitative proteomics identifies redox switches for global translation modulation by mitochondrially produced reactive oxygen species |
Q30155250 | Role of mitochondrial inner membrane organizing system in protein biogenesis of the mitochondrial outer membrane |
Q36225755 | Role of twin Cys-Xaa9-Cys motif cysteines in mitochondrial import of the cytochrome C oxidase biogenesis factor Cmc1. |
Q27653002 | Structural and Functional Requirements for Activity of the Tim9-Tim10 Complex in Mitochondrial Protein Import |
Q27656955 | Structural basis of yeast Tim40/Mia40 as an oxidative translocator in the mitochondrial intermembrane space |
Q27662931 | Structure of the Human Sulfhydryl Oxidase Augmenter of Liver Regeneration and Characterization of a Human Mutation Causing an Autosomal Recessive Myopathy, |
Q90631910 | Structure of the mitochondrial import gate reveals distinct preprotein paths |
Q36000618 | The MIA pathway: a key regulator of mitochondrial oxidative protein folding and biogenesis. |
Q36289560 | The Oxidation Status of Mic19 Regulates MICOS Assembly |
Q38172143 | The mitochondrial disulfide relay system: roles in oxidative protein folding and beyond |
Q37418894 | The power of yeast to model diseases of the powerhouse of the cell. |
Q36970666 | The presence of disulfide bonds reveals an evolutionarily conserved mechanism involved in mitochondrial protein translocase assembly |
Q36827087 | The ubiquitin-proteasome system regulates mitochondrial intermembrane space proteins |
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