1991
Protein folding causes an arrest of preprotein translocation into mitochondria in vivo.
Wienhues U, Becker K, Schleyer M, Guiard B, Tropschug M, Horwich A, Pfanner N, Neupert W. Protein folding causes an arrest of preprotein translocation into mitochondria in vivo. Journal Of Cell Biology 1991, 115: 1601-1609. PMID: 1757464, PMCID: PMC2289212, DOI: 10.1083/jcb.115.6.1601.Peer-Reviewed Original ResearchMeSH KeywordsAminopterinBiological TransportIntracellular MembranesKineticsL-Lactate DehydrogenaseL-Lactate Dehydrogenase (Cytochrome)Membrane PotentialsMitochondriaProtein ConformationProtein PrecursorsProtein Processing, Post-TranslationalRecombinant Fusion ProteinsSaccharomyces cerevisiaeTetrahydrofolate DehydrogenaseConceptsMitochondrial protein uptakeTranslocation contact sitesAmino-terminal thirdStable tertiary structureDihydrofolate reductase domainImport pathwayPreprotein translocationHybrid proteinProtein foldingMitochondrial membraneTranslocation sitesContact sitesCytochrome b2Fusion proteinPolypeptide segmentsYeast cellsReductase domainTertiary structureProtein uptakeDihydrofolate reductaseProteinMitochondriaMembraneVivoFolding
1988
The processing peptidase of yeast mitochondria: the two co‐operating components MPP and PEP are structurally related.
Pollock R, Hartl F, Cheng M, Ostermann J, Horwich A, Neupert W. The processing peptidase of yeast mitochondria: the two co‐operating components MPP and PEP are structurally related. The EMBO Journal 1988, 7: 3493-3500. PMID: 3061797, PMCID: PMC454850, DOI: 10.1002/j.1460-2075.1988.tb03225.x.Peer-Reviewed Original ResearchConceptsMitochondrial processing peptidaseMitochondrial precursor proteinsProcessing peptidasePrecursor proteinMutant of SaccharomycesRemarkable sequence similarityYeast mitochondriaMPP geneSequence similarityHydrophilic proteinNovel peptidaseAmino acidsProteolytic cleavageProteinPeptidaseMutantsMitochondriaCommon originPresequenceSaccharomycesPEPGenesMutationsCleavageFunction