1998
Folding in vivo of a newly translated yeast cytosolic enzyme is mediated by the SSA class of cytosolic yeast Hsp70 proteins
Kim S, Schilke B, Craig E, Horwich A. Folding in vivo of a newly translated yeast cytosolic enzyme is mediated by the SSA class of cytosolic yeast Hsp70 proteins. Proceedings Of The National Academy Of Sciences Of The United States Of America 1998, 95: 12860-12865. PMID: 9789005, PMCID: PMC23633, DOI: 10.1073/pnas.95.22.12860.Peer-Reviewed Original ResearchConceptsOrnithine transcarbamoylaseYeast cytosolic enzymesCytosolic enzymeNative stateCytosolic Hsp70 proteinsGalpha transducinCytosolic chaperoninEukaryotic cytosolYeast Hsp70Chaperone actionPosttranslational mannerYeast cytosolCytosolic proteinsHSP70 proteinHomotrimeric enzymeProteinSpecific activity
1993
Protein folding in the cell: functions of two families of molecular chaperone, hsp 60 and TF55-TCP1
Horwich A, Willison K. Protein folding in the cell: functions of two families of molecular chaperone, hsp 60 and TF55-TCP1. Philosophical Transactions Of The Royal Society B Biological Sciences 1993, 339: 313-326. PMID: 8098536, DOI: 10.1098/rstb.1993.0030.Peer-Reviewed Original Research
1992
Two related genes encoding extremely hydrophobic proteins suppress a lethal mutation in the yeast mitochondrial processing enhancing protein.
West A, Clark D, Martin J, Neupert W, Hartl F, Horwich A. Two related genes encoding extremely hydrophobic proteins suppress a lethal mutation in the yeast mitochondrial processing enhancing protein. Journal Of Biological Chemistry 1992, 267: 24625-24633. PMID: 1447206, DOI: 10.1016/s0021-9258(18)35810-1.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceBase SequenceChromosomes, FungalDNA, FungalGenes, FungalGenes, LethalGenes, SuppressorGenotypeMitochondriaMolecular Sequence DataMutationOpen Reading FramesPeptidesPlasmidsProtein ConformationRestriction MappingSaccharomyces cerevisiaeSequence DeletionSequence Homology, Amino AcidSuppression, GeneticTemperatureConceptsProtein importHydrophobic proteinsNH2-terminal signal peptideYeast genomic libraryNonfermentable carbon sourcesProteins of mitochondriaMitochondrial membrane proteinPrecursor proteinHigh-copy plasmidMitochondrial processingProtein translocationGenomic libraryPEP geneGrowth defectChromosomal genesMembrane proteinsMitochondrial matrixSignal peptideGenetic suppressionLethal mutationsMitochondrial membraneDouble disruptionRelated genesSequence analysisProteolytic removalPrevention of Protein Denaturation Under Heat Stress by the Chaperonin Hsp60
Martin J, Horwich A, Hartl F. Prevention of Protein Denaturation Under Heat Stress by the Chaperonin Hsp60. Science 1992, 258: 995-998. PMID: 1359644, DOI: 10.1126/science.1359644.Peer-Reviewed Original ResearchConceptsDihydrofolate reductaseShock proteinsMitochondrial heat shock protein 60Native dihydrofolate reductaseHeat shock proteinsVariety of polypeptidesPreexisting proteinsChaperonin Hsp60Hsp60 familyEnvironmental stressHeat shock protein 60Shock protein 60Stress conditionsHeat stressProteinGeneral mechanismPhysiological responsesProtein 60HSP60Cellular structureThermal denaturationProtein denaturationOrganellesDenaturationRefoldingAntifolding activity of hsp60 couples protein import into the mitochondrial matrix with export to the intermembrane space
Koll H, Guiard B, Rassow J, Ostermann J, Horwich A, Neupert W, Hartl F. Antifolding activity of hsp60 couples protein import into the mitochondrial matrix with export to the intermembrane space. Cell 1992, 68: 1163-1175. PMID: 1347713, DOI: 10.1016/0092-8674(92)90086-r.Peer-Reviewed Original ResearchMeSH KeywordsBase SequenceBiological TransportChaperonin 60ChaperoninsFungal ProteinsHeat-Shock ProteinsL-Lactate DehydrogenaseL-Lactate Dehydrogenase (Cytochrome)MitochondriaMolecular Sequence DataProtein ConformationProtein Sorting SignalsProteinsRecombinant Fusion ProteinsSaccharomyces cerevisiae
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 reductaseProteinMitochondriaMembraneVivoFoldingA molecular chaperone from a thermophilic archaebacterium is related to the eukaryotic protein t-complex polypeptide-1
Trent J, Nimmesgern E, Wall J, Hartl F, Horwich A. A molecular chaperone from a thermophilic archaebacterium is related to the eukaryotic protein t-complex polypeptide-1. Nature 1991, 354: 490-493. PMID: 1836250, DOI: 10.1038/354490a0.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphatasesAmino Acid SequenceAnimalsArchaeal ProteinsBacterial ProteinsBase SequenceDNA-Binding ProteinsHeat-Shock ProteinsIntracellular Signaling Peptides and ProteinsMiceMicrotubule-Associated ProteinsMolecular ChaperonesMolecular Sequence DataNuclear ProteinsSaccharomyces cerevisiaeSequence Homology, Nucleic AcidSulfolobusT-Complex Genome RegionTemperatureUbiquitin-Protein LigasesConceptsComplex polypeptide 1Molecular chaperonesEukaryotic cytosolThermophilic archaebacteriumPolypeptide 1Ubiquitous eukaryotic proteinThermophilic factor 55Homo-oligomeric complexesMajor heat shock proteinsHeat shock proteinsChaperone componentsEukaryotic proteinsEssential proteinsProtein TAbundant proteinsSulfolobus shibataeComplex bindsS. shibataeChaperonesPrimary structureTF55ChaperoninProteinArchaebacteriaTCP1
1989
Mitochondrial heat-shock protein hsp60 is essential for assembly of proteins imported into yeast mitochondria
Cheng M, Hartl F, Martin J, Pollock R, Kalousek F, Neuper W, Hallberg E, Hallberg R, Horwich A. Mitochondrial heat-shock protein hsp60 is essential for assembly of proteins imported into yeast mitochondria. Nature 1989, 337: 620-625. PMID: 2645524, DOI: 10.1038/337620a0.Peer-Reviewed Original ResearchMeSH KeywordsFungal ProteinsGenesGenes, FungalHeat-Shock ProteinsMitochondriaMutationPlasmidsProtein Processing, Post-TranslationalSaccharomyces cerevisiae
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 ResearchMeSH KeywordsAmino Acid SequenceBase SequenceDNA, FungalEndopeptidasesMitochondriaMolecular Sequence DataMutationProtein PrecursorsSaccharomyces cerevisiaeTemperatureConceptsMitochondrial processing peptidaseMitochondrial precursor proteinsProcessing peptidasePrecursor proteinMutant of SaccharomycesRemarkable sequence similarityYeast mitochondriaMPP geneSequence similarityHydrophilic proteinNovel peptidaseAmino acidsProteolytic cleavageProteinPeptidaseMutantsMitochondriaCommon originPresequenceSaccharomycesPEPGenesMutationsCleavageFunction
1987
Import and processing of human ornithine transcarbamoylase precursor by mitochondria from Saccharomyces cerevisiae.
Cheng M, Pollock R, Hendrick J, Horwich A. Import and processing of human ornithine transcarbamoylase precursor by mitochondria from Saccharomyces cerevisiae. Proceedings Of The National Academy Of Sciences Of The United States Of America 1987, 84: 4063-4067. PMID: 3295876, PMCID: PMC305022, DOI: 10.1073/pnas.84.12.4063.Peer-Reviewed Original ResearchConceptsMitochondrial membraneEnzymatic activityNH2-terminal leader peptideMitochondrial matrix fractionWild-type precursorS. cerevisiae strainMitochondrial importMammalian mitochondriaMature subunitSubunit precursorOperon promoterS. cerevisiaeSelective growth conditionsLeader peptideYeast cellsArtificial mutationsOTCase activityMatrix fractionOrnithine transcarbamoylaseCerevisiae strainSaccharomycesGrowth conditionsMatrix compartmentMitochondriaSubunits