Search results for "Molecular chaperones"

showing 10 items of 112 documents

Dithiothreitol Treatment of Madin-Darby Canine Kidney Cells Reversibly Blocks Export from the Endoplasmic Reticulum but Does Not Affect Vectorial Tar…

1995

Addition of dithiothreitol (DTT) to the culture medium of Madin-Darby canine kidney (MDCK) cells blocks transport of newly synthesized gp80 (clusterin, apolipoprotein J), a soluble marker protein for apical exocytosis in this epithelial cell line. In cells treated with DTT during pulse labeling, gp80 is retained in the endoplasmic reticulum. After removal of the reducing agent, gp80 is posttranslationally oxidized and secreted at the apical surface of MDCK cell monolayers. This demonstrates that when folded and oxidized posttranslationally, gp80 can acquire a conformation that exhibits sorting signals for vectorial targeting. In the continuous presence of DTT, the transepithelial electrical…

Protein FoldingProtein ConformationBiologyEndoplasmic ReticulumKidneySulfur RadioisotopesBiochemistryEpitheliumExocytosisDithiothreitolCell LineMembrane Potentialssymbols.namesakechemistry.chemical_compoundDogsMethioninemedicineAnimalsCysteineSalivary Proteins and PeptidesMolecular BiologySecretory pathwayGlycoproteinsTight junctionEndoplasmic reticulumCell MembraneCell BiologyGolgi apparatusEpitheliumCell biologyDithiothreitolClusterinmedicine.anatomical_structureSecretory proteinchemistrysymbolsOxidation-ReductionProtein Processing Post-TranslationalMolecular ChaperonesJournal of Biological Chemistry
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Targeting heat shock proteins in cancer

2010

Heat shock proteins (HSPs) HSP27, HSP70 and HSP90 are powerful chaperones. Their expression is induced in response to a wide variety of physiological and environmental insults including anti-cancer chemotherapy, thus allowing the cell to survive to lethal conditions. Different functions of HSPs have been described to account for their cytoprotective function, including their role as molecular chaperones as they play a central role in the correct folding of misfolded proteins, but also their anti-apoptotic properties. HSPs are often overexpressed in cancer cells and this constitutive expression is necessary for cancer cells' survival. HSPs may have oncogene-like functions and likewise mediat…

Protein Foldingendocrine systemCancer ResearchCell SurvivalProtein ConformationCellAntineoplastic AgentsApoptosisBreast NeoplasmsHsp27NeoplasmsHeat shock proteinmedicineAnimalsHumansHSP70 Heat-Shock ProteinsHSP90 Heat-Shock ProteinsHeat-Shock ProteinsCell ProliferationbiologyCell growthCancermedicine.diseaseHsp90Hsp70Cell biologymedicine.anatomical_structureOncologyDrug Resistance NeoplasmCancer cellbiology.proteinMolecular ChaperonesCancer Letters
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Heat shock protein 27 is involved in SUMO-2/3 modification of heat shock factor 1 and thereby modulates the transcription factor activity

2009

Heat shock protein 27 (HSP27) accumulates in stressed cells and helps them to survive adverse conditions. We have already shown that HSP27 has a function in the ubiquitination process that is modulated by its oligomerization/phosphorylation status. Here, we show that HSP27 is also involved in protein sumoylation, a ubiquitination-related process. HSP27 increases the number of cell proteins modified by small ubiquitin-like modifier (SUMO)-2/3 but this effect shows some selectivity as it neither affects all proteins nor concerns SUMO-1. Moreover, no such alteration in SUMO-2/3 conjugation is achievable by another HSP, such as HSP70. Heat shock factor 1 (HSF1), a transcription factor responsib…

Protein sumoylationTranscriptional ActivationCancer Researchendocrine systemanimal structuresSUMO proteinHSP27 Heat-Shock ProteinsBiologyurologic and male genital diseasesenvironment and public healthSubstrate Specificity03 medical and health sciencesTransactivation0302 clinical medicineHeat Shock Transcription FactorsHeat shock proteinGeneticsAnimalsHumansAnimals Cell Nucleus/metabolism DNA-Binding Proteins/*metabolism HSP27 Heat-Shock Proteins/chemistry/*metabolism Hela Cells Humans Protein Multimerization Protein Structure[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyHSF1Protein Structure QuaternaryMolecular BiologyTranscription factorUbiquitinsHeat-Shock Proteins030304 developmental biologyCell Nucleus0303 health sciencesMolecular biologyHsp70Cell biologyHeat shock factorDNA-Binding ProteinsProtein TransportQuaternary Protein Transport Small Ubiquitin-Related Modifier Proteins/*metabolism Substrate Specificity Transcription Factors/*metabolism Transcriptional Activation Ubiquitins/*metabolism030220 oncology & carcinogenesisembryonic structuresSmall Ubiquitin-Related Modifier ProteinsProtein MultimerizationHeLa CellsMolecular ChaperonesTranscription Factors
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Molecular chaperones and mirnas in epilepsy: Pathogenic implications and therapeutic prospects

2021

Epilepsy is a pathologic condition with high prevalence and devastating consequences for the patient and its entourage. Means for accurate diagnosis of type, patient monitoring for predicting seizures and follow up, and efficacious treatment are desperately needed. To improve this adverse outcome, miRNAs and the chaperone system (CS) are promising targets to understand pathogenic mechanisms and for developing theranostics applications. miRNAs implicated in conditions known or suspected to favor seizures such as neuroinflammation, to promote epileptic tolerance and neuronal survival, to regulate seizures, and others showing variations in expression levels related to seizures are promising ca…

QH301-705.5Adverse outcomesReviewDiseaseBioinformaticsCatalysisInorganic ChemistryEpilepsychaperone systemmicroRNAmedicineAnimalsHumansBiology (General)Physical and Theoretical ChemistryQD1-999Molecular BiologyHeat-Shock ProteinsSpectroscopyNeuroinflammationmiRNAHigh prevalencebiologybusiness.industryOrganic Chemistrymolecular chaperonesGeneral Medicinetemporal lobe epilepsymedicine.diseaseComputer Science ApplicationsMicroRNAsChemistryChaperone (protein)Molecular targetsbiology.proteinepilepsyAnticonvulsantsbusiness
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Molecular Chaperones and Thyroid Cancer

2021

Thyroid cancers are the most common of the endocrine system malignancies and progress must be made in the areas of differential diagnosis and treatment to improve patient management. Advances in the understanding of carcinogenic mechanisms have occurred in various fronts, including studies of the chaperone system (CS). Components of the CS are found to be quantitatively increased or decreased, and some correlations have been established between the quantitative changes and tumor type, prognosis, and response to treatment. These correlations provide the basis for identifying distinctive patterns useful in differential diagnosis and for planning experiments aiming at elucidating the role of t…

QH301-705.5thyroid tumorsHsp90Reviewmedicine.disease_causeCatalysisChaperoninHsp70Inorganic ChemistryHsp27chaperone systemdifferential diagnosismedicineAnimalsHumansHSP70 Heat-Shock ProteinsHSP90 Heat-Shock ProteinsThyroid NeoplasmsBiology (General)Physical and Theoretical ChemistryHsp27QD1-999Molecular BiologyThyroid cancerSpectroscopychaperonotherapybiologychaperonopathies by mistakeOrganic ChemistryThyroidmolecular chaperonesChaperonin 60General Medicinemedicine.diseaseHsp60Hsp90Computer Science ApplicationsChemistrymedicine.anatomical_structureChaperone (protein)biology.proteinCancer researchHSP60CarcinogenesisInternational Journal of Molecular Sciences
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A genetic approach reveals different modes of action of prefoldins

2021

17 p.-7 fig.

Regular IssueAcademicSubjects/SCI01280PhysiologyProtein subunitMutantArabidopsisPlant ScienceChaperonin03 medical and health sciences0302 clinical medicineArabidopsisGeneticsBIOQUIMICA Y BIOLOGIA MOLECULARArabidopsis thalianaTranscription factorActinResearch Articles030304 developmental biology0303 health sciencesAcademicSubjects/SCI01270biologyErrataArabidopsis ProteinsAcademicSubjects/SCI02288AcademicSubjects/SCI02287AcademicSubjects/SCI02286Genes Development and EvolutionPrefoldin complexbiology.organism_classificationCell biologyGENETICA030217 neurology & neurosurgeryMolecular ChaperonesTranscription Factors
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DICER and ZRF1 contribute to chromatin decondensation during nucleotide excision repair

2016

Abstract Repair of damaged DNA relies on the recruitment of DNA repair factors in a well orchestrated manner. As a prerequisite, the chromatin needs to be decondensed by chromatin remodelers to allow for binding of repair factors and for DNA repair to occur. Recent studies have implicated members of the SWI/SNF and INO80 families as well as PARP1 in nucleotide excision repair (NER). In this study, we report that the endonuclease DICER is implicated in chromatin decondensation during NER. In response to UV irradiation, DICER is recruited to chromatin in a ZRF1-mediated manner. The H2A–ubiquitin binding protein ZRF1 and DICER together impact on the chromatin conformation via PARP1. Moreover, …

Ribonuclease III0301 basic medicineDNA RepairUltraviolet RaysDNA damageDNA repairgenetic processesPoly (ADP-Ribose) Polymerase-1Genome Integrity Repair and ReplicationBiologyChromatin remodelingCell LineDEAD-box RNA HelicasesHistones03 medical and health scienceschemistry.chemical_compoundUbiquitinCell Line TumorGeneticsAnimalsHumansCaenorhabditis elegansOncogene ProteinsOsteoblastsUbiquitinfungiRNA-Binding ProteinsFibroblastsChromatin Assembly and DisassemblyMolecular biologyChromatinChromatinDNA-Binding Proteinsenzymes and coenzymes (carbohydrates)HEK293 Cells030104 developmental biologychemistrybiology.proteinDNADNA DamageMolecular ChaperonesNucleotide excision repairDicerNucleic Acids Research
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A transmembrane serine residue in the Rot1 protein is essential for yeast cell viability

2014

Polar residues are present in TM (transmembrane) helices and may influence the folding or association of membrane proteins. In the present study, we use an in vivo approach to analyse the functional and structural roles for amino acids in membrane-spanning motifs using the Rot1 (reversal of Tor2 lethality 1) protein as a model. Rot1 is an essential membrane protein in Saccharomyces cerevisiae and it contains a single TM domain. An alanine insertion scanning analysis of this TM helix revealed that the integrity of the central domain is essential for protein function. We identified a critical serine residue inside the helix that plays an essential role in maintaining cell viability in S. cere…

Saccharomyces cerevisiae ProteinsCell SurvivalMolecular Sequence DataSaccharomyces cerevisiaeSaccharomyces cerevisiaemedicine.disease_causeBiochemistrySerineProtein targetingSerinemedicineAmino Acid SequenceMolecular BiologyAlanineSerine/threonine-specific protein kinasechemistry.chemical_classificationbiologyCell MembraneMembrane ProteinsCell Biologybiology.organism_classificationTransmembrane proteinAmino acidBiochemistryMembrane proteinchemistryMolecular ChaperonesBiochemical Journal
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Rot1 plays an antagonistic role to Clb2 in actin cytoskeleton dynamics throughout the cell cycle.

2007

ROT1 is an essential gene whose inactivation causes defects in cell cycle progression and morphogenesis in budding yeast. Rot1 affects the actin cytoskeleton during the cell cycle at two levels. First, it is required for the maintenance of apical growth during bud growth. Second, Rot1 is necessary to polarize actin cytoskeleton to the neck region at the end of mitosis; because of this defect, rot1 cells do not properly form a septum to complete cell division. The inability to polarize the actin cytoskeleton at the end of mitosis is not due to a defect in the recruitment of the polarisome scaffold protein Spa2 or the actin cytoskeleton regulators Cdc42 and Cdc24 in the neck region. Previous …

Saccharomyces cerevisiae ProteinsGenes FungalArp2/3 complexmacromolecular substancesSaccharomyces cerevisiaeCyclin BActin remodeling of neuronsGene Expression Regulation FungalCDC2-CDC28 KinasesCytoskeletonCytoskeletonPolarisomebiologyCell CycleActin remodelingCell PolarityMembrane ProteinsCell BiologyActin cytoskeletonActinsCell biologyProfilinParacytophagyMutationbiology.proteinMolecular ChaperonesJournal of cell science
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Unveiling novel interactions of histone chaperone Asf1 linked to TREX-2 factors Sus1 and Thp1

2014

13 páginas, 7 figuras, 2 yablas

Saccharomyces cerevisiae ProteinsTranscription Genetic(5-10) yAsf1Histone H2B ubiquitinationCell Cycle ProteinsSAGASaccharomyces cerevisiaeBiologyyeastMethylationTREX-2RNA TransportHistonesSus1Histone H3Histone H1Gene Expression Regulation FungalhistonesHistone H2ANucleosomeHistone codeTAP-MS strategyHistone ChaperonesRNA MessengerHistone octamerGeneticsNuclear ProteinsRNA-Binding ProteinsAcetylationCell BiologyYeastCell biologyRibonucleoproteinsHistone methyltransferaseProtein Processing Post-TranslationalMolecular ChaperonesResearch Paper
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