Search results for " Cell Nucleus"

showing 10 items of 62 documents

Molecular basis of the functional distinction between Cln1 and Cln2 cyclins

2012

Cln1 and Cln2 are very similar but not identical cyclins. In this work, we tried to describe the molecular basis of the functional distinction between Cln1 and Cln2. We constructed chimeric cyclins containing different fragments of Cln1 and Cln2 and performed several functional analysis that make it possible to distinguish between Cln1 or Cln2. We identified that region between amino acids 225 and 299 of Cln2 is not only necessary but also sufficient to confer Cln2 specific functionality compared with Cln1. We also studied Cln1 and Cln2 subcellular localization identifying additional differences between them. Both cyclins are distributed between the nucleus and the cytoplasm, but Cln1 shows…

CytoplasmSaccharomyces cerevisiae ProteinsTranscription GeneticBlotting WesternGenes FungalGenetic VectorsGreen Fluorescent ProteinsActive Transport Cell NucleusSaccharomyces cerevisiaeKaryopherinsBiologyReportCyclinsGene Expression Regulation FungalmedicineAmino Acid SequenceNuclear export signalMolecular BiologyPeptide sequenceCyclinKaryopherinCell Nucleuschemistry.chemical_classificationCell Cycle CheckpointsCell BiologySubcellular localizationCell nucleusmedicine.anatomical_structureBiochemistrychemistryCytoplasmNuclear transportCDC28 Protein Kinase S cerevisiaePlasmidsDevelopmental BiologyCell Cycle
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Cell Cycle Activation of the Swi6p Transcription Factor Is Linked to Nucleocytoplasmic Shuttling

2003

The control of the subcellular localization of cell cycle regulators has emerged as a crucial mechanism in the regulation of cell division. In the present work, we have characterized the function of the karyopherin Msn5p in the control of the cell cycle of Saccharomyces cerevisiae. Phenotypic analysis of the msn5 mutant revealed an increase in cell size and a functional interaction between Msn5p and the cell cycle transcription factor SBF (composed of the Swi4p and Swi6p proteins), indicating that Msn5p is involved in Start control. In fact, we have shown that the level of Cln2p protein is drastically reduced in an msn5 mutant. The effect on CLN2 expression is mediated at a transcriptional …

CytoplasmSaccharomyces cerevisiae ProteinsTranscription GeneticCell divisionChromosomal Proteins Non-HistoneActive Transport Cell NucleusSaccharomyces cerevisiaeKaryopherinsBiologyDNA-binding proteinCyclinsGene Expression Regulation FungalmedicineCell Growth and DevelopmentMolecular BiologyTranscription factorKaryopherinCell Nucleuschemistry.chemical_classificationCell CycleCell BiologyCell cycleSubcellular localizationCell biologyDNA-Binding ProteinsCell nucleusmedicine.anatomical_structurechemistryCytoplasmMutationCarrier ProteinsTranscription FactorsMolecular and Cellular Biology
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Nuclear Translocation of Papillomavirus Minor Capsid Protein L2 Requires Hsc70

2004

ABSTRACT Minor capsid protein L2 of papillomaviruses plays an essential role in virus assembly by recruiting viral components to PML bodies, the proposed sites of virus morphogenesis. We demonstrate here that the function of L2 in virus assembly requires the chaperone Hsc70. Hsc70 was found dispersed in naturally infected keratinocytes and cultured cells. A dramatic relocation of Hsc70 from the cytoplasm to PML bodies was induced in these cells by L2 expression. Hsc70-L2 complex formation was confirmed by coimmunoprecipitation. The complex was modulated by the cochaperones Hip and Bag-1, which stabilize and destabilize Hsc70-substrate complexes, respectively. Cytoplasmic depletion of Hsc70 …

Cytoplasmanimal structuresImmunoprecipitationvirusesImmunologyActive Transport Cell Nucleusmacromolecular substancesBiologyMicrobiologyVirusGreen fluorescent proteinCell Line TumorVirologyAnimalsHSP70 Heat-Shock ProteinsCOS cellsHSC70 Heat-Shock ProteinsVirionOncogene Proteins ViralMolecular biologyVirus-Cell InteractionsTransport proteinCell biologyProtein TransportCapsidCytoplasmInsect ScienceChaperone (protein)COS Cellsembryonic structuresbiology.proteinCapsid ProteinsJournal of Virology
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Improvement in Nuclear Entry and Transgene Expression of Baculoviruses by Disintegration of Microtubules in Human Hepatocytes

2005

ABSTRACT Autographa californica multicapsid nucleopolyhedrovirus (AcMNPV), a potent virus for mammalian cell gene delivery, possesses an ability to transduce mammalian cells without viral replication. We examined the role of the cellular cytoskeleton in the cytoplasmic trafficking of viral particles toward the nucleus in human hepatic cells. Microscopic studies showed that capsids were found in the nucleus after either viral inoculation or cytoplasmic microinjection of nucleocapsids. The presence of microtubule (MT) depolymerizing agents caused the amount of nuclear capsids to increase. Overexpression of p50/dynamitin, an inhibitor of dynein-dependent endocytic trafficking from peripheral e…

EndosomeMicrotubule-associated proteinvirusesImmunologyEndocytic cycleGenetic VectorsActive Transport Cell NucleusGene ExpressionBiologyGene deliveryMicrobiologyMicrotubulesCell Linechemistry.chemical_compoundTransduction GeneticVirologyHumansNucleocapsidCytoskeletonDynactin Complexbeta-GalactosidaseMolecular biologyNucleopolyhedrovirusesRecombinant ProteinsVirus-Cell InteractionsNocodazoleMicroscopy ElectronViral replicationchemistryLac OperonCell cultureCytoplasmInsect ScienceHepatocytesMicrotubule-Associated Proteins
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Correction: DAPIT Over-Expression Modulates Glucose Metabolism and Cell Behaviour in HEK293T Cells

2015

Introduction Diabetes Associated Protein in Insulin-sensitive Tissues (DAPIT) is a subunit of mitochondrial ATP synthase and has also been found to associate with the vacuolar H+-ATPase. Its expression is particularly high in cells with elevated aerobic metabolism and in epithelial cells that actively transport nutrients and ions. Deletion of DAPIT is known to induce loss of mitochondrial ATP synthase but the effects of its over-expression are obscure. Results In order to study the consequences of high expression of DAPIT, we constructed a transgenic cell line that constitutively expressed DAPIT in human embryonal kidney cells, HEK293T. Enhanced DAPIT expression decreased mtDNA content and …

Epithelial-Mesenchymal Transitionmitochondrial metabolismBiolääketieteet - BiomedicineCellActive Transport Cell NucleusGene DosageRespiratory chainlcsh:MedicineGene ExpressionMitochondrionta3111glukoosiNeoplasmsmedicineHumansLactic Acidglucoselcsh:ScienceTranscription factorMultidisciplinaryATP synthasebiologyCell growthta1184lcsh:RHEK 293 cellsCorrectionMitochondrial Proton-Translocating ATPasesMitochondriaCell biologyHEK293 CellsDiabetes Associated Protein in Insulin-sensitive Tissuesmedicine.anatomical_structureCell culturebiology.proteinATP synthaselcsh:QResearch ArticlePLOS ONE
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Tropism of human cytomegalovirus for endothelial cells is determined by a post-entry step dependent on efficient translocation to the nucleus.

2000

Marked interstrain differences in the endothelial cell (EC) tropism of human cytomegalovirus (HCMV) isolates have been described. This study aimed to define the step during the replicative cycle of HCMV that determines this phenotype. The infection efficiency of various HCMV strains in EC versus fibroblasts was quantified by immunodetection of immediate early (IE), early and late viral antigens. Adsorption and penetration were analysed by radiolabelled virus binding assays and competitive HCMV-DNA-PCR. The translocation of penetrated viral DNA to the nucleus of infected cells was quantified by competitive HCMV-DNA-PCR in pure nuclear fractions. The intracytoplasmic translocation of capsids …

Human cytomegalovirusUmbilical VeinsvirusesBlotting WesternActive Transport Cell NucleusCytomegalovirusChromosomal translocationBiologyAntibodies ViralTransfectionVirus ReplicationVirusImmediate-Early ProteinsViral ProteinsViral Envelope ProteinsViral entryVirologyGene expressionmedicineHumansEndotheliumPromoter Regions GeneticAntigens ViralGenes Immediate-EarlyTropismCells CulturedCell NucleusMembrane GlycoproteinsAntibodies MonoclonalGenetic VariationFibroblastsmedicine.diseaseVirologyMolecular biologyCell nucleusMicroscopy Electronmedicine.anatomical_structureOrgan SpecificityDNA ViralTrans-ActivatorsAdsorptionImmunostainingThe Journal of general virology
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Identification of a Dynein Interacting Domain in the Papillomavirus Minor Capsid Protein L2

2006

ABSTRACT Papillomaviruses enter cells via endocytosis (H. C. Selinka et al., Virology 299:279-287, 2002). After egress from endosomes, the minor capsid protein L2 accompanies the viral DNA to the nucleus and subsequently to the subnuclear promyelocytic leukemia protein bodies (P. M. Day et al., Proc. Natl. Acad. Sci. USA 101:14252-14257, 2004), suggesting that this protein may be involved in the intracytoplasmic transport of the viral genome. We now demonstrate that the L2 protein is able to interact with the microtubule network via the motor protein dynein. L2 protein was found attached to microtubules after uncoating of incoming human papillomavirus pseudovirions. Based on immunofluoresce…

ImmunoprecipitationImmunologyDyneinActive Transport Cell NucleusGenome ViralMicrotubulesMicrobiologyMotor proteinPromyelocytic leukemia proteinMicrotubuleDynein ATPaseVirologyHumansPapillomaviridaebiologyPapillomavirus InfectionsDyneinsOncogene Proteins ViralMolecular biologyEndocytosisVirus-Cell InteractionsMicroscopy FluorescenceCapsidInsect ScienceDNA Viralbiology.proteinDynactinCapsid ProteinsIntranuclear SpaceHeLa CellsProtein BindingJournal of Virology
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Dissection of human papillomavirus type 33 L2 domains involved in nuclear domains (ND) 10 homing and reorganization

2003

Abstract We have recently shown that the minor capsid protein L2 of human papillomavirus type 33 (HPV33) recruits the transcriptional repressor Daxx into nuclear domains (ND) 10 and causes the loss of the transcriptional activator Sp100 from these subnuclear structures (Florin et al., 2002b) . In order to dissect L2 domains involved in nuclear translocation, ND10 homing, loss of Sp100, and recruitment of Daxx, a detailed deletion mutagenesis of L2 was performed. Using immunofluorescence and green fluorescent protein fusions, we have identified two nuclear localization signals (NLS) in the central and C-terminal part of L2, respectively, homologous to previously identified NLS in HPV6B L2 (S…

ImmunoprecipitationRecombinant Fusion ProteinsGreen Fluorescent ProteinsNuclear Localization SignalsActive Transport Cell NucleusFluorescent Antibody TechniqueBiologyImmunofluorescenceAutoantigensGreen fluorescent proteinDeath-associated protein 6DaxxVirologyTumor Cells CulturedmedicineSp100HumansNLSPapillomaviridaeAdaptor Proteins Signal TransducingCell Nucleusmedicine.diagnostic_testIntracellular Signaling Peptides and ProteinsND10Nuclear ProteinsAntigens NuclearL2Oncogene Proteins ViralPapillomavirusbiochemical phenomena metabolism and nutritionMolecular biologyDeletion MutagenesisLuminescent ProteinsCapsidMutagenesisCapsid ProteinsCarrier ProteinsCo-Repressor ProteinsGene DeletionNuclear localization sequenceMolecular ChaperonesVirology
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Identification and characterization of a novel Ets-2-related nuclear complex implicated in the activation of the human interleukin-12 p40 gene promot…

1997

Interleukin-12 (IL-12) is a proinflammatory cytokine produced by antigen-presenting cells in response to many microbial infections. IL-12 plays an important role in the generation of T helper type-1 cells, which favor cell-mediated immune response. IL-12 is composed of two different subunits, p40 and p35, whose expression can be regulated concomitantly or differentially. Monocytic cells, the major producers of IL-12, can be primed by interferon-gamma (IFN-gamma) to produce optimal amounts of IL-12 in response to LPS stimulation as a consequence of bacterial infection. The priming effect is exerted primarily at the transcriptional level on the p40 promoter in conjunction with the effects of …

LipopolysaccharidesTranscription GeneticSequence HomologyStimulationbiosynthesis/geneticsBiochemistryChromatography Affinitychemistry.chemical_compoundMiceAnimals Base Sequence Cell Line Cell Nucleus; metabolism Chromatography; Affinity DNA-Binding Proteins Humans Interferon-gamma; pharmacology Interleukin-12; biosynthesis/genetics Kinetics Lipopolysaccharides; pharmacology Mice Molecular Sequence Data Nuclear Proteins; isolation /&/ purification/metabolism Promoter Regions; Genetic Protein-Tyrosine Kinases; metabolism Proto-Oncogene Protein c-ets-2 Proto-Oncogene Proteins; isolation /&/ purification/metabolism Repressor Proteins Sequence Homology; Nucleic Acid Trans-Activators; isolation /&/ purification/metabolism Transcription Factors Transcription; Genetic; drug effectsPromoter Regions GeneticChromatographyNuclear ProteinsMethylationProtein-Tyrosine KinasesInterleukin-12DNA-Binding ProteinsTranscriptionMolecular Sequence DataBiologyProinflammatory cytokineCell LineProto-Oncogene Protein c-ets-2Promoter RegionsInterferon-gammaGeneticSequence Homology Nucleic AcidProto-Oncogene ProteinsAnimalsHumansMolecular BiologyTranscription factorCell NucleusMolecular massBase SequenceNucleic Acidisolation /&/ purification/metabolismPromoterCell BiologyMolecular biologyIn vitroRepressor ProteinsKineticschemistryAffinitydrug effectsTrans-ActivatorspharmacologymetabolismDNATranscription Factors
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Aminopropyltransferases involved in polyamine biosynthesis localize preferentially in the nucleus of plant cells

2012

Plant aminopropyltransferases consist of a group of enzymes that transfer aminopropyl groups derived from decarboxylated S-adenosyl-methionine (dcAdoMet or dcSAM) to propylamine acceptors to produce polyamines, ubiquitous metabolites with positive charge at physiological pH. Spermidine synthase (SPDS) uses putrescine as amino acceptor to form spermidine, whereas spermine synthase (SPMS) and thermospermine synthase (TSPMS) use spermidine as acceptor to synthesize the isomers spermine and thermospermine respectively. In previous work it was shown that both SPDS1 and SPDS2 can physically interact with SPMS although no data concerning the subcellular localization was reported. Here we study the…

Macromolecular AssembliesProteomicsS-AdenosylmethioninePlant anatomyImmunohistoquímicaArabidopsislcsh:MedicineSecondary MetabolismSpermineExpressionPlant ScienceSpermidine synthaseBiochemistrychemistry.chemical_compoundBimolecular fluorescence complementationCytosolMolecular Cell BiologyPolyaminesPlant Genomicslcsh:SciencePlant Growth and DevelopmentMultidisciplinarybiologyPlant BiochemistryArabidopsis-ThalianaGenomicsImmunohistochemistryMetabolismeFunctional GenomicsBiochemistrySpermine synthasePlant proteinPlant PhysiologyMechanismResearch ArticleHistologyAcyltransferasePlant Cell BiologyActive Transport Cell NucleusSpermidine SynthaseBimolecular fluorescence complementationProtein InteractionsBiologyCell NucleusCrystal-Structurelcsh:RHistologiaBotanyProtein interactionsSubcellular localizationAnatomia vegetalExpressió gènicaMolecular WeightSpermidineMetabolismchemistryDecarboxylasebiology.proteinPutrescineBotànicalcsh:QGene expressionSpermidine synthase
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