Search results for "Fluorescence Recovery After Photobleaching"

showing 10 items of 21 documents

Imaging of Keratin Dynamics during the Cell Cycle and in Response to Phosphatase Inhibition

2004

Publisher Summary The characterization and development of autofluorescent proteins, most prominently of the green florescent protein, have provided tools to label cellular structures such that they can be examined in living cells. This chapter highlights the potential of live cell imaging in providing novel and unprecedented insights into the dynamic organization of the keratin cytoskeleton and outlines the important aspects of this method. The live cell imaging experiments suggest that the driving force behind the vectorial and dynamic keratin distribution patterns relies both on microtubules and microfilaments and their associated factors. The studies on the dynamics of the keratin cytosk…

chemistry.chemical_classificationMotor proteinchemistryLive cell imagingMicrotubuleKeratinFluorescence recovery after photobleachingmacromolecular substancesBiologyIntermediate filamentCytoskeletonMicrofilamentCell biology
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Protein diffusion in mammalian cell cytoplasm.

2011

We introduce a new method for mesoscopic modeling of protein diffusion in an entire cell. This method is based on the construction of a three-dimensional digital model cell from confocal microscopy data. The model cell is segmented into the cytoplasm, nucleus, plasma membrane, and nuclear envelope, in which environment protein motion is modeled by fully numerical mesoscopic methods. Finer cellular structures that cannot be resolved with the imaging technique, which significantly affect protein motion, are accounted for in this method by assigning an effective, position-dependent porosity to the cell. This porosity can also be determined by confocal microscopy using the equilibrium distribut…

Fluorescence-lifetime imaging microscopyCytoplasmMass diffusivity01 natural sciencesBiophysics Simulationslaw.inventionDiffusionlawMolecular Cell BiologyImage Processing Computer-Assistedprotein diffusionMammals0303 health sciencesMultidisciplinaryMicroscopy ConfocalChemistrysolulimaPhysicsQRCell biologyMedicineproteiinin diffuusioPorosityFluorescence Recovery After PhotobleachingResearch ArticleScienceCellsBiophysicsFluorescence correlation spectroscopyModels Biological03 medical and health sciencesdiffuusio (fysikaaliset ilmiöt)Bacterial ProteinsConfocal microscopy0103 physical sciencesAnimalsHumansComputer Simulation010306 general physicsBiology030304 developmental biologyNucleoplasmProtein transportta114ta1182Fluorescence recovery after photobleachingProteinsReproducibility of ResultssoluPhotobleachingProteiinien kuljetusLuminescent ProteinsMicroscopy FluorescenceCytoplasmCatsCellHeLa CellsPloS one
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Polar Localization of a Tripartite Complex of the Two-Component System DcuS/DcuR and the Transporter DctA in Escherichia coli Depends on the Sensor K…

2014

The C4-dicarboxylate responsive sensor kinase DcuS of the DcuS/DcuR two-component system of E. coli is membrane-bound and reveals a polar localization. DcuS uses the C4-dicarboxylate transporter DctA as a co-regulator forming DctA/DcuS sensor units. Here it is shown by fluorescence microscopy with fusion proteins that DcuS has a dynamic and preferential polar localization, even at very low expression levels. Single assemblies of DcuS had high mobility in fast time lapse acquisitions, and fast recovery in FRAP experiments, excluding polar accumulation due to aggregation. DctA and DcuR fused to derivatives of the YFP protein are dispersed in the membrane or in the cytosol, respectively, when …

Yellow fluorescent proteinCardiolipinslcsh:MedicineMicrobiologyMreBMicrobial PhysiologyBacterial Physiologylcsh:ScienceCytoskeletonMicrobial MetabolismDicarboxylic Acid TransportersMultidisciplinaryEscherichia coli K12biologyBacterial GrowthEscherichia coli Proteinslcsh:RMicrobial Growth and DevelopmentBiology and Life SciencesFluorescence recovery after photobleachingBacteriologyFusion proteinTwo-component regulatory systemBacterial BiochemistryTransport proteinDNA-Binding ProteinsProtein TransportBiochemistryCytoplasmMultiprotein ComplexesBiophysicsbiology.proteinlcsh:QProtein KinasesResearch ArticleDevelopmental BiologyTranscription FactorsPLoS ONE
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Modification of Plasma Membrane Organization in Tobacco Cells Elicited by Cryptogein

2014

Abstract Lipid mixtures within artificial membranes undergo a separation into liquid-disordered and liquid-ordered phases. However, the existence of this segregation into microscopic liquid-ordered phases has been difficult to prove in living cells, and the precise organization of the plasma membrane into such phases has not been elucidated in plant cells. We developed a multispectral confocal microscopy approach to generate ratiometric images of the plasma membrane surface of Bright Yellow 2 tobacco (Nicotiana tabacum) suspension cells labeled with an environment sensitive fluorescent probe. This allowed the in vivo characterization of the global level of order of this membrane, by which w…

Physiology[SDV]Life Sciences [q-bio]BiophysicsContext (language use)Pyridinium CompoundsPlant ScienceBiologyArticleFungal ProteinsTobaccoGeneticsMembrane fluidity[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyFluorescent DyesPlasma membrane organizationChromatographyMicroscopy ConfocalPhotobleachingCell MembraneFluorescence recovery after photobleachingMembrane raftfood and beveragesPlant cellElicitorSterolsMembrane[SDE]Environmental SciencesBiophysicsFlagellinSignal Transduction
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Thioflavin T templates amyloid β(1–40) conformation and aggregation pathway

2015

Aβ(1-40) peptide supramolecular assembly and fibril formation processes are widely recognized to have direct implications in the progression of Alzheimer's disease. The molecular basis of this biological process is still unknown and there is a strong need of developing effective strategies to control the occurring events. To this purpose the exploitation of small molecules interacting with Aβ aggregation represents one of the possible routes. Moreover, the use specific labeling has represented so far one of the most common and effective methods to investigate such a process. This possibility in turn rests on the reliability of the probe/labels involved. Here we present evidences of the effe…

Protein StructureSecondaryAβ(1–40) peptideAmyloidProtein ConformationMolecular Sequence DataBiophysicsSupramolecular chemistryMolecular Dynamics SimulationProtein aggregationProtein Aggregation PathologicalBiochemistryProtein Structure SecondarySupramolecular assemblyProtein Aggregateschemistry.chemical_compoundProtein structureAlzheimer DiseasePathologicalSecondary structureAβ(1-40) peptideHumansBenzothiazolesAmino Acid SequenceFluorescent DyesAmyloid beta-PeptidesProtein StabilityOrganic ChemistryAlzheimer's diseaseProtein AggregationSmall moleculePeptide FragmentsSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)Peptide ConformationAlzheimer's disease; Aβ(1–40) peptide; Protein aggregation; Protein conformation; Secondary structure; Thioflavin T; Alzheimer Disease; Amino Acid Sequence; Amyloid beta-Peptides; Fluorescence Recovery After Photobleaching; Fluorescent Dyes; Humans; Molecular Dynamics Simulation; Molecular Sequence Data; Peptide Fragments; Protein Aggregates; Protein Aggregation Pathological; Protein Conformation; Protein Multimerization; Protein Stability; Protein Structure Secondary; ThiazolesThiazolesBiophysicBiochemistrychemistryThioflavin TBiophysicsThioflavinProtein MultimerizationFluorescence Recovery After PhotobleachingBiophysical Chemistry
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Effect of plasticizers (water and glycerol) on the diffusion of a small molecule in iota-carrageenan biopolymer films for edible coating application.

2006

Translational diffusion of a fluorescein probe has been measured in iota-carrageenan edible films containing different amounts of glycerol (0, 15, 30, and 45%), using fluorescence recovery after photobleaching (FRAP) experiments. The effects of this plasticizer as well as the plasticizing effect of water on the diffusion of fluorescein have been studied in this edible coating mainly composed of natural biopolymer. Diffusion coefficients of about 10(-13) m2 s(-1) have been measured in these films for water activity (aw) lower than 0.7. Above this water content threshold, fluorescein translational diffusion coefficient increases up to 10(-12) m2 s(-1). Another interesting information obtained…

GlycerolPolymers and PlasticsWater activitySurface PropertiesDiffusionConcentration effectBioengineeringengineering.materialCarrageenanBiomaterialsDiffusionchemistry.chemical_compoundFood PreservationPolymer chemistryMaterials ChemistryGlycerolFluoresceinMolecular StructurePlasticizerWaterMembranes ArtificialCarrageenanMolecular WeightchemistryChemical engineeringengineeringBiopolymerFluorescence Recovery After PhotobleachingBiomacromolecules
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Desmosomes: interconnected calcium-dependent structures of remarkable stability with significant integral membrane protein turnover

2002

Desmosomes are prominent cell adhesion structures that are major stabilizing elements, together with the attached cytoskeletal intermediate filament network, of the cytokeratin type in epithelial tissues. To examine desmosome dynamics in tightly coupled cells and in situations of decreased adhesion, fluorescent desmosomal cadherin desmocollin 2a (Dsc2a) chimeras were stably expressed in human hepatocellular carcinoma-derived PLC cells (clone PDc-13) and in Madin-Darby canine kidney cells (clone MDc-2) for the continuous monitoring of desmosomes in living cells. The hybrid polypeptides integrated specifically and without disturbance into normal-appearing desmosomes that occurred in associati…

Time FactorsRecombinant Fusion ProteinsBiologyCell LineCytokeratinDogsGenes ReporterDesmosomeCell AdhesionmedicineAnimalsHumansDesmosomal CadherinsCell adhesionIntermediate filamentCytoskeletonDesmocollinsMembrane GlycoproteinsCadherinCarcinomaCell CycleLiver NeoplasmsFluorescence recovery after photobleachingEpithelial CellsDesmosomesCell BiologyCell biologyMicroscopy Electronmedicine.anatomical_structureMicroscopy FluorescenceKeratinsCalciumJournal of Cell Science
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Multi-approach metabolomics analysis and artificial simplified phytocomplexes reveal cultivar-dependent synergy between polyphenols and ascorbic acid…

2017

Fruits of the sweet cherry (Prunus avium L.) accumulate a range of antioxidants that can help to prevent cardiovascular disease, inflammation and cancer. We tested the in vitro antioxidant activity of 18 sweet cherry cultivars collected from 12 farms in the protected geographical indication region of Marostica (Vicenza, Italy) during two growing seasons. Multiple targeted and untargeted metabolomics approaches (NMR, LC-MS, HPLC-DAD, HPLC-UV) as well as artificial simplified phytocomplexes representing the cultivars Sandra Tardiva, Sandra and Grace Star were then used to determine whether the total antioxidant activity reflected the additive effects of each compound or resulted from synergis…

0301 basic medicineantioxidantAntioxidantmedicine.medical_treatmentOrganic chemistrylcsh:MedicineAscorbic AcidBiochemistry01 natural sciencesAntioxidantsMass SpectrometryAnalytical ChemistryPrunusSpectrum Analysis Techniquesartificial phytocomplexMetabolitesVitamin CPrunus avium L.Cultivarlcsh:ScienceCherriesChromatography High Pressure LiquidLiquid ChromatographyMicroscopyMultidisciplinaryChromatographic TechniquesLight Microscopyfood and beveragesVitaminsPlantsPhysical sciencesChemistryHorticultureItalyMetabolomesecondaryResearch ArticlePrunus avium L. antioxidant secondary metabolism synergy artificial phytocomplexmetabolism synergyFluorescence Recovery after PhotobleachingLiquid Chromatography-Mass SpectrometryPrunus aviumBiologyResearch and Analysis MethodsFruitsChemical compounds03 medical and health sciencesMetabolomicsSpecies SpecificityOrganic compoundsBotanymedicineMetabolomicsGenetic variabilityNuclear Magnetic Resonance Biomolecular030109 nutrition & dieteticsVitamin C010401 analytical chemistrylcsh:ROrganismsBiology and Life SciencesPolyphenolsAscorbic acid0104 chemical sciencesMetabolismPolyphenolFruitMultiprotein ComplexesLinear Modelslcsh:QPLoS ONE
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Double-exponential kinetics of binding and redistribution of the fluorescent dyes in cell membranes witness for the existence of lipid microdomains.

2018

Abstract New technique of detecting lateral heterogeneity of the plasma membrane of living cells by means of membrane-binding fluorescent dyes is proposed. The kinetics of dye incorporation into the membrane or its lateral diffusion inside the membrane is measured and decomposed into exponential components by means of the Maximum Entropy Method. Two distinct exponential components are obtained consistently in all cases for several fluorescent dyes, two different cell lines and in different types of experiments including spectroscopy, flow cytometry and fluorescence recovery after photobleaching. These components are attributed to the liquid-ordered and disordered phases in the plasma membra…

0301 basic medicineKineticsBiophysicsBiochemistryFlow cytometry03 medical and health sciencesJurkat Cells0302 clinical medicineMembrane MicrodomainsmedicineHumansSpectroscopyMolecular BiologyDynamic equilibriumFluorescent Dyesmedicine.diagnostic_testChemistryLipid microdomainFluorescence recovery after photobleachingCell BiologyFluorescenceLipidsKinetics030104 developmental biologyMembraneSpectrometry Fluorescence030220 oncology & carcinogenesisBiophysicsFluorescence Recovery After PhotobleachingHeLa CellsBiochemical and biophysical research communications
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Non-structural proteins P17 and P33 are involved in the assembly of the internal membrane-containing virus PRD1.

2015

AbstractBacteriophage PRD1, which has been studied intensively at the structural and functional levels, still has some gene products with unknown functions and certain aspects of the PRD1 assembly process have remained unsolved. In this study, we demonstrate that the phage-encoded non-structural proteins P17 and P33, either individually or together, complement the defect in a temperature-sensitive GroES mutant of Escherichia coli for host growth and PRD1 propagation. Confocal microscopy of fluorescent fusion proteins revealed co-localisation between P33 and P17 as well as between P33 and the host chaperonin GroEL. A fluorescence recovery after photobleaching assay demonstrated that the diff…

assemblychaperoninvirusesMutantfluorescence recovery after photobleachingViral Nonstructural Proteinsmedicine.disease_causeVirus ReplicationChaperoninHost-Parasite InteractionsBacteriophagebacteriophageVirologymedicineEscherichia colifluorescent proteinBacteriophage PRD1Escherichia colimembrane virusMicroscopy Confocalbiologyprotein localisationVirus Assemblyta1182Fluorescence recovery after photobleachingGroESChaperonin 60biology.organism_classificationFusion proteinGroEL3. Good healthCell biologyVirology
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