Search results for "localization microscopy"

showing 4 items of 4 documents

Quantitative super-resolution localization microscopy of DNA in situ using Vybrant® DyeCycle™ Violet fluorescent probe.

2016

Single Molecule Localization Microscopy (SMLM) is a recently emerged optical imaging method that was shown to achieve a resolution in the order of tens of nanometers in intact cells. Novel high resolution imaging methods might be crucial for understanding of how the chromatin, a complex of DNA and proteins, is arranged in the eukaryotic cell nucleus. Such an approach utilizing switching of a fluorescent, DNA-binding dye Vybrant® DyeCycle™ Violet has been previously demonstrated by us (Żurek-Biesiada et al., 2015) [1]. Here we provide quantitative information on the influence of the chemical environment on the behavior of the dye, discuss the variability in the DNA-associated signal density,…

0301 basic medicineIn situMaterials sciencevybrant violetLocalization microscopyNanotechnologysuper-resolutionlcsh:Computer applications to medicine. Medical informaticsFluorescenceNucleus03 medical and health scienceschemistry.chemical_compound0302 clinical medicineMicroscopylocalization microscopySingle moleculesmedicinedSTORMlcsh:Science (General)Data ArticleMultidisciplinarySuper-ResolutionResolution (electron density)nucleusVybrant violetDNA dyeDNAFluorescenceSuperresolutionChromatinChromatin030104 developmental biologymedicine.anatomical_structurechemistry030220 oncology & carcinogenesischromatinlcsh:R858-859.7fluorescencesingle moleculesNucleusDNAlcsh:Q1-390Data in brief
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Super-resolved linear fluorescence localization microscopy using photostable fluorophores: A virtual microscopy study

2017

Abstract Current approaches to overcome the conventional limit of the resolution potential of light microscopy (of about 200 nm for visible light), often suffer from non-linear effects, which render the quantification of the image intensities in the reconstructions difficult, and also affect the quantification of the biological structure under investigation. As an attempt to face these difficulties, we discuss a particular method of localization microscopy which is based on photostable fluorescent dyes. The proposed method can potentially be implemented as a fast alternative for quantitative localization microscopy, circumventing the need for the acquisition of thousands of image frames and…

0301 basic medicineMaterials sciencebusiness.industryMultispectral imageResolution (electron density)02 engineering and technology021001 nanoscience & nanotechnologyFluorescenceAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materials03 medical and health sciences030104 developmental biologyOpticsMicroscopyCalibrationPhotoactivated localization microscopyElectrical and Electronic EngineeringPhysical and Theoretical Chemistry0210 nano-technologybusinessVirtual microscopyVisible spectrumOptics Communications
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Confocal microscopy of single molecules of the green fluorescent protein

1998

Single molecule detection has been extended into life sciences by use of strongly fluorescent labels. The green fluorescent protein (GFP) as a self-fluorescent biomolecule has attracted considerable attention. Here, single molecules of the GFP-mutant Glu222Gln are immobilized in a polyvinylalcohol matrix and detected by confocal fluorescence microscopy. Although this mutant stabilizes one of both conformers of the wild-type GFP, the investigation of its fluorescence dynamics reveals strong signal fluctuations. This fluorescence behaviour is—at least partly—caused by reversible photochemical changes of the protein framework, that can relax into the fluorescent state on different timescales. …

ChemistryConfocalBiophysicsFluorescence in the life sciencesFluorescencelaw.inventionGreen fluorescent proteinCell biologyBimolecular fluorescence complementationConfocal microscopylawFluorescence microscopeBiophysicsRadiology Nuclear Medicine and imagingPhotoactivated localization microscopyBioimaging
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Single molecule localization microscopy of the distribution of chromatin using Hoechst and DAPI fluorescent probes.

2014

Several approaches have been described to fluorescently label and image DNA and chromatin in situ on the single-molecule level. These superresolution microscopy techniques are based on detecting optically isolated, fluorescently tagged anti-histone antibodies, fluorescently labeled DNA precursor analogs, or fluorescent dyes bound to DNA. Presently they suffer from various drawbacks such as low labeling efficiency or interference with DNA structure. In this report, we demonstrate that DNA minor groove binding dyes, such as Hoechst 33258, Hoechst 33342, and DAPI, can be effectively employed in single molecule localization microscopy (SMLM) with high optical and structural resolution. Upon ill…

DNA ReplicationHoechstDNA RepairDNA repairBiologyfluorescence microscopyDAPIchemistry.chemical_compoundphotoconversionsuper-resolution microscopylocalization microscopyFluorescence microscopeSPDMAnimalsHumansDAPIdSTORMSMLMFluorescent DyesMicroscopySuper-resolution microscopynucleusDNA replicationdSTORCell BiologyDNADNA Minor Groove BindingChromatinChromatinCell biologychemistryMicroscopy FluorescencechromatinblinkingDNAResearch PaperNucleus (Austin, Tex.)
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