Search results for "Fluorescent"

showing 10 items of 863 documents

Computational Modeling of Protein Dynamics in Eukaryotic Cells

2012

Proteins have important functions inside the cell, traveling diffusively or being actively transported to various cellular sites where their activity is needed. Protein motion in the cellular environment is therefore an important topic to understand. However, the cell provides a very complex environment for that motion, which poses problems especially for any modeling effort designed to interpret experimentally observed features. So as to gain a realistic picture of protein dynamics inside the cell, we have recently introduced advanced numerical methods for describing that dynamics [1]. The starting point is an accurate numerical duplicate of the cell determined by LSCM, which can be used a…

Yellow fluorescent proteinbiologyChemistryProtein dynamicsNumerical analysisDynamics (mechanics)BiophysicsNanotechnologyPhotobleachingCytoplasmbiology.proteinDiffusion (business)Biological systemPorous mediumBiophysical Journal
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Polar accumulation of the metabolic sensory histidine kinases DcuS and CitA in Escherichia coli

2008

Signal transduction in prokaryotes is frequently accomplished by two-component regulatory systems in which a histidine protein kinase is the sensory component. Many of these sensory kinases control metabolic processes that do not show an obvious requirement for inhomogeneous distribution within bacterial cells. Here, the sensory kinases DcuS and CitA, two histidine kinases of Escherichia coli, were investigated. Both are membrane-integral and involved in the regulation of carboxylate metabolism. The two-component sensors were fused with yellow fluorescent protein (YFP) and live images of immobilized cells were obtained by confocal laser fluorescence microscopy. The fluorescence of the fusio…

Yellow fluorescent proteinbiologyKinaseEscherichia coli ProteinsRecombinant Fusion ProteinsCell PolarityMicrobiologyFusion proteinLuminescent ProteinsProtein TransportBacterial ProteinsBiochemistryCytoplasmEscherichia colibiology.proteinSignal transductionCell fractionationProtein kinase AProtein KinasesHistidineMicrobiology
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Efficient, non-toxic anion transport by synthetic carriers in cells and epithelia.

2016

Transmembrane anion transporters (anionophores) have potential for new modes of biological activity, including therapeutic applications. In particular they might replace the activity of defective anion channels in conditions such as cystic fibrosis. However, data on the biological effects of anionophores are scarce, and it remains uncertain whether such molecules are fundamentally toxic. Here, we report a biological study of an extensive series of powerful anion carriers. Fifteen anionophores were assayed in single cells by monitoring anion transport in real time through fluorescence emission from halide-sensitive yellow fluorescent protein. A bis-(p-nitrophenyl)ureidodecalin shows especial…

Yellow fluorescent proteinpotencyGeneral Chemical Engineeringsynthetic anion carriersCystic Fibrosis Transmembrane Conductance Regulator01 natural sciencesMadin Darby Canine Kidney CellsCell membranedeliverabilityta116Drug CarriersbiologyMolecular StructureChemistryBiological activitypersistenceCystic fibrosis transmembrane conductance regulatorTransmembrane proteinanionophoresmedicine.anatomical_structureBiochemistryPhosphatidylcholinesSteroidsChlorineAnionsCell SurvivalNaphthalenesta3111010402 general chemistryDogsBacterial ProteinsCyclohexanesmedicineAnimalsHumansIon transporterCell ProliferationIon Transport010405 organic chemistryCell MembranetoxicityTransporterEpithelial CellsHydrogen BondingGeneral ChemistryRats Inbred F3440104 chemical sciencesElectrophysiological PhenomenaLuminescent ProteinsMicroscopy FluorescenceCell cultureDrug Designbiology.proteinHeLa CellsNature chemistry
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Straightforward access to water-soluble unsymmetrical sulfoxanthene dyes: application to the preparation of far-red fluorescent dyes with large stoke…

2014

An efficient synthesis of water-soluble unsymmetrical sulforhodamine/sulforhodol fluorophores containing a single julolidine fragment is presented. Owing to their valuable spectral properties in aqueous buffers, these dyes, especially those bearing a free aniline or phenol moiety, are valuable components of fluorogenic probes for a variety of biosensing applications. A further extension of this synthetic methodology to unusual phenols, namely 7-N,N-dialkylamino-4-hydroxy coumarins has enabled us to provide a new family water-soluble dyes of large Stokes’ shift with far-red spectral features.

[CHIM.THER]Chemical Sciences/Medicinal ChemistryBiosensing Techniques010402 general chemistryPhotochemistry01 natural sciencesCatalysisRhodaminessymbols.namesakechemistry.chemical_compoundAniline[CHIM.ANAL]Chemical Sciences/Analytical chemistryCoumarinsStokes shiftMoietyJulolidineComputingMilieux_MISCELLANEOUSFluorescent DyesAqueous solution010405 organic chemistryChemistry[CHIM.ORGA]Chemical Sciences/Organic chemistryRhodaminesOrganic ChemistryWaterGeneral Chemistry[CHIM.CATA]Chemical Sciences/CatalysisHydrogen-Ion ConcentrationFluorescence0104 chemical sciences[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistrySpectrometry FluorescenceXanthenessymbolsSolventsBiosensor[CHIM.CHEM]Chemical Sciences/CheminformaticsChemistry (Weinheim an der Bergstrasse, Germany)
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Interaction Pisum sativum (pois)- Pseudomonas: Conséquences sur la nutrition en fer, la croissance et l’immunité de la plante hôte

2017

SPEEABIOMEDOCT INRA; Le projet vise à progresser dans notre connaissances des interactions pois – Pseudomonas afin d’améliorer la nutrition en fer et la santé de la plante-hôte. Le pois représente un fort potentiel en agroécologie (symbiose fixatrice d’azote) et en nutrition humaine (graines riches en acides aminés). Cependant, sa culture est sensible à la carence en fer et à certains phytopathogènes. Pour promouvoir la nutrition en fer et la santé du pois, l’objectif est de valoriser les pyoverdines, sidérophores produits par les Pseudomonas spp. fluorescents, dont certains peuvent améliorer la nutrition en fer de plantes et sont responsables d’antagonisme envers des phytopathogènes. La st…

[SDE] Environmental SciencesPseudomonas spp fluorescentssol[ SDV ] Life Sciences [q-bio]pyoverdine[SDV]Life Sciences [q-bio]interactioncroissancefer[SDV] Life Sciences [q-bio]biofortificationnutritionpoisPseudomonasplante[SDE]Environmental SciencesimmunitéComputingMilieux_MISCELLANEOUSPisum sativum
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Influence of type III bacterial secretion system on the interactions between plant and non pathogenic fluorescent Pseudomonads spp.

2010

No abstract

[SDE] Environmental Sciences[ SDV.BV ] Life Sciences [q-bio]/Vegetal BiologyInteractions plantes-microorganismes bénéfiques[SDV] Life Sciences [q-bio]Système de sécrétion de type IIIChampignons mycorhizogènes à arbusculesMycorrhiza helper bacteria (MHB)Medicago truncatula[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal BiologytheseRELATION PLANTE-MICROORGANISMESYSTEME DE SECRETIONPseudomonas spp. fluorescents
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Structure-function analysis of peroxisomal ATP-binding cassette transporters using chimeric dimers

2014

Background: Peroxisomal ABC transporters are predicted to function as homodimers in mammals. [br/] Results: ABCD1 interacts with ABCD2. Chimeric proteins mimicking full-length dimers represent novel tools for functional study. Artificial homodimers and heterodimers are functional. [br/] Conclusion: Interchangeability between ABCD1 and ABCD2 is confirmed, but PUFA transport depends on ABCD2. [br/] Significance: For the first time, heterodimers in mammals are proven to be functional.[br/] ABCD1 and ABCD2 are two closely related ATP-binding cassette half-transporters predicted to homodimerize and form peroxisomal importers for fatty acyl-CoAs. Available evidence has shown that ABCD1 and ABCD2 …

[SDV.BA] Life Sciences [q-bio]/Animal biologyprotéine chimereanimal diseasesATP-binding cassette transporterProximity ligation assayProtein Chimerabiochimie structurale[ SDV.BA ] Life Sciences [q-bio]/Animal biologyPolymerase Chain ReactionBiochemistryGreen fluorescent proteininteraction moléculaireMice[ CHIM.OTHE ] Chemical Sciences/Otherhomodimèrereproductive and urinary physiologyAnimal biologyhétérodimèrechemistry.chemical_classification[SDV.BA]Life Sciences [q-bio]/Animal biologymammifèreTransfectionPeroxisomeprotéine de fusionBiochemistry[CHIM.OTHE] Chemical Sciences/OtherDimerizationPlasmidsABC Transporter;Fatty Acid;Peroxisome;Protein Chimera;Protein-Protein Interactiontransporteur abcBiologyPeroxisomeCell LineProtein–protein interactionStructure-Activity RelationshipMembrane BiologyBiologie animaleparasitic diseasesAutre (Chimie)PeroxisomesAnimalsHumansMolecular BiologyDNA PrimersBase SequenceABCD2fungiABCD1Fatty acidCell BiologyFusion proteinRatsProtein-Protein InteractionABC TransporterchemistryATP-Binding Cassette TransportersOther[CHIM.OTHE]Chemical Sciences/OtherFatty Acid
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Analysis of fluorescent MRI contrast agent behavior in the liver and thoracic aorta of mice.

2004

To characterize the behavior of magnetofluorescent products injected in mice intravenously.The magnetic resonance imaging (MRI) products were labelled with fluorescent molecules to examine the biodistribution process in vivo and observe them at the cellular level by means of confocal microscopy. Three-dimensional (3D) sequences of images were obtained by spectral analysis of sample preparations in a multiphoton confocal microscope and analyzed by the factor analysis of medical image sequence algorithm, which provides factor curves. Factor images are the result of image-processing methods that utilize information from emission spectra. Preparations are also screened in the counting mode to p…

[SDV.IB.IMA]Life Sciences [q-bio]/Bioengineering/ImagingContrast MediaAorta ThoracicMiceMESH : Image CytometryMESH: Microscopy ConfocalMESH : FemaleMESH : Fluorescent DyesMESH: AnimalsMESH : Algorithms[ SDV.IB.IMA ] Life Sciences [q-bio]/Bioengineering/Imaginghealth care economics and organizationsImage CytometryMice Inbred BALB CMicroscopy ConfocalMESH: Fluorescent DyesMESH: Staining and LabelingLiverMESH : MeglumineFemaleMESH : Organometallic CompoundsAlgorithmsMESH: Aorta ThoraciceducationMESH: Mice Inbred BALB CMESH: AlgorithmsMESH: MeglumineMESH : Staining and LabelingMeglumineMESH: Contrast MediaMESH : MiceOrganometallic CompoundsAnimalsMESH : Microscopy ConfocalMESH: MiceMESH : Mice Inbred BALB CFluorescent DyesMESH : Aorta ThoracicMESH : Contrast MediaStaining and LabelingMESH : LiverMESH: Organometallic CompoundsMESH : Xanthenes[SDV.IB.IMA] Life Sciences [q-bio]/Bioengineering/ImagingXanthenesMESH: XanthenesMESH : AnimalsMESH: FemaleMESH: Image CytometryMESH: Liver
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Modular Assembly of Multimodal Imaging Agents through an Inverse Electron Demand Diels–Alder Reaction

2019

International audience; The combination of two imaging probes on a same biomolecule gives access to targeted bimodal imaging agents that can provide more accurate diagnosis, complementary information, or that may be used in different applications, such as PET imaging and fluorescence imagingassisted surgery. In this study, we demonstrate that dichlorotetrazine, a small, commercially available compound, can be used as a modular platform to easily assemble various imaging probes. Doubly-labeled tetrazines can then be conjugated to a protein through a biorthogonal IEDDA reaction. A series of difunctionalized tetrazine compounds containing various chelating agents and fluorescent dyes was synth…

[SDV.IB.IMA]Life Sciences [q-bio]/Bioengineering/ImagingTetrazineBiomedical EngineeringContrast MediaPharmaceutical SciencebimodalBioengineeringNanotechnology02 engineering and technology[CHIM.THER]Chemical Sciences/Medicinal ChemistryMultimodal ImagingProof of Concept Study01 natural sciencesMiceAnimalsHumansInverse electron-demand Diels–Alder reactionFluorescent DyesPharmacologyMultimodal imagingchemistry.chemical_classificationCycloaddition Reaction010405 organic chemistryChemistrybusiness.industryBiomoleculeOrganic ChemistryModular design021001 nanoscience & nanotechnology0104 chemical sciencestrastuzumabProof of conceptSPECT-CTSite-specificfluorescence0210 nano-technologybusinessBiotechnology
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Reciprocal interactions between plants and fluorescent pseudomonads in relation with iron in the rhizosphere

2008

communication orale invitée; absent

[SDV.SA]Life Sciences [q-bio]/Agricultural sciences[SDV.SA] Life Sciences [q-bio]/Agricultural sciencesstomatognathic diseasesironpyoverdine nutritionplant[ SDV.SA ] Life Sciences [q-bio]/Agricultural sciencesfluorescent pseudomonas
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