Search results for "Lipid bilayer"

showing 10 items of 280 documents

Nitrated Fatty Acids Modulate the Physical Properties of Model Membranes and the Structure of Transmembrane Proteins

2017

Nitrated fatty acids (NO2 -FAs) act as anti-inflammatory signal mediators, albeit the molecular mechanisms behind NO2 -FAs' influence on diverse metabolic and signaling pathways in inflamed tissues are essentially elusive. Here, we combine fluorescence measurements with surface-specific sum frequency generation vibrational spectroscopy and coarse-grained computer simulations to demonstrate that NO2 -FAs alter lipid organization by accumulation at the membrane-water interface. As the function of membrane proteins strongly depends on both, protein structure as well as membrane properties, we consecutively follow the structural dynamics of an integral membrane protein in presence of NO2 -FAs. …

inorganic chemicals0301 basic medicineProtein Conformationcomplex mixturesPhase TransitionCatalysisPhysical Phenomena03 medical and health sciences0302 clinical medicineProtein structureJournal ArticleFluorescence Resonance Energy TransferMembrane fluidityComputer SimulationLipid bilayerIntegral membrane proteinNitratesChemistryCircular DichroismCell MembraneFatty AcidsOrganic ChemistryPeripheral membrane proteinMembrane ProteinsGeneral Chemistryrespiratory systemLipidsTransmembrane protein030104 developmental biologyMembraneMembrane proteinBiochemistryBiophysics030217 neurology & neurosurgerySignal TransductionChemistry – A European Journal
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Investigation of the dynamics of bacteriorhodopsin

1990

Bacteriorhodopsin (bR) converted to the blue form by deionization has been reconstituted to the active purple membrane by addition of57Fe ions. Mossbauer spectra measured in a wide temperature range reveal Fe3+ binding places with oxygen atoms in the neighbourhood. No evidence for a well defined functional binding place of the iron has been found. On a timescale faster 100 ns the purple membrane shows increasing flexibility above 200 K. In order to analyse the influence of the lipids, a bacteriorhodopsin sample where the lipid content has been increased artificially by the incorporation of DMPC as well as a sample consisting of lipid bilayer have been investigated.

inorganic chemicalsNuclear and High Energy PhysicsbiologyChemistryBacteriorhodopsinAtmospheric temperature rangeCondensed Matter PhysicsAtomic and Molecular Physics and OpticsIonCrystallographyMembraneOxygen atomLipid contentbiology.proteinMossbauer spectraPhysical and Theoretical ChemistryLipid bilayerHyperfine Interactions
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The electric properties of ionic solutions: a molecular dynamics (preliminary) study

2011

lipid bilayer ionic solutions molecular dynamics non equilibriumlipid bilayer ionic solution molecula drynamics electric fieldSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)
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Interactions of membranes with coarse-grain proteins: a comparison

2012

We study the interactions between lipid bilayers and rigid transmembrane proteins by Monte Carlo simulations of generic coarse-grain models. Different popular protein models are considered and compared with each other, and key parameters such as the hydrophobicity and the hydrophobic mismatch are varied systematically. Furthermore, the properties of the membrane are manipulated by applying different tensions. The response of the membrane to the insertion of single proteins is found to be mostly generic and independent of the choice of the protein model. Likewise, the orientational distributions of single proteins depend mainly on the hydrophobic mismatch and the hydrophobicity of the protei…

pacs:87.16.D; 87.15.K; 02.70.Uu; 87.14CcPhysicsNucleationGeneral Physics and AstronomyInterbilayer forces in membrane fusion530Transmembrane proteinHydrophobic mismatchMembraneLattice proteinBiophysicsddc:530Lipid bilayerHydrophobicity scalesNew Journal of Physics
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On the Choice of the Extracellular Vesicles for Therapeutic Purposes

2019

Extracellular vesicles (EVs) are lipid membrane vesicles released by all human cells and are widely recognized to be involved in many cellular processes, both in physiological and pathological conditions. They are mediators of cell-cell communication, at both paracrine and systemic levels, and therefore they are active players in cell differentiation, tissue homeostasis, and organ remodeling. Due to their ability to serve as a cargo for proteins, lipids, and nucleic acids, which often reflects the cellular source, they should be considered the future of the natural nanodelivery of bio-compounds. To date, natural nanovesicles, such as exosomes, have been shown to represent a source of diseas…

theranosticsregenerative medicineReviewexosomesBiologyRegenerative medicineExtracellular vesiclesCatalysisTheranostic NanomedicineCatalysiInorganic Chemistrylcsh:Chemistry03 medical and health sciencesParacrine signallingExtracellular Vesicles0302 clinical medicineDrug Delivery SystemsNeoplasmsAnimalsHumansPhysical and Theoretical ChemistryLipid bilayerMolecular Biologylcsh:QH301-705.5Tissue homeostasisSpectroscopy030304 developmental biology0303 health sciencesDrug CarriersVesicleOrganic ChemistrybiomarkersComputer Science Applications1707 Computer Vision and Pattern RecognitionBiological TransportGeneral MedicineBiomarkerMicrovesiclesnanodelivery3. Good healthComputer Science ApplicationsCell biologyExosomeTheranosticlcsh:Biology (General)lcsh:QD1-999030220 oncology & carcinogenesisSignal transductionextracellular vesicles (EVs)Signal TransductionInternational Journal of Molecular Sciences
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Occlusion-derived baculovirus: interaction with human cells and evaluation of the envelope protein P74 as a surface display platform.

2008

To develop complementary baculovirus-based tools for gene delivery and display technologies, the interaction of occlusion-derived baculovirus (ODV) with human cells, and the functionality of the P74 ODV envelope protein for display of the IgG-binding Z domains (ZZP74) were evaluated. The cellular binding of ODV was concentration-dependent and saturable. Only minority of the bound virions were internalized at both 37 and 4 degrees C, suggesting usage of direct membrane fusion as the entry mode. The intracellular transport of ODV was confined in vesicular structures peripheral to the plasma membrane, impeding subsequent nuclear entry and transgene expression. Transduction of ODV was not rescu…

virusesBlotting WesternVirus AttachmentBioengineeringBiologyGene deliverySpodopteraApplied Microbiology and BiotechnologyCell Linechemistry.chemical_compoundTransduction (genetics)Viral envelopeMicroscopy Electron TransmissionViral Envelope ProteinsCell Line TumorAnimalsHumansMicroscopy ConfocalfungiLipid bilayer fusionSodium butyrateGeneral MedicineMolecular biologyFusion proteinCell biologyNocodazolechemistryCell cultureElectrophoresis Polyacrylamide GelBaculoviridaeBiotechnologyJournal of biotechnology
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Binding and internalization of human papillomavirus type 33 virus-like particles by eukaryotic cells

1995

Infection of cells by human papillomaviruses (HPVs) associated with malignant genital lesions has not been studied because of the lack of an in vitro system and the unavailability of virions. We have now used virus-like particles (VLPs) of HPV type 33 to analyze the initial events in the interaction of the HPV capsid with cell lines. Binding of VLPs to HeLa cells was observed in biochemical assays and by immunofluorescence. VLP binding was inhibited by antisera raised against VLPs but not by monoclonal antibodies recognizing either L1 or L2 epitopes accessible on VLPs. Under saturating conditions, approximately 2 x 10(4) VLPs were bound per cell, with a dissociation constant of about 100 pM…

virusesImmunoelectron microscopyImmunologyBiologyAntibodies ViralMembrane Fusioncomplex mixturesMicrobiologyVirusEpitopeCell LineMiceVirologyAnimalsHumansMicroscopy ImmunoelectronPapillomaviridaeCapsomereVirionMembrane Proteinsvirus diseasesLipid bilayer fusionbiochemical phenomena metabolism and nutritionMolecular biologyEndocytosisEndocytic vesicleCapsidCell cultureInsect ScienceResearch ArticleJournal of Virology
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Lipid Binding Controls Dimerization of the Coat Protein p24 Transmembrane Helix

2019

Abstract Coat protein (COP) I and COP II complexes are involved in the transport of proteins between the endoplasmic reticulum and the Golgi apparatus in eukaryotic cells. The formation of COP I/II complexes at membrane surfaces is an early step in vesicle formation and is mastered by p24, a type I transmembrane protein. Oligomerization of p24 monomers was suggested to be mediated and/or stabilized via interactions within the transmembrane domain, and the p24 transmembrane helix appears to selectively bind a single sphingomyelin C18:0 molecule. Furthermore, a potential cholesterol-binding sequence has also been predicted in the p24 transmembrane domain. Thus, sphingomyelin and/or cholestero…

virusesLipid BilayersBiophysicsProtein Structure Secondary03 medical and health sciencessymbols.namesake0302 clinical medicineimmune system diseasesAmino Acid Sequence030304 developmental biology0303 health sciencesChemistryEndoplasmic reticulumVesicleCholesterol bindingvirus diseasesArticlesCOPIGolgi apparatusLipidsTransmembrane proteinSphingomyelinsTransmembrane domainCholesterolsymbolsBiophysicsCapsid Proteinslipids (amino acids peptides and proteins)SphingomyelinDimerization030217 neurology & neurosurgeryBiophysical Journal
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An experimental model for mimicking biological systems: the Belousov-Zhabotinsky reaction in Lipid membranes

2006

{LIPID} {BILAYERS}Belousov-Zhabotinsky reaction; Biomimetic systems; Cell membranes; Lipid bilayers; Morphogenesis; Self-organizing systemsEcologyLipid bilayersChemistryExperimental modelBelousov-Zhabotinsky reaction{BELOUSOV-ZHABOTINSKY} {REACTION}; Biomimetic systems; Cell membranes; {LIPID} {BILAYERS}; morphogenesis; Self-organizing systemsSelf-organizing systemsBiomimetic systemsCell membranesMembraneBelousov–Zhabotinsky reactionBiophysicsMorphogenesis{BELOUSOV-ZHABOTINSKY} {REACTION}Lipid bilayerEcology Evolution Behavior and Systematics
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Interplay between the Belousov-Zhabotinsky reaction-diffusion system and biomimetic matrices

2007

Abstract Interactions between reaction–diffusion systems and restricted host environments are a subject of widespread interest. In this work the behaviour of the Belousov–Zhabotinsky reaction was investigated in lamellar phases formed by phospholipid bilayers with relevance for biological systems. The influence of the reactive medium on the structure of the lipid matrix and, in turn, the influence of the matrix on the dynamical evolution of chemical patterns, were studied by small angle scattering.

{PATTERN}Work (thermodynamics)Molecular \& ChemicalChemistrySmall-angle X-ray scatteringDiffusionPhysicsGeneral Physics and AstronomyChemistry; Physical; {LIPID-BILAYERS}; {PATTERN}; Physics; Atomic; Molecular \& Chemical; {WAVES}AtomicMatrix (mathematics)ChemistryBelousov–Zhabotinsky reactionChemical physics{LIPID-BILAYERS}Physical{WAVES}Physical chemistryLamellar structurePhysical and Theoretical ChemistrySmall-angle scatteringLipid bilayer
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