0000000000021492

AUTHOR

Stefanie Pannwitt

showing 4 related works from this author

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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Lipid Bilayer Interactions of Peptidic Supramolecular Polymers and Their Impact on Membrane Permeability and Stability.

2020

The synthesis and physicochemical characterization of supramolecular polymers with tunable assembly profiles offer exciting opportunities, involving the development of new biomedical carriers. Because synthetic nanocarriers aim to transport substances across or toward cellular membranes, we evaluated the interactions of amphiphilic peptide-based supramolecular polymers with lipid bilayers. Here, we focused on nanorod-like supramolecular polymers, obtained from two C3-symmetric dendritic peptide amphiphiles with alternating Phe/His sequences, equipped with a peripheral tetraethylene glycol dendron (C3-PH) or charged ethylenediamine end groups (C3-PH+). Triggered by pH changes, these amphiphi…

Cell Membrane PermeabilityMembrane permeabilityCell SurvivalMacromolecular SubstancesPolymersSurface PropertiesLipid BilayersSupramolecular chemistryBiochemistryAmphiphileHumansParticle SizeLipid bilayerCells CulturedCell Proliferationchemistry.chemical_classificationNanotubesMolecular StructureChemistryBilayerHydrogen-Ion ConcentrationSupramolecular polymersMembraneHEK293 CellsBiophysicsDrug carrierPeptidesHydrophobic and Hydrophilic InteractionsBiochemistry
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Against Expectations: Unassisted RNA Adsorption onto Negatively Charged Lipid Bilayers

2019

The composition and physicochemical properties of biological membranes can be altered by diverse membrane integral and peripheral proteins as well as by small molecules, natural and synthetic. Diverse oligonucleotides have been shown to electrostatically interact with cationic and bivalent ion loaded zwitterionic liposomes, leading to the formation of oligonucleotide-liposome aggregates. However, interaction of RNAs with other membrane surfaces remains ill understood. We used the nonnatural RNA10 to investigate RNA binding to anionic and net-uncharged membrane surfaces. RNA10 had initially been selected in a screen for nonnatural RNA motives that bind to phosphatidylcholine liposomes in the…

Surface PropertiesLipid BilayersFluorescence Polarization02 engineering and technology010402 general chemistry01 natural sciencesAdsorptionElectrochemistryGeneral Materials ScienceParticle SizeLipid bilayerSpectroscopyChemistryfungiPeripheral membrane proteinfood and beveragesRNABiological membraneSurfaces and Interfaces021001 nanoscience & nanotechnologyCondensed Matter PhysicsSmall molecule0104 chemical sciencesMembraneBiophysicsRNAAdsorption0210 nano-technologyhuman activitiesLangmuir
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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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