Search results for "molecular-dynamics simulations"

showing 3 items of 3 documents

Negatively Charged Gangliosides Promote Membrane Association of Amphipathic Neurotransmitters

2018

Lipophilic neurotransmitters (NTs) such as dopamine are chemical messengers enabling neurotransmission by adhering onto the extracellular surface of the post-synaptic membrane in a synapse, followed by binding to their receptors. Previous studies have shown that the strength of the NT-membrane association is dependent on the lipid composition of the membrane. Negatively charged lipids such as phosphatidylserine, phosphatidylglycerol, and phosphatidic acid have been indicated to promote NT-membrane binding, however these anionic lipids reside almost exclusively in the intracellular leaflet of the post-synaptic membrane instead of the extracellular leaflet facing the synaptic cleft. Meanwhile…

0301 basic medicineMOLECULAR-DYNAMICS SIMULATIONSBIOMOLECULAR SYSTEMSkolesteroliasetyylikoliiniSynaptic TransmissionsolukalvotCell membranechemistry.chemical_compoundSCHIZOPHRENIAmolekyylidynamiikkamolecular dynamics (MD)neurotransmissionvälittäjäaineetChemistryLIPID-MEMBRANESGeneral NeurosciencePhosphatidylserineALZHEIMERS-DISEASEMembranemedicine.anatomical_structureHAMILTONIAN REPLICA EXCHANGElipids (amino acids peptides and proteins)dopamineIntracellularneurotransmittermonosialotetrahexosylganglioside (GM1)Synaptic cleftG(M1) GangliosideMolecular Dynamics SimulationNeurotransmission03 medical and health sciencesExtracellularmedicineAnimalsmonosialotetrahexosylgangliosidebinding free energyPhosphatidylglyceroldopamiiniBinding SitesCell Membranehistamiini3112 Neurosciencesta1182cholesterolBILAYERhistamineacetylcholinehermosolut030104 developmental biologyFORCE-FIELDBiophysicssynapsit
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Chemical Identification at the Solid–Liquid Interface

2017

Solid-liquid interfaces are decisive for a wide range of natural and technological processes, including fields as diverse as geochemistry and environmental science as well as catalysis and corrosion protection. Dynamic atomic force microscopy nowadays provides unparalleled structural insights into solid-liquid interfaces, including the solvation structure above the surface. In contrast, chemical identification of individual interfacial atoms still remains a considerable challenge. So far, an identification of chemically alike atoms in a surface alloy has only been demonstrated under well-controlled ultrahigh vacuum conditions. In liquids, the recent advent of three-dimensional force mapping…

CALCIUM-CARBONATEMOLECULAR-DYNAMICS SIMULATIONSSURFACEInterface (Java)AlloyNanotechnology02 engineering and technologyengineering.material010402 general chemistry53001 natural sciencesAQUEOUS-SOLUTIONCorrosionElectrochemistryWATERGeneral Materials ScienceFIELDSpectroscopySpectroscopySolid liquidATOMIC-FORCE MICROSCOPYta114ChemistryAtomic force microscopyHYDRATIONSolvationSurfaces and Interfaces021001 nanoscience & nanotechnologyCondensed Matter Physics0104 chemical sciencesRESOLUTIONengineeringIdentification (biology)0210 nano-technologyLangmuir
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Anomalous surface diffusion of protons on lipid membranes.

2014

AbstractThe cellular energy machinery depends on the presence and properties of protons at or in the vicinity of lipid membranes. To asses the energetics and mobility of a proton near a membrane, we simulated an excess proton near a solvated DMPC bilayer at 323 K, using a recently developed method to include the Grotthuss proton shuttling mechanism in classical molecular dynamics simulations. We obtained a proton surface affinity of −13.0 ± 0.5 kJ mol−1. The proton interacted strongly with both lipid headgroup and linker carbonyl oxygens. Furthermore, the surface diffusion of the proton was anomalous, with a subdiffusive regime over the first few nanoseconds, followed by a superdiffusive re…

Surface diffusionPhysics::Biological PhysicsProtonChemistryBilayerLipid BilayersBiophysicsDiffusionQuantitative Biology::Subcellular ProcessesMolecular dynamicsCrystallographymolecular-dynamics simulationsMembraneDiffusion processChemical physicsphosphatidylcholine bilayersRestricted DiffusionChannels and TransportersProtonsDiffusion (business)Dimyristoylphosphatidylcholineta116
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