0000000000015881

AUTHOR

Kirill Katsov

showing 3 related works from this author

Field theoretic study of bilayer membrane fusion: I. Hemifusion mechanism

2003

Self-consistent field theory is used to determine structural and energetic properties of metastable intermediates and unstable transition states involved in the standard stalk mechanism of bilayer membrane fusion. A microscopic model of flexible amphiphilic chains dissolved in hydrophilic solvent is employed to describe these self-assembled structures. We find that the barrier to formation of the initial stalk is much smaller than previously estimated by phenomenological theories. Therefore its creation it is not the rate limiting process. The barrier which is relevant is associated with the rather limited radial expansion of the stalk into a hemifusion diaphragm. It is strongly affected by…

Models MolecularMembrane FluidityLipid BilayersStatic ElectricityBiophysicsFOS: Physical sciencesCondensed Matter - Soft Condensed Matter010402 general chemistryCurvatureQuantitative Biology - Quantitative MethodsMembrane Fusion01 natural sciencesQuantitative Biology::Subcellular Processes03 medical and health sciencesElectromagnetic FieldsMetastabilityPhase (matter)Computer SimulationLipid bilayerQuantitative Methods (q-bio.QM)030304 developmental biology0303 health sciencesFusionMembranesChemistryBilayerLipid bilayer fusionMembranes Artificial0104 chemical sciencesCrystallographyMembraneModels ChemicalChemical physicsFOS: Biological sciencesSoft Condensed Matter (cond-mat.soft)Porosity
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Coarse-grained models and collective phenomena in membranes: Computer simulation of membrane fusion

2003

We discuss the role coarse-grained models play in in- vestigating collective phenomena in bilayer membranes and place them in the context of alternative approaches. By reducing the de- grees of freedom and applying simple effective potentials, coarse- grained models can address the large time scales and length scales of collective phenomena in mem- branes. Although the mapping from a coarse-grained model onto chemi- cally realistic models is a challenge, such models provide a direct view on the phenomena that occur on the length scales of a few tens of nano- meters. Their relevance is exempli- ied by the study of fusion of model membranes. ' 2003 Wiley Periodicals,

PhysicsFusionMembranePolymers and PlasticsNano-Materials ChemistryLipid bilayer fusionContext (language use)NanotechnologyStatistical physicsPhysical and Theoretical ChemistryCondensed Matter PhysicsJournal of Polymer Science Part B: Polymer Physics
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Fusion of biological membranes

2005

The process of membrane fusion has been examined by Monte Carlo simulation, and is found to be very different than the conventional picture. The differences in mechanism lead to several predictions, in particular that fusion is accompanied by transient leakage. This prediction has recently been verified. Self-consistent field theory is applied to examine the free energy barriers in the different scenarios.

FusionMembraneMaterials scienceMonte Carlo methodGeneral Physics and AstronomyLipid bilayer fusionBiological membraneStatistical physicsBiological systemLeakage (electronics)Pramana
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