Insights from Computer Simulations
“There is plenty of room at the bottom” Richard Feynman
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Volume per lipid determined by Voronoi tessellation for lipid bilayers and nanovesicles
(2023)
.
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Stress asymmetry of bilayer leaflets controls the adhesion
(Figure 43) and fusion
(Figure 44) of nanovesicles
(2023) .
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Stress asymmetry of bilayer leaflets controls the formation
(Figure 20) and fission
(Figure 22) of membrane necks
(2023) .
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Stress asymmetry of bilayer leaflets controls the spatio-temporal remodeling of lipid bilayers and nanovesicles
(2023).
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Complete and stalled endocytosis of condensate droplets by nanovesicles for positive and
negative line tension
(2023).
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Large stress asymmetries of lipid bilayers and nanovesicles generate lipid flip-flops and bilayer instabilities
(2022).
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The leaflets of tensionless bilayers can experience significant leaflet tensions, review
(2022) .
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Budding and fission of nanovesicles induced by adsorption of small solutes
(2021) .
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Bilayer membranes with frequent flip flops relax towards tensionless leaflets
(2019) .
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The budding of nanovesicles leads to hourglass-shaped membrane necks
(2019) .
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Leaflet tensions determine the shape transformations of spherical nanovesicles
(2019) .
-
Nanodroplets at membranes create non-axisymmetric membrane necks via negative line tension
(2018) .
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Cooperative binding of the membrane-anchored proteins CD47 and SIRPα
(2018) .
-
The fluctuation spectrum of two-component lipid bilayers has a universal prefactor
(2018) .
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Lipids with bulky head groups generate large membrane curvatures
by small compositional asymmetries
(2018) .
-
Long PEG molecules adsorb at liquid-ordered and liquid-disordered membranes
(2016) .
-
Asymmetric adsorption
(2015)
and depletion
(2016)
layers generate large spontaneous curvatures.
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Binding constants of membrane-anchored molecules depend strongly on the
membrane's nanoscale roughness
(2013) .
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The glycosidic linkages of oligosaccharides are statistically independent degrees of freedom
(2012).
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Membrane fusion induced by mechanical tension
(2005)
exhibits several energy barriers
(2007)
and involves splayed lipids (2010).
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Membranes undergo bending undulations down to molecular scales
(1999) .
-
The tensionless state of bilayer membranes is accessible to Molecular Dynamics simulations
(1998) .