Insights from Computer Simulations

“There is plenty of room at the bottom” Richard Feynman

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