Yoav Ravid
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View article: Coupling Anisotropic Curvature and Nematic Order: Mechanisms of Membrane Shape Remodeling
Coupling Anisotropic Curvature and Nematic Order: Mechanisms of Membrane Shape Remodeling Open
This study theoretically investigates how anisotropic curved membrane components (CMCs) control vesicle morphology through curvature sensing, nematic alignment, topological defects, and volume constraints. By comparing arc-shaped and saddl…
View article: Coupling anisotropic curvature and nematic order: mechanisms of membrane shape remodeling
Coupling anisotropic curvature and nematic order: mechanisms of membrane shape remodeling Open
This study theoretically investigates how anisotropic curved membrane components (CMCs) control vesicle morphology through curvature sensing, nematic alignment, topological defects and volume constraints.
View article: Numerical studies of triangulated vesicles with anisotropic membrane inclusions
Numerical studies of triangulated vesicles with anisotropic membrane inclusions Open
In this study, we implement the deviatoric curvature model to examine dynamically triangulated surfaces with anisotropic membrane inclusions. The Monte-Carlo numerical scheme is devised to not only minimize the total bending energy of the …
View article: Theoretical model of membrane protrusions driven by curved active proteins
Theoretical model of membrane protrusions driven by curved active proteins Open
Eukaryotic cells intrinsically change their shape, by changing the composition of their membrane and by restructuring their underlying cytoskeleton. We present here further studies and extensions of a minimal physical model, describing a c…
View article: Theoretical model of membrane protrusions driven by curved active proteins
Theoretical model of membrane protrusions driven by curved active proteins Open
Eukaryotic cells intrinsically change their shape, by changing the composition of their membrane and by restructuring their underlying cytoskeleton. We present here further studies and extensions of a minimal physical model, describing a c…
View article: Theoretical model of membrane protrusions driven by curved active proteins
Theoretical model of membrane protrusions driven by curved active proteins Open
Eukaryotic cells intrinsically change their shape, by changing the composition of their membrane and by restructuring their underlying cytoskeleton. We present here further studies and extensions of a minimal physical model, describing a c…