Large Deformation Mechanics of Plasma Membrane Chained Vesicles in Cells
Abstract
The clathrin-coated pits, vesicles and chained vesicles on the inner surface of the plasma membrane facilitate the cell to transport specific extracellular macromolecules. This cellular process is strongly involved with large mechanical deformations of the plasma membrane accompanied by changes in membrane curvature. The assembly of the clathrin coat is thought to provide curvature into the membrane. Hence, effects of in-plane shear elasticity due to these coat structure may be significant on the vesicular mechanics. In this study, large deformation mechanics of plasma membrane chained vesicles in cells have been formulated based on minimization of bending and in-plane shear strain energy of the membrane. Effects of outer surrounding cytoplasmic flat membrane upon mechanically stable shapes of the vesicles were revealed, while effects of in-plane shear elasticity were partly discussed.
- Publication:
-
JSME International Journal Series C
- Pub Date:
- 2001
- DOI:
- Bibcode:
- 2001JSMEC..44..928K
- Keywords:
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- Chained Vesicles;
- Plasma Membrane;
- Shear Elasticity;
- Strain Energy;
- Large Deformation Mechanics;
- Shape Analysis