Elastic membranes in confinement

Elastic membranes in confinement

An elastic membrane stretched between two walls takes a shape defined by its length and the volume of fluid it encloses. Many biological structures, such as cells, mitochondria and coiled DNA, have fine internal structure in which a membrane (or elastic member) is geometrically ‘confined’ by another...

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Bibliographic Details
Published in:Journal of the Royal Society interface Vol. 13; no. 120; p. 20160408
Main Authors: Bostwick, J. B., Miksis, M. J., Davis, S. H.
Format: Journal Article
Language:English
Published: England The Royal Society 01-07-2016
Subjects:
Bifurcation
Biological Mechanics
Cell Membrane - chemistry
Cell Membrane - metabolism
Elasticity
Interfaces
Life Sciences–Mathematics interface
Membranes
Mitochondrial Membranes - chemistry
Mitochondrial Membranes - metabolism
Mitochondrion
Models, Biological
membranes
biological mechanics
bifurcation
interfaces
mitochondrion
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Summary:An elastic membrane stretched between two walls takes a shape defined by its length and the volume of fluid it encloses. Many biological structures, such as cells, mitochondria and coiled DNA, have fine internal structure in which a membrane (or elastic member) is geometrically ‘confined’ by another object. Here, the two-dimensional shape of an elastic membrane in a ‘confining’ box is studied by introducing a repulsive confinement pressure that prevents the membrane from intersecting the wall. The stage is set by contrasting confined and unconfined solutions. Continuation methods are then used to compute response diagrams, from which we identify the particular membrane mechanics that generate mitochondria-like shapes. Large confinement pressures yield complex response diagrams with secondary bifurcations and multiple turning points where modal identities may change. Regions in parameter space where such behaviour occurs are then mapped.
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ISSN:1742-5689
1742-5662
DOI:10.1098/rsif.2016.0408