Confined multilamellae prefer cylindrical morphology: AAAA theory of myelin formation

J. R. Huang; L. N. Zou; T. A. Witten

doi:10.1140/epje/e2005-00035-8

Confined multilamellae prefer cylindrical morphology: AAAA theory of myelin formation

J. R. Huang, L. N. Zou, T. A. Witten

Huck Institutes of the Life Sciences

Research output: Contribution to journal › Article › peer-review

32 Scopus citations

Abstract

By evaporating a drop of lipid dispersion we generate the myelin morphology often seen in dissolving surfactant powders. We explain these puzzling nonequilibrium structures using a geometric argument: the bilayer repeat spacing increases and thus the repulsion between bilayers decreases when a multilamellar disk is converted into a myelin without gain or loss of material and with number of bilayers unchanged. Sufficient reduction in bilayer repulsion can compensate for the cost in curvature energy, leading to a net stability of the myelin structure. A numerical estimate predicts the degree of dehydration required to favor myelin structures over flat lamellae.

Original language	English (US)
Pages (from-to)	279-285
Number of pages	7
Journal	European Physical Journal E
Volume	18
Issue number	3
DOIs	https://doi.org/10.1140/epje/e2005-00035-8
State	Published - Nov 2005

All Science Journal Classification (ASJC) codes

Biotechnology
Biophysics
General Chemistry
General Materials Science
Surfaces and Interfaces

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10.1140/epje/e2005-00035-8

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abstract = "By evaporating a drop of lipid dispersion we generate the myelin morphology often seen in dissolving surfactant powders. We explain these puzzling nonequilibrium structures using a geometric argument: the bilayer repeat spacing increases and thus the repulsion between bilayers decreases when a multilamellar disk is converted into a myelin without gain or loss of material and with number of bilayers unchanged. Sufficient reduction in bilayer repulsion can compensate for the cost in curvature energy, leading to a net stability of the myelin structure. A numerical estimate predicts the degree of dehydration required to favor myelin structures over flat lamellae.",

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AB - By evaporating a drop of lipid dispersion we generate the myelin morphology often seen in dissolving surfactant powders. We explain these puzzling nonequilibrium structures using a geometric argument: the bilayer repeat spacing increases and thus the repulsion between bilayers decreases when a multilamellar disk is converted into a myelin without gain or loss of material and with number of bilayers unchanged. Sufficient reduction in bilayer repulsion can compensate for the cost in curvature energy, leading to a net stability of the myelin structure. A numerical estimate predicts the degree of dehydration required to favor myelin structures over flat lamellae.

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Confined multilamellae prefer cylindrical morphology: AAAA theory of myelin formation

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