Type of Document	Undergraduate Thesis
Author	Uspal, William Eric
Author's Email Address	brokensymmetry@gmail.com
URN	etd-04192007-154131
Title	Controlled of Budded Domains in Amphiphilic Bilayer Membranes
Degree	Bachelor of Science
Program	Engineering Physics
School	University Honors College
Advisory Committee	Advisor Name Title Anna C. Balazs Committee Chair Adam K. Leibovich Committee Member Chandralekha Singh Committee Member Michael J. Fasolka Committee Member
Keywords	vesicles bilayers Biomembranes computer simulations shear flow surface energy phase separation biomechanics bioenergetics biothermics
Date of Defense	2007-04-04
Availability	unrestricted
Abstract Phase separated domains in multicomponent vesicles form spherical buds to reduce interfacial energy. We study the response of a multicomponent budded vesicle to an imposed shear flow with dissipative particle dynamics. We find that shear can either act to stretch the bud open or separate the bud from the vesicle, depending on bud orientation. We examine the interplay of interfacial tension, bending energy, and shear in determining the behavior of the vesicle, and provide criteria for the design of vesicles for controlled bud release. The neck connecting the budded domain with the bulk vesicle assumes a catenoid shape to minimize bending energy. We model the mechanism for pinch-off of catenoid necks with continuum elastic theory and dissipative particle dynamics. We examine pore nucleation and growth driven by Gaussian energy, by the adhesion energy of an encapsulated particle, and by the line energy of an interface between two amphiphile species, aiming to provide principles for the design of vesicles for biomimetic phagocytosis.
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