Jasna Urbanija scite author profile

We observed monoclonal antibody mediated coalescence of negatively charged giant unilamellar phospholipid vesicles upon close approach of the vesicles. This feature is described, using a mean field density functional theory and Monte Carlo simulations, as that of two interacting flat electrical double layers. Antibodies are considered as spherical counterions of finite dimensions with two equal effective charges spatially separated by a fixed distance l inside it. We calculate the equilibrium configuration of the system by minimizing the free energy. The results obtained by solving the integrodifferential equation and by performing the Monte Carlo simulation are in excellent agreement. For high enough charge densities of the interacting surfaces and large enough l, we obtain within a mean field approach an attractive interaction between like-charged surfaces originating from orientational ordering of quadrupolar counterions. As expected, the interaction between surfaces turns repulsive as the distance between charges is reduced.

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Coalescence of phospholipid membranes as a possible origin of anticoagulant effect of serum proteins

Urbanija

Tomšič

Lokar

et al. 2007

Chemistry and Physics of Lipids

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Attachment of β2-glycoprotein I to negatively charged liposomes may prevent the release of daughter vesicles from the parent membrane

et al. 2008

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The temperature-induced budding of POPC-cardiolipin-cholesterol, POPC-POPS-cholesterol and POPC-POPG-cholesterol giant lipid vesicles in the presence of beta 2-glycoprotein I (beta 2-GPI) in the outer solution was studied experimentally and theoretically. The observed budding transition of vesicles was continuous which can be explained by taking into account the orientational ordering and direct interactions between oriented lipids. The attachment of positively charged beta 2-GPI to the negatively charged outer surface of POPC-cardiolipin-cholesterol, POPC-POPS-cholesterol and POPC-POPG-cholesterol giant vesicles caused coalescence of the spheroidal membrane bud with the parent vesicle before the bud could detach from the parent vesicle, i.e. vesiculate. Theoretically, the protein-mediated attraction between the membrane of a bud and the parent membrane was described as an interaction between two electric double layers. It was shown that the specific spatial distribution of charge within beta 2-GPI molecules attached to the negatively charged membrane surface may explain the observed attraction between like-charged membrane surfaces.

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Agglutination of like-charged red blood cells induced by binding of β2-glycoprotein I to outer cell surface

Lokar

Urbanija

Frank

et al. 2008

Bioelectrochemistry

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Archaebacterial lipid membranes as models to study the interaction of 10-N-nonyl acridine orange with phospholipids

Lobasso

Polidoro

Lopalco

et al. 2009

Chemistry and Physics of Lipids

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Jasna Urbanija

Attraction between negatively charged surfaces mediated by spherical counterions with quadrupolar charge distribution

Coalescence of phospholipid membranes as a possible origin of anticoagulant effect of serum proteins

Attachment of β2-glycoprotein I to negatively charged liposomes may prevent the release of daughter vesicles from the parent membrane

Agglutination of like-charged red blood cells induced by binding of β2-glycoprotein I to outer cell surface

Archaebacterial lipid membranes as models to study the interaction of 10-N-nonyl acridine orange with phospholipids

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