Phase Transitions And Spatially Ordered Counterion Association In Ionic-lipid Membranes: A Statistical Model

Tamashiro M.N.; Barbetta C.; Germano R.; Henriques V.B.

dc.creator	Tamashiro M.N.
dc.creator	Barbetta C.
dc.creator	Germano R.
dc.creator	Henriques V.B.
dc.date	2011
dc.date	2015-06-30T20:18:32Z
dc.date	2015-11-26T14:47:45Z
dc.date	2015-06-30T20:18:32Z
dc.date	2015-11-26T14:47:45Z
dc.date.accessioned	2018-03-28T21:58:21Z
dc.date.available	2018-03-28T21:58:21Z
dc.identifier
dc.identifier	Physical Review E - Statistical, Nonlinear, And Soft Matter Physics. , v. 84, n. 3, p. - , 2011.
dc.identifier	15393755
dc.identifier	10.1103/PhysRevE.84.031909
dc.identifier	http://www.scopus.com/inward/record.url?eid=2-s2.0-80053024633&partnerID=40&md5=6a4af5053d33222bb750e8c42d1314ce
dc.identifier	http://www.repositorio.unicamp.br/handle/REPOSIP/107527
dc.identifier	http://repositorio.unicamp.br/jspui/handle/REPOSIP/107527
dc.identifier	2-s2.0-80053024633
dc.identifier.uri	http://repositorioslatinoamericanos.uchile.cl/handle/2250/1253403
dc.description	We propose a statistical model to account for the gel-fluid anomalous phase transitions in charged bilayer- or lamellae-forming ionic lipids. The model Hamiltonian comprises effective attractive interactions to describe neutral-lipid membranes as well as the effect of electrostatic repulsions of the discrete ionic charges on the lipid headgroups. The latter can be counterion dissociated (charged) or counterion associated (neutral), while the lipid acyl chains may be in gel (low-temperature or high-lateral-pressure) or fluid (high-temperature or low-lateral-pressure) states. The system is modeled as a lattice gas with two distinct particle types-each one associated, respectively, with the polar-headgroup and the acyl-chain states-which can be mapped onto an Ashkin-Teller model with the inclusion of cubic terms. The model displays a rich thermodynamic behavior in terms of the chemical potential of counterions (related to added salt concentration) and lateral pressure. In particular, we show the existence of semidissociated thermodynamic phases related to the onset of charge order in the system. This type of order stems from spatially ordered counterion association to the lipid headgroups, in which charged and neutral lipids alternate in a checkerboard-like order. Within the mean-field approximation, we predict that the acyl-chain order-disorder transition is discontinuous, with the first-order line ending at a critical point, as in the neutral case. Moreover, the charge order gives rise to continuous transitions, with the associated second-order lines joining the aforementioned first-order line at critical end points. We explore the thermodynamic behavior of some physical quantities, like the specific heat at constant lateral pressure and the degree of ionization, associated with the fraction of charged lipid headgroups. © 2011 American Physical Society.
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dc.language	en
dc.publisher
dc.relation	Physical Review E - Statistical, Nonlinear, and Soft Matter Physics
dc.rights	aberto
dc.source	Scopus
dc.title	Phase Transitions And Spatially Ordered Counterion Association In Ionic-lipid Membranes: A Statistical Model
dc.type	Artículos de revistas

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