Accéder au contenu
MilliporeSigma

Electrodynamics of lipid membrane interactions in the presence of zwitterionic buffers.

Biophysical journal (2011-07-20)
Megan M Koerner, Luis A Palacio, Johnnie W Wright, Kelly S Schweitzer, Bruce D Ray, Horia I Petrache
RÉSUMÉ

Due to thermal motion and molecular polarizability, electrical interactions in biological systems have a dynamic character. Zwitterions are dipolar molecules that typically are highly polarizable and exhibit both a positive and a negative charge depending on the pH of the solution. We use multilamellar structures of common lipids to identify and quantify the effects of zwitterionic buffers that go beyond the control of pH. We use the fact that the repeat spacing of multilamellar lipid bilayers is a sensitive and accurate indicator of the force balance between membranes. We show that common buffers can in fact charge up neutral membranes. However, this electrostatic effect is not immediately recognized because of the concomitant modification of dispersion (van der Waals) forces. We show that although surface charging can be weak, electrostatic forces are significant even at large distances because of reduced ionic screening and reduced van der Waals attraction. The zwitterionic interactions that we identify are expected to be relevant for interfacial biological processes involving lipid bilayers, and for a wide range of biomaterials, including amino acids, detergents, and pharmaceutical drugs. An appreciation of zwitterionic electrodynamic character can lead to a better understanding of molecular interactions in biological systems and in soft materials in general.

MATÉRIAUX
Référence du produit
Marque
Description du produit

Sigma-Aldrich
1,2-Dilinoleoyl-sn-glycero-3-phosphocholine, ≥99% (TLC), lyophilized powder