In studies of the transfer, distribution and biochemical activity of metal ions it is typically assumed that the phospholipid bilayer acts as an inert barrier. Yet, there is mounting evidence that metal ions can influence the physical properties of membranes. Little is known of the basis of this effect. In this work the location and distribution of common metal ions: Na+, Mg2+, and Ca2+ in phospholipid membranes were studied. Computer simulations of lipid membrane segments in aqueous environment showed that the ions penetrate the membrane headgroup zone and co-localize with the phosphate and the ester moieties. Analysis of the chemical environment of the ions in the simulations suggested that the co-localization is facilitated by coordinati...
We calculated the free energies for calcium, magnesium, and zinc ions binding to a zwitterionic phos...
The effect of metal cations on the phase behavior and hydration characteristics of phospholipid memb...
Exploring the free energy landscapes of metal cations on phospholipid membrane surfaces is important...
In studies of the transfer, distribution and biochemical activity of metal ions it is typically assu...
Metal cations are ubiquitous components in biological environments and play an important role in reg...
Metal cations are ubiquitous components in biological environments and play an important role in reg...
Adsorption of metal cations onto a cellular membrane changes its properties, such as interactions wi...
AbstractIt is known that phosphatidylserine (PS−) lipids have a very similar affinity for Ca2+ and M...
Adsorption of metal cations onto a cellular membrane changes its properties, such as interactions wi...
Free energy surfaces associated to the adsorption of metal cations ((Formula presented.), (Formula p...
AbstractBiological membranes composed of lipids and proteins are in contact with electrolytes like a...
Despite the vast amount of experimental and theoretical studies on the binding affinity of cations -...
We study the interaction of alkali metal chlorides with lipid vesicles made of palmitoyloleoylphosph...
Advanced fluorescence techniques were used to explore tree distinct topics concerning biological mem...
This work assessed effects of metal binding on membrane fluidity, liposome size, and lateral organiz...
We calculated the free energies for calcium, magnesium, and zinc ions binding to a zwitterionic phos...
The effect of metal cations on the phase behavior and hydration characteristics of phospholipid memb...
Exploring the free energy landscapes of metal cations on phospholipid membrane surfaces is important...
In studies of the transfer, distribution and biochemical activity of metal ions it is typically assu...
Metal cations are ubiquitous components in biological environments and play an important role in reg...
Metal cations are ubiquitous components in biological environments and play an important role in reg...
Adsorption of metal cations onto a cellular membrane changes its properties, such as interactions wi...
AbstractIt is known that phosphatidylserine (PS−) lipids have a very similar affinity for Ca2+ and M...
Adsorption of metal cations onto a cellular membrane changes its properties, such as interactions wi...
Free energy surfaces associated to the adsorption of metal cations ((Formula presented.), (Formula p...
AbstractBiological membranes composed of lipids and proteins are in contact with electrolytes like a...
Despite the vast amount of experimental and theoretical studies on the binding affinity of cations -...
We study the interaction of alkali metal chlorides with lipid vesicles made of palmitoyloleoylphosph...
Advanced fluorescence techniques were used to explore tree distinct topics concerning biological mem...
This work assessed effects of metal binding on membrane fluidity, liposome size, and lateral organiz...
We calculated the free energies for calcium, magnesium, and zinc ions binding to a zwitterionic phos...
The effect of metal cations on the phase behavior and hydration characteristics of phospholipid memb...
Exploring the free energy landscapes of metal cations on phospholipid membrane surfaces is important...