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Influence of polar co-solutes and salt on the hydration of lipid membranes
Publikationstyp
Journal Article
Date Issued
2019
Sprache
English
Author(s)
Volume
21
Issue
31
Start Page
16989
End Page
17000
Citation
Physical Chemistry Chemical Physics 21 (31): 16989-17000 (2019)
Publisher DOI
Scopus ID
Publisher
The Royal Soc. of Chemistry
The influence of the co-solutes TMAO, urea, and NaCl on the hydration repulsion between lipid membranes is investigated in a combined experimental/simulation approach. Pressure-hydration curves obtained via sorption experiments reveal that the repulsion significantly increases when the membranes are loaded with co-solutes, most strongly for TMAO. As a result, the co-solutes retain additional water molecules and therefore provide membranes with a fluid and more physiological environment. The experimental data are quantitatively reproduced in complementary solvent-explicit atomistic molecular dynamics simulations, which yield the chemical potential of water. Simulation analysis reveals that the additional repulsion arises from the osmotic pressure generated by the co-solutes, an effect which is maximal for TMAO, due to its unfavorable interactions with the lipid headgroup layer and its extraordinarily high osmotic coefficient.
DDC Class
620: Engineering