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    Structural investigation of sulfobetaines and phospholipid monolayers at the air-water interface

    Year: 2022

    Journal: Phys. Chem. Chem. Phys., Volume 24, SEP 28, page 22679–22690

    Authors: Elstone, Naomi; Arnold, Thomas; Skoda, Maximilian W. A.; Lewis, Simon E.; Li, Peixun; Hazell, Gavin; Edler, Karen J.

    Organizations: EPSRC Centre for Doctoral Training in Sustainable & Circular Technologies [EP/L016354/1, RB1610351, SI115421]

    Mixtures of sulfobetaine based lipids with phosphocholine phospholipids are of interest in order to study the interactions between zwitterionic surfactants and the phospholipids present in cell membranes. In this study we have investigated the structure of mixed monolayers of sulfobetaines and phosphocholine phospholipids. The sulfobetaine used has a single 18-carbon tad, and is referred to as SB3-18, and the phospholipid used is DMPC. Surface pressure-area isotherms of the samples were used to determine whether any phase transitions were present during the compression of the monolayers. Neutron and X-ray reflectometry were then used to investigate the structure of these monolayers perpendicular to the interface. We found that the average headgroup and tail layer thickness was reasonably consistent across all mixtures, with a variation of less than 3 angstrom reported in the total thickness of the monolayers at each surface pressure. However, by selective deuteration of the two components of the monolayers, it was found that the two components have different tad layer thicknesses. For the mixture with equal compositions of DMPC and SB3-18 or with a higher composition of DMPC the tad tilts were found to be constant, resulting in a greater tad layer thickness for SB3-18 due to its longer tad. For the mixture higher in SB3-18 this was not the case, the tad tilt angle for the two components was found to be different and DMPC was found to have a greater tad layer thickness than SB3-18 as a result.
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