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Self-Assembled Fluid Phase Floating Membranes with Tunable Water Interlayers. | LitMetric

Self-Assembled Fluid Phase Floating Membranes with Tunable Water Interlayers.

Langmuir

ISIS Pulsed Neutron and Muon Source, Science and Technology Facilities Council , Rutherford Appleton Laboratory, Harwell Science and Innovation Campus , Didcot , Oxfordshire OX11 OQX , U.K.

Published: October 2019

AI Article Synopsis

  • A method was developed to create fluid, unsaturated lipid bilayers by self-assembling them onto charged surfaces, enabling tunable distances due to water interlayers.
  • Using neutron reflectometry, scientists discovered an 8 Å water layer forms between a zwitterionic lipid and a negatively charged surface, helping to achieve high coverage bilayers by reducing fabrication complexity.
  • The distance between the bilayer and surface can be adjusted using NaCl, demonstrating the feasibility of creating biomimetic models for biochemical studies and technological applications like biosensors.

Article Abstract

We present a reliable method for the fabrication of fluid phase, unsaturated lipid bilayers by self-assembly onto charged Self-Assembled Monolayer (SAM) surfaces with tunable membrane to surface aqueous interlayers. Initially, the formation of water interlayers between membranes and charged surfaces was characterized using a comparative series of bilayers deposited onto charged, self-assembled monolayers by sequential layer deposition. Using neutron reflectometry, a bilayer to surface water interlayer of ∼8 Å was found between the zwitterionic phospholipid 1,2-dipalmitoyl--glycero-3-phosphocholine (DPPC) membrane and an anionic carboxyl terminated grafted SAM with the formation of this layer attributed to bilayer repulsion by hydration water on the SAM surface. Furthermore, we found we could significantly reduce the technical complexity of sample fabrication through self-assembly of planar membranes onto the SAM coated surfaces. Vesicle fusion onto carboxyl-terminated monolayers yielded high coverage (>95%) bilayers of 1-palmitoyl-2-oleoyl--glycero-3-phosphocholine (POPC) which floated on a 7-11 Å solution interlayer between the membrane and the surface. The surface to membrane distance was then tuned via the addition of 200 mM NaCl to the bulk solution immersing a POPC floating membrane, which caused the water interlayer to swell reversibly to ∼33 Å. This study reveals that biomimetic membrane models can be readily self-assembled from solution onto functionalized surfaces without the use of polymer supports or tethers. Once assembled, surface to membrane distance can be tailored to the experimental requirements using physiological concentrations of electrolytes. These planar bilayers only very weakly interact with the substrate and are ideally suited for use as biomimetic models for accurate biochemical and biophysical studies, as well as for technological applications, such as biosensors.

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Source
http://dx.doi.org/10.1021/acs.langmuir.9b02350DOI Listing

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