Diffusion in Low-Dimensional Lipid Membranes

The diffusion behavior of biological components in cellular membranes is vital to the function of cells. By collapsing the complexity of planar 2D membranes down to one dimension, fundamental investigations of bimolecular behavior become possible in one dimension. Here we develop lipid nanolithograp...

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Bibliographic Details
Published inNano letters Vol. 14; no. 10; pp. 5984 - 5988
Main Authors Heath, George R, Roth, Johannes, Connell, Simon D, Evans, Stephen D
Format Journal Article
LanguageEnglish
Published Washington, DC American Chemical Society 08.10.2014
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Summary:The diffusion behavior of biological components in cellular membranes is vital to the function of cells. By collapsing the complexity of planar 2D membranes down to one dimension, fundamental investigations of bimolecular behavior become possible in one dimension. Here we develop lipid nanolithography methods to produce membranes, under fluid, with widths as low as 6 nm but extending to microns in length. We find reduced lipid mobility, as the width is reduced below 50 nm, suggesting different lipid packing in the vicinity of boundaries. The insertion of a membrane protein, M2, into these systems, allowed characterization of protein diffusion using high-speed AFM to demonstrate the first membrane protein 1D random walk. These quasi-1D lipid bilayers are ideal for testing and understanding fundamental concepts about the roles of dimensionality and size on physical properties of membranes from energy transfer to lipid packing.
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ISSN:1530-6984
1530-6992
DOI:10.1021/nl503024v