Jason J. Benkoski scite author profile

Supported lipid membranes are particularly attractive for use in biochemical assays because of their resistance to nonspecific adsorption and their unique ability to host transmembrane proteins. Although ideal for use in many surface-based detection techniques, supported bilayers can make the incorporation of proteins problematic due to the steric constraints of the underlying substrate. A recently developed strategy overcomes this obstacle by tethering liposomes to supported lipid bilayers via cholesterol-tagged DNA. Due to the fluidity of the bilayer, the vesicle assemblies exhibited significant lateral mobility. The corresponding diffusion coefficients were then investigated using fluorescence recovery after photobleaching (FRAP). The diffusivity was neither sensitive to the size of the vesicles nor to the length of the DNA tether. However, changing from single cholesterol tethers to double cholesterol tethers caused a decrease in the diffusivity of the assemblies by a factor of 3. Perhaps even more notable was the fact that single cholesterol-DNA without vesicles diffused 6 times faster than the corresponding assemblies. Double cholesterol-DNA diffused 11 times faster. This discrepancy is believed to arise from the fact that each vesicle is tethered to the bilayer by multiple DNA pairs.

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Field Induced Formation of Mesoscopic Polymer Chains from Functional Ferromagnetic Colloids

Benkoski

Bowles

Korth

et al. 2007

J. Am. Chem. Soc.

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The assembly and direct imaging of ferromagnetic nanoparticles into one-dimensional mesostructures (1-D) are reported. Polymer-coated ferromagnetic colloids (19 nm, 24 nm) were assembled at a crosslinkable oil-water interface under both magnetic field induced and zero-field conditions and permanently fixed into 1-D mesoscopic polymer chains (1-9 mum) in a process referred to as Fossilized Liquid Assembly (FLA). In the FLA process, nanoparticle chains were fixed at the oil interface through photopolymerization, enabling direct visualization of organized mesostructures using atomic force microscopy. Using the FLA methodology, we systematically investigated different conditions and demonstrated that dispersed ferromagnetic colloids possess sufficient dipolar interactions to organize into mesoscopic assemblies. Application of an external magnetic field during assembly enabled the formation of micron-sized chains which were aligned in the direction of the applied field. This universal methodology is an attractive alternative technique to cryogenic transmission electron microscopy (cryo-TEM) for the visualization of nanoparticle assembly in dispersed organic media.

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DHA-Induced Changes of Supported Lipid Membrane Morphology

et al. 2007

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Docosahexaenoic acid (DHA) is a polyunsaturated long fatty acid known to have fundamental effects on cell membrane function. Here, the effect of DHA on phosphocholine-supported lipid bilayers was measured using the quartz crystal microbalance with dissipation monitoring (QCM-D) technique. Above a concentration of 60 muM (i.e., near the critical micelle concentration), DHA had drastic effects on the viscoelastic properties of the supported membranes, suggesting a more complex process and structure than simple insertion of molecules in the bilayer. Fluorescence microscopy revealed the spontaneous formation of elongated out-growths from the bilayers, which were remarkable for their length ( approximately 100 mum) and extensive coverage of the surface. These results demonstrate the applicability of QCM-D as a method to screen for conditions where membrane remodeling occurs but also that complementary techniques are required to describe in more detail the changes in viscoelastic properties of the membrane. These results are highly relevant for the present rapid development in the field of model lipid membranes aiming toward increased knowledge about processes occurring at biological surfaces.

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Jason J. Benkoski

Lateral Mobility of Tethered Vesicle−DNA Assemblies

Field Induced Formation of Mesoscopic Polymer Chains from Functional Ferromagnetic Colloids

DHA-Induced Changes of Supported Lipid Membrane Morphology

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