lipid bilayers การใช้

• Individual organelles are usually separately enclosed within their own lipid bilayers.
• Birefringence of lipid bilayers can be measured using dual polarization interferometry.
• They cause disruption of intermolecular interactions and dissociation of lipid bilayers.
• Another potential application of lipid bilayers is the field of biosensors.
• The mechanical rigidity of fluid membrane lipid bilayers and decreases their lateral diffusion coefficient.
• A new method to study lipid bilayers is Atomic force microscopy ( AFM ).
• An important contribution was the introduction of supported lipid bilayers to mimic cell surfaces.
• They can form lipid bilayers because of their amphiphilic characteristic.
• The nuclear membrane contains two lipid bilayers that encompass the contents of the nucleus.
• Lipid bilayers cannot be seen in a traditional microscope because they are too thin.
• AFM can also probe the mechanical nature of lipid bilayers.
• Lipid bilayers of biological membranes, however, are barriers for ions.
• Lipid bilayers are generally impermeable to ions and polar molecules.
• A short hydrophobic stretch of amino acids serves to anchor the prohormone in lipid bilayers.
• Using selective flippases is not the only way to produce asymmetry in lipid bilayers, however.
• This instrument can be used for examining biomembranes, lipid bilayers, magnetism, adsorbed surfactant layers, etc.
• Lipid bilayers form through the process of self-assembly.
• FtsA binds directly to the conserved C-terminal domain of FtsZ . and on supported lipid bilayers.
• Although lipid bilayers can easily bend, most cannot stretch more than a few percent before rupturing.