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lüll Fluorescence methods to detect phase boundaries in lipid bilayer mixtures Heberle FA; Buboltz JT; Stringer D; Feigenson GWBiochim Biophys Acta 2005[Dec]; 1746 (3): 186-92Phase diagrams of lipid mixtures can show several different regions of phase coexistence, which include liquid-disordered, liquid-ordered, and gel phases. Some phase regions are small, and some have sharp boundaries. The identity of the phases, their location in composition space, and the nature of the transitions between the phases are important for understanding the behavior of lipid mixtures. High fidelity phase boundary detection requires high compositional resolution, on the order of 2% compositional increments. Sample artifacts, especially the precipitation of crystals of anhydrous cholesterol, can occur at higher cholesterol concentrations unless precautions are taken. Fluorescence resonance energy transfer (FRET) can be used quantitatively to find the phase boundaries and even partition coefficients of the dyes between coexisting phases, but only if data are properly corrected for non-FRET contributions. Self-quenching of the dye fluorescence can be significant, distorting the data at dye concentrations that intuitively might be considered acceptable. Even more simple than FRET experiments, measurements of single-dye fluorescence can be used to find phase boundaries. Both FRET and single-dye fluorescence readily detect the formation of phase domains that are much smaller than the wavelength of light, i.e. "nanoscopic" domains.|*Lipid Bilayers[MESH]|*Membrane Fluidity[MESH]|*Phase Transition[MESH]|Cholesterol/chemistry[MESH]|Fluorescence[MESH]|Fluorescence Resonance Energy Transfer[MESH]|Lipids/*chemistry[MESH] |