An alternative view of phospholipid phase behavior at the air-water interface. Microscope and film balance studies.

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An alternative view of phospholipid phase behavior at the air-water interface. Microscope and film balance studies.

V von Tscharner and H M McConnell

ABSTRACT

Pure-lipid films at the water interface have surface-pressuresvs. area isotherms that are often interpreted as involving first-orderphase transitions from a condensed region to a liquid-expandedregion. Two phases are presumed to coexist in the intermediatepart of the isotherm. We constructed a film balance that couldbe placed on the stage of an epifluorescence microscope. A dipalmitoylphosphatidylcholine film containing a low concentration of afluorescent lipid probe showed an inhomogeneous fluorescencedistribution in the so-called liquid-expanded region of theisotherm. Only the intermediate and condensed regions couldbe prepared so as to be optically homogeneous below 25 degreesC. We investigated membrane flow and lateral lipid diffusionin the membrane on the trough. The isotherms and isochores weremeasured. The results require, at least, a modified descriptionof the monolayer structure in various regions of the isotherms.The solid-condensed region corresponds to a gel phase of thelipids where there is no flow in the membrane, lateral diffusionis low, the compressibility is low, and the membrane is opticallyhomogeneous. The "liquid-condensed/liquid-expanded" region appearsto be a homogeneous membrane where lateral diffusion and membraneflow are both rapid. This is a region of high compressibility.The "liquid-expanded" region is not homogeneous as seen underthe microscope, and the flow of the surface layer can be veryfast.

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