2015
DOI: 10.1073/pnas.1419033112
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Visualizing monolayers with a water-soluble fluorophore to quantify adsorption, desorption, and the double layer

Abstract: Contrast in confocal microscopy of phase-separated monolayers at the air-water interface can be generated by the selective adsorption of water-soluble fluorescent dyes to disordered monolayer phases. Optical sectioning minimizes the fluorescence signal from the subphase, whereas convolution of the measured point spread function with a simple box model of the interface provides quantitative assessment of the excess dye concentration associated with the monolayer. Coexisting liquid-expanded, liquid-condensed, an… Show more

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Cited by 27 publications
(14 citation statements)
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“…With this numbers and the known dissociation degree of 88% of the carboxyl groups at pH 7 ( α = 0.88) [ Fig. 3 ] the head group potential ψ follows from the Gouy-Chapman theory (note: the negatively charged phosphate group and the positively charged amino groups compensate each other) 34 35 :…”
Section: Resultsmentioning
confidence: 99%
“…With this numbers and the known dissociation degree of 88% of the carboxyl groups at pH 7 ( α = 0.88) [ Fig. 3 ] the head group potential ψ follows from the Gouy-Chapman theory (note: the negatively charged phosphate group and the positively charged amino groups compensate each other) 34 35 :…”
Section: Resultsmentioning
confidence: 99%
“…These techniques typically require an extrinsic fluorophore to label the protein or molecule of interest, but carefully choosing the dye and limiting the labeling can allow for excellent visualization while not compromising the interfacial behavior of the molecule. Confocal microscopy, which provides good axial resolution for selectively observing interfacial phenomena, can be used to quantify the amount of protein adsorbed to an interface either in a Langmuir trough ( 113 ) or in a microtrough requiring less than 100 ÎŒL of solution ( 10 ). Total internal reflection fluorescence (TIRF) microscopy utilizes an evanescent wave to selectively visualize molecules within a few hundred nanometers from a solid–liquid or liquid–liquid interface.…”
Section: Analytical Methods To Assess Interface-mediated Protein Aggrmentioning
confidence: 99%
“…In pure DPPC, LE -LC coexistence occurs at higher surface pressure as temperature is increased, and is suppressed entirely for T 418C, beyond which LE DPPC exists at all P [44,[46][47][48]. Hermans & Vermant [44] demonstrated the importance of temperature in determining the rheological response of a DPPC monolayer, although viscous-dominated behaviour is observed up to 458C and P ÂŒ 45 mN m 21 .…”
Section: Lung Surfactant Under Physiological Conditionsmentioning
confidence: 99%
“…Upon compression, the surface pressure increases until a plateau is reached, representing coexistence between liquid expanded and liquid condensed (LC) DPPC. The surface pressure of LE -LC coexistence increases with temperature[44,[46][47][48], but its onset occurs at approximately 4 mN m 21 at 208C. In this region domains of LC DPPC nucleate and grow, until the entire monolayer is in the LC state at P % 10 mN m 21 .…”
mentioning
confidence: 99%