Nathan H. Rich scite author profile

An instrumental design and construction details for the study of lipid monomolecular layers at the air-water interface using optical recording of fluorescent probes in the monolayer are discussed. The balance consists of a Teflon trough with a movable barrier mounted on a vibration-reducing platform. It is equipped with an epifluorescence microscopic attachment, and a Wilhelmy dipping plate connected to a force transducer that measures surface tension in the monolayer. Computer-controlled barrier movement can be utilized to give monolayer compression and expansion cycles at speeds up to 4 Å2/molecule/s. The epifluorescence microscope is coupled to a charge coupled device in tandem with a microchannel plate which permits observations at low light levels. This allows for use of small concentrations of probe molecules, thus reducing perturbation of monolayer properties by the probe. Images are recorded on videotape, digitized, and processed using operator-interactive software. Preliminary studies of phase behavior have been made for monolayers of dipalmitoyl phosphatidylcholine and a mixture of lipids.

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Interaction between dipalmitoylphosphatidylglycerol and phosphatidylcholine and calcium

Naga

Rich

Keough

1994

Thin Solid Films

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Pulmonary Surfactant Protein A Interacts with Gel-Like Regions in Monolayers of Pulmonary Surfactant Lipid Extract

Worthman

Nag

Rich

et al. 2000

Biophysical Journal

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Epifluorescence microscopy was used to investigate the interaction of pulmonary surfactant protein A (SP-A) with spread monolayers of porcine surfactant lipid extract (PSLE) containing 1 mol % fluorescent probe (NBD-PC) spread on a saline subphase (145 mM NaCl, 5 mM Tris-HCl, pH 6.9) containing 0, 0.13, or 0.16 microg/ml SP-A and 0, 1.64, or 5 mM CaCl(2). In the absence of SP-A, no differences were noted in PSLE monolayers in the absence or presence of Ca(2+). Circular probe-excluded (dark) domains were observed against a fluorescent background at low surface pressures (pi approximately 5 mN/m) and the domains grew in size with increasing pi. Above 25 mN/m, the domain size decreased with increasing pi. The amount of observable dark phase was maximal at 18% of the total film area at pi approximately 25 mN/m, then decreased to approximately 3% at pi approximately 40 mN/m. The addition of 0.16 microg/ml SP-A with 0 or 1.64 mM Ca(2+) in the subphase caused an aggregation of dark domains into a loose network, and the total amount of dark phase was increased to approximately 25% between pi of 10-28 mN/m. Monolayer features in the presence of 5 mM Ca(2+) and SP-A were not substantially different from those spread in the absence of SP-A, likely due to a self-association and aggregation of SP-A in the presence of higher concentrations of Ca(2+). PSLE films were spread on a subphase containing 0.16 microg/ml SP-A with covalently bound Texas Red (TR-SP-A). In the absence of Ca(2+), TR-SP-A associated with the reorganized dark phase (as seen with the lipid probe). The presence of 5 mM Ca(2+) resulted in an appearance of TR-SP-A in the fluid phase and of aggregates at the fluid/gel phase boundaries of the monolayers. This study suggests that SP-A associates with PSLE monolayers, particularly with condensed or solid phase lipid, and results in some reorganization of rigid phase lipid in surfactant monolayers.

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Spontaneous formation of interfacial lipid-protein monolayers during adsorption from vesicles

Nag¹,

Pérez‐Gil²,

Cruz³

et al. 1996

Biophysical Journal

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Spread and adsorbed monolayers of lipid-protein mixtures have served as models for biomembranes and pulmonary surfactant, but their similarity was unclear. Epifluorescence microscopy of monolayers spontaneously adsorbed from vesicles of dipalmitoylphosphatidylcholine or dipalmitoylphosphatidylcholine plus surfactant protein C (SP-C) showed gas, liquid expanded, and liquid condensed (LC) domains. The shapes and distribution of LC domains in the adsorbed and solvent-spread monolayers were quite similar. Labeled SP-C adsorbed into the air-water interface in the company of the lipids. In both forms of monolayers, SP-C occupied the fluid phase and reduced the size and amount of the LC domains. The properties suggest that these adsorbed and spread monolayers are analogous to one another.

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Nathan H. Rich

Epifluorescence microscopic observation of monolayers of dipalmitolophosphatidylcholine: dependence of domain size on compression rates

Design and construction of an epifluorescence microscopic surface balance for the study of lipid monolayer phase transitions

Interaction between dipalmitoylphosphatidylglycerol and phosphatidylcholine and calcium

Pulmonary Surfactant Protein A Interacts with Gel-Like Regions in Monolayers of Pulmonary Surfactant Lipid Extract

Spontaneous formation of interfacial lipid-protein monolayers during adsorption from vesicles

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