P. Meller scite author profile

Streptavidin forms two-dimensional crystals when specifically bound to layers of biotinylated lipids at the air/water interface. The three-dimensional structure of streptavidin determined from the crystals by electron crystallography corresponds well with the structure determined by x-ray crystallography. Comparison of the electron and x-ray crystallographic structures reveals the occurrence of free biotin-binding sites on the surface of the two-dimensional crystals facing the aqueous solution. The free biotin-binding sites could be specifically labeled with biotinylated ferritin. The streptavidin/biotinylated lipid system may provide a general approach for the formation of two-dimensional crystals of biotinylated macromolecules.

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Interaction between biotin lipids and streptavidin in monolayers: formation of oriented two-dimensional protein domains induced by surface recognition

Blankenburg

Meller²,

Ringsdorf³

et al. 1989

Biochemistry

253

184

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Highly specific ligand-receptor interactions generally characterize surface recognition reactions. Such processes can be simulated by streptavidin-biotin-specific binding. Biotin lipids have thus been synthesized, and their interaction with streptavidin (or avidin) at the air-water interface was directly shown by measurement of surface pressure isotherms and fluorescence microscopy. These proteins interact with the biotin lipid monolayer via specific binding or nonspecific adsorption. Both phenomena were clearly distinguished by use of the inactivated form of streptavidin. The binding of fluorescein-labeled streptavidin to monolayers was also directly observed by fluorescence microscopy. The fluorescence of the protein domains is directly related to the state of polarization of the exciting light. This anisotropy can only be explained by the formation of oriented two-dimensional biotin lipid-streptavidin domains.

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Specific recognition and formation of two- dimensional streptavidin domains in monolayers: applications to molecular devices

et al. 1989

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Microstructure and lateral diffusion in monolayers of polymerizable amphiphiles

Meller

Peters

Ringsdorf

1989

Colloid & Polymer Sci

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Lipid analogue amphiphilic molecules containing polymerizable units were investigated in monolayers at the air/water interface by using film balance measurements, fluorescence microscopy, and photobleaching tecbaliques. The polymerizable groups (diene-, diyne-, and methacrylate units) were introduced into the hydrophobic alkyl chains or into the polar head of the amphiphilic molecules.In the case of the diene-and diyne-containing compounds the polymerizable units are incorporated into the hydrophobic alkyl chains, enabling them to form a two-dimensional network. Due to the free chain flexibility of the monomers the lateral mobility was comparable to that of saturated lipid analogues and decreases upon polymerization proportionally to the dose of UV irradiation. In addition, fluid/solid phase transitions of compounds with polymerizable groups in the hydrophobic part tend to vanish during the formation of the polymers. However, the direct observation of the growth of polymeric crystalline domains can be followed by using diacetylene lipid analogues. In the case of the methacrylate derivatives the polymerizable unit was coupled to the polar part via a flexible spacer. For these systems the characteristics of the monomeric phase transition are retained after polymerization. However, it shows a significant, strong decrease of the in-plane mobility already in the fluid-expanded phase of the polymer. The quantitative measurements of the lateral diffusion in the monolayers can be correlated with fluorescence microscopic images of their structure.

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Computer-assisted video microscopy for the investigation of monolayers on liquid and solid substrates

Meller

1988

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Fluorescence microscopy is a sensitive and nondestructive optical method to directly study the properties of monolayers at the gas/water interface and to control their transfer on solid substrates. The method requires only small amounts ( < 1 mol % ) of fluorescent probe molecules for optical detection. In this article, an integrated system for optical investigations on mono-and multilayer structures is described. The experimental equipment consists of a monolayer trough, a deposition unit to built-up ordered layers and a fluorescence microscopic attachment. The modular construction allows the use of any desired trough design for the monolayer investigations. The system comprises video-assisted microscopy to observe and analyze dynamic nucleation processes taking place during phase transitions on liquid and soEd substrates. Using the spatial two-dimensional digital image signal, kinetic studies can be performed.

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P. Meller

Two-dimensional crystals of streptavidin on biotinylated lipid layers and their interactions with biotinylated macromolecules

Interaction between biotin lipids and streptavidin in monolayers: formation of oriented two-dimensional protein domains induced by surface recognition

Specific recognition and formation of two- dimensional streptavidin domains in monolayers: applications to molecular devices

Microstructure and lateral diffusion in monolayers of polymerizable amphiphiles

Computer-assisted video microscopy for the investigation of monolayers on liquid and solid substrates

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