Add to ORKGTwo-dimensional crystals of a membrane protein, the proton ATPase from plant plasma membranes, have been obtained by a new strategy based on the use of functionalized, fluorinated lipids spread at the air-water interface. Monolayers of the fluorinated lipids are stable even in the presence of high concentrations of various detergents as was established by ellipsometry measurements. A nickel functionalized fluorinated lipid was spread into a monolayer at the air-water interface. The overexpressed His-tagged ATPase solubilized by detergents was added to the subphase. 2D crystals of the membrane protein, embedded in a lipid bilayer, formed as the detergent was removed by adsorption. Electron microscopy indicated that the 2D crystals were singl...
Electron crystallography of two-dimensional (2D) crystals determines the structure of membrane prote...
AbstractThe formation of vesicle-like structures (termed surfactosomes) and lamellar sheets from sol...
Protein two-dimensional (2D) crystallization on lipid monolayers is a powerful method for structure ...
wo-dimensional crystals of a membrane protein, the proton ATPase from plant plasma membranes, have b...
AbstractDue to the difficulty to crystallize membrane proteins, there is a considerable interest to ...
AbstractStructure determination at high resolution is actually a difficult challenge for membrane pr...
Monolayer of functionalized lipid spread at the air/water interface is used for the structural analy...
The difficulty in crystallizing channel proteins in three dimensions limits the use of X-ray crystal...
After a long period of fruitless attempts, three-dimensional crystal of membrane proteins are now av...
AbstractBy using Bio-Beads as a detergent-removing agent, it has been possible to produce detergent-...
We present here some sensitive optical and mechanical experiments for monitoring the process of form...
ABSTRACT By using Bio-Beads as a detergent-removing agent, it has been possible to produce detergent...
Reconstitution of membrane proteins into lipid bilayers is a powerful tool to analyze functional as ...
The crystallization of membrane proteins in amphiphile-rich materials such as lipidic cubic phases i...
The in meso technique of membrane protein crystallization has been successfully used to crystallize ...
Electron crystallography of two-dimensional (2D) crystals determines the structure of membrane prote...
AbstractThe formation of vesicle-like structures (termed surfactosomes) and lamellar sheets from sol...
Protein two-dimensional (2D) crystallization on lipid monolayers is a powerful method for structure ...
wo-dimensional crystals of a membrane protein, the proton ATPase from plant plasma membranes, have b...
AbstractDue to the difficulty to crystallize membrane proteins, there is a considerable interest to ...
AbstractStructure determination at high resolution is actually a difficult challenge for membrane pr...
Monolayer of functionalized lipid spread at the air/water interface is used for the structural analy...
The difficulty in crystallizing channel proteins in three dimensions limits the use of X-ray crystal...
After a long period of fruitless attempts, three-dimensional crystal of membrane proteins are now av...
AbstractBy using Bio-Beads as a detergent-removing agent, it has been possible to produce detergent-...
We present here some sensitive optical and mechanical experiments for monitoring the process of form...
ABSTRACT By using Bio-Beads as a detergent-removing agent, it has been possible to produce detergent...
Reconstitution of membrane proteins into lipid bilayers is a powerful tool to analyze functional as ...
The crystallization of membrane proteins in amphiphile-rich materials such as lipidic cubic phases i...
The in meso technique of membrane protein crystallization has been successfully used to crystallize ...
Electron crystallography of two-dimensional (2D) crystals determines the structure of membrane prote...
AbstractThe formation of vesicle-like structures (termed surfactosomes) and lamellar sheets from sol...
Protein two-dimensional (2D) crystallization on lipid monolayers is a powerful method for structure ...