Add to ORKGHigh-resolution microscopy techniques provide a plethora of information on biological structures from the cellular level down to the molecular level. In this review, we present the unique capabilities of transmission electron and atomic force microscopy to assess the structure, oligomeric state, function and dynamics of channel and transport proteins in their native environment, the lipid bilayer. Most importantly, membrane proteins can be visualized in the frozen-hydrated state and in buffer solution by cryo-transmission electron and atomic force microscopy, respectively. We also illustrate the potential of the scintillation proximity assay to study substrate binding of detergent-solubilized transporters prior to crystallization and struct...
The biological importance of membrane proteins has been recognized worldwide for many years, but his...
Electron crystallography is a powerful technique for studying the structure and function of membrane...
Functional insights into macromolecules lie in the arrangement of their molecular structures. Invest...
High-resolution microscopy techniques provide a plethora of information on biological structures fro...
Membrane proteins represent an important class of proteins that are encoded by about 40% of all gene...
Structural information on membrane proteins is sparse, yet they represent an important class of prot...
AbstractStructural information on membrane proteins is sparse, yet they represent an important class...
AbstractElectron crystallography and atomic force microscopy allow the study of two-dimensional memb...
Proceedings of the NATO Advanced Research Workshop: Scanning Probe Microscopies and Molecular Mater...
Electron crystallography and atomic force microscopy allow the study of two-dimensional membrane pro...
Electron crystallography is used to study membrane proteins in the form of planar, two-dimensional (...
Electron crystallography is arguably the only electron cryomicroscopy (cryoEM) technique able to del...
Electron crystallography is used to study membrane proteins in the form of planar, two-dimensional (...
Thesis (Ph.D.)--University of Washington, 2013Transmission electron microscopy (TEM) has provided at...
Biological membranes contain specialized protein macromolecules such as channels, pumps and receptor...
The biological importance of membrane proteins has been recognized worldwide for many years, but his...
Electron crystallography is a powerful technique for studying the structure and function of membrane...
Functional insights into macromolecules lie in the arrangement of their molecular structures. Invest...
High-resolution microscopy techniques provide a plethora of information on biological structures fro...
Membrane proteins represent an important class of proteins that are encoded by about 40% of all gene...
Structural information on membrane proteins is sparse, yet they represent an important class of prot...
AbstractStructural information on membrane proteins is sparse, yet they represent an important class...
AbstractElectron crystallography and atomic force microscopy allow the study of two-dimensional memb...
Proceedings of the NATO Advanced Research Workshop: Scanning Probe Microscopies and Molecular Mater...
Electron crystallography and atomic force microscopy allow the study of two-dimensional membrane pro...
Electron crystallography is used to study membrane proteins in the form of planar, two-dimensional (...
Electron crystallography is arguably the only electron cryomicroscopy (cryoEM) technique able to del...
Electron crystallography is used to study membrane proteins in the form of planar, two-dimensional (...
Thesis (Ph.D.)--University of Washington, 2013Transmission electron microscopy (TEM) has provided at...
Biological membranes contain specialized protein macromolecules such as channels, pumps and receptor...
The biological importance of membrane proteins has been recognized worldwide for many years, but his...
Electron crystallography is a powerful technique for studying the structure and function of membrane...
Functional insights into macromolecules lie in the arrangement of their molecular structures. Invest...