Rapid freezing has long promised the most faithful structural presentation of biological material for electron microscopy. With the recent emergence of methods for vitrifying specimens, this promise seems about to be fulfilled
We present an approach for the preparation of immuno-labelled ultrathin sections from cells or tissu...
Cryo-electron tomography (cryo-ET) provides high-resolution 3D views into cells pristinely preserved...
Cryo-electron microscopy has become popular as the penultimate step on the road to structure determi...
Preparation of biological samples for transmission electron microscopy is not a trivial task. The sa...
Studying biological structures with fine details does not only require a microscope with high resolu...
Studying biological structures with fine details does not only require a microscope with high resolu...
International audienceOur knowledge of the organization of the cell is linked, to a great extent, to...
Cryo-electron microscopy of vitrified specimens was just emerging as a practical method when Richard...
Since the beginning of the 1980s, cryo-electron microscopy of a thin film of vitrified aqueous suspe...
Aim of this paper is to present a short overview about the state of the art of the so called cryotec...
Electron microscopy played a key role in establishing cell biology as a discipline, by producing fun...
Water is the most abundant component of biological material, but it is systematically excluded from ...
Electron cryotomography is the highest-resolution structural technique currently available that can ...
Thin vitrified layers of unfixed, unstained and unsupported virus suspensions can be prepared for ob...
Fundamental research within the scope of cell and structural biology as well as nano-technology is i...
We present an approach for the preparation of immuno-labelled ultrathin sections from cells or tissu...
Cryo-electron tomography (cryo-ET) provides high-resolution 3D views into cells pristinely preserved...
Cryo-electron microscopy has become popular as the penultimate step on the road to structure determi...
Preparation of biological samples for transmission electron microscopy is not a trivial task. The sa...
Studying biological structures with fine details does not only require a microscope with high resolu...
Studying biological structures with fine details does not only require a microscope with high resolu...
International audienceOur knowledge of the organization of the cell is linked, to a great extent, to...
Cryo-electron microscopy of vitrified specimens was just emerging as a practical method when Richard...
Since the beginning of the 1980s, cryo-electron microscopy of a thin film of vitrified aqueous suspe...
Aim of this paper is to present a short overview about the state of the art of the so called cryotec...
Electron microscopy played a key role in establishing cell biology as a discipline, by producing fun...
Water is the most abundant component of biological material, but it is systematically excluded from ...
Electron cryotomography is the highest-resolution structural technique currently available that can ...
Thin vitrified layers of unfixed, unstained and unsupported virus suspensions can be prepared for ob...
Fundamental research within the scope of cell and structural biology as well as nano-technology is i...
We present an approach for the preparation of immuno-labelled ultrathin sections from cells or tissu...
Cryo-electron tomography (cryo-ET) provides high-resolution 3D views into cells pristinely preserved...
Cryo-electron microscopy has become popular as the penultimate step on the road to structure determi...
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