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• W1032652208 abstract "The chapter discusses freeze-drying and high-resolution shadowing in electron microscopy of Escherichia coli ribosomes. Freezing makes it possible to fix the preparation instantly without any change of the initial conditions. Thus, it may be used to investigate the labile structures as well as the kinetics of some conformational transitions. Freeze-drying in vacuum preserves the object from deformation which arises at air-drying, apparently owing to the action of capillary forces. It has been shown, for example, that ribosomal particles freeze-dried in vacuum have dimensions 20-25% greater than the air-dried ribosomes. At freeze-drying in vacuum, redistribution does not occur. This is one of the reasons why electron micrographs of the object freeze-dried in vacuum are more informative than the micrographs of the same object air-dried. The requirements for the quality of shadowing are higher in freeze-drying. It is preferable to use metals that melt at high temperatures. They give high-contrast thin layers with a very small granularity, which are not crystallized under the electron beam. This permits shadowing at steeper angles relative to the specimen plane, gives a minimum of distortions due to the metal cap, and leads to a better revealing of the shape and the surface relief of the object. Application of the method for investigation of the small ribosomal subparticle of E. coli permitted the study not only of its morphology, but also of its internal organization." @default.
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• W1032652208 date "1979-01-01" @default.
• W1032652208 modified "2023-10-18" @default.
• W1032652208 title "[48] Freeze-drying and high-resolution shadowing in electron microscopy of Escherichia coli ribosomes" @default.
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• W1032652208 doi "https://doi.org/10.1016/0076-6879(79)59117-4" @default.
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