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Washing apparatus for freeze-etch replica fragments. 1973

T E Jensen, and M A Smith, and W M Hess

UI MeSH Term Description Entries
D007202 Indicators and Reagents Substances used for the detection, identification, analysis, etc. of chemical, biological, or pathologic processes or conditions. Indicators are substances that change in physical appearance, e.g., color, at or approaching the endpoint of a chemical titration, e.g., on the passage between acidity and alkalinity. Reagents are substances used for the detection or determination of another substance by chemical or microscopical means, especially analysis. Types of reagents are precipitants, solvents, oxidizers, reducers, fluxes, and colorimetric reagents. (From Grant & Hackh's Chemical Dictionary, 5th ed, p301, p499) Indicator,Reagent,Reagents,Indicators,Reagents and Indicators
D008854 Microscopy, Electron Microscopy using an electron beam, instead of light, to visualize the sample, thereby allowing much greater magnification. The interactions of ELECTRONS with specimens are used to provide information about the fine structure of that specimen. In TRANSMISSION ELECTRON MICROSCOPY the reactions of the electrons that are transmitted through the specimen are imaged. In SCANNING ELECTRON MICROSCOPY an electron beam falls at a non-normal angle on the specimen and the image is derived from the reactions occurring above the plane of the specimen. Electron Microscopy
D003584 Cytological Techniques Methods used to study CELLS. Cytologic Technics,Cytological Technic,Cytological Technics,Cytological Technique,Technic, Cytological,Technics, Cytological,Technique, Cytological,Techniques, Cytological,Cytologic Technic,Technic, Cytologic,Technics, Cytologic
D005613 Freeze Etching A replica technique in which cells are frozen to a very low temperature and cracked with a knife blade to expose the interior surfaces of the cells or cell membranes. The cracked cell surfaces are then freeze-dried to expose their constituents. The surfaces are now ready for shadowing to be viewed using an electron microscope. This method differs from freeze-fracturing in that no cryoprotectant is used and, thus, allows for the sublimation of water during the freeze-drying process to etch the surfaces. Etching, Freeze

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T E Jensen, and M A Smith, and W M Hess
[Freeze-fracture and freeze-etch replica of the eye. II. Replica of photoreceptor cell (author's transl)].
August 1973, Nippon Ganka Gakkai zasshi,
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[Freeze-fracture and deep etch replica of monkey ciliary muscle].
January 1992, Nippon Ganka Gakkai zasshi,
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[Rapid-freeze, deep-etch replica studies of cell fine structures].
January 1989, Fukuoka igaku zasshi = Hukuoka acta medica,
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The cytoskeleton in myelinated axons: a freeze-etch replica study.
January 1982, Neuroscience,
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Actin-myosin interactions visualized by the quick-freeze, deep-etch replica technique.
September 1983, Journal of molecular biology,
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Trypanosoma congolense: fine structure study by the carbon replica and freeze-etch technique.
June 1972, Experimental parasitology,
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Human skeletal muscle fibers in normal and pathological states; freeze-etch replica observations.
January 1977, Journal of electron microscopy,
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Application of cryomicrotomy to the rapid-freeze, deep-etch replica method for unfixed tissues and cells.
January 1982, Journal of electron microscopy,
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A new freeze-etch unit for freeze-etch rotary shadowing, low temperature freeze-fracturing and conventional freeze-etching.
May 1978, Journal of microscopy,
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Periciliary structure of developing rat photoreceptor cells. A deep etch replica and freeze substitution study.
January 1999, Journal of electron microscopy,
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