Robert Chiovetti scite author profile

The techniques of quick freezing and freeze-drying provide an alternative to the more classical methodologies of chemical fixation and dehydration with organic solvents. It is possible to embed freeze-dried tissue in low viscosity resins, either at room temperature or at subzero temperatures in Spurr's resin or Lowicryl K4M, respectively. The choice of embedding medium affords additional flexibility in postdrying and embedding conditions, since Spurr's resin allows vapor fixation with osmium tetroxide and thermal polymerization. Osmium tetroxide is not recommended for Lowicryl resins, but these media permit polymerization at subzero temperatures with ultraviolet light. Both resins have unique advantages that may be utilized, depending upon the purpose of the embedding.In this paper, we discuss the details of preparing smooth muscle, from rabbit renal artery, by quick freezing and freeze-drying, as well as methods for the embedding of the freeze-dried tissue in both Spurr's resin and Lowicryl K4M. Although we have previously reported the ultrastructure of smooth muscle embedded in Spurr's low viscosity resin, the combination of freeze-drying and infiltration in Lowicryl K4M represents a new approach that allows the elimination of chemical fixation, dehydration with organic solvents, and heat polyLowicryl K4M, Smooth muscle, Specimen preparation, Cryofixation, Lyophilization merization of the embedding medium.

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Fluorescein Isothiocyanate-Labeled Lectin Analysis of the Surface of the Nitrogen-Fixing Bacterium Azospirillum brasilense by Flow Cytometry

Yagoda-Shagam

Barton

Reed

et al. 1988

Appl Environ Microbiol

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The cell surface of Azospirillum brasilense was probed by using fluorescein isothiocyanate (FITC)-labeled lectins, with binding determined by fluorescence-activated flow cytometry. Cells from nitrogen-fixing or ammonium-assimilating cultures reacted similarly to FITC-labeled lectins, with lectin binding in the following order: Griffonia simplicifolia II agglutinin > Griffonia simplicifolia I agglutinin > Triticum vulgaris agglutinin > Glycine max agglutinin > Canavalia ensiformis agglutinin > Limaxflavus agglutinin > Lotus tetragonolobus agglutinin. The fluorescence intensity of cells labeled with FITC-labeled G. simplicifolia I, C. ensiformis, T. vulgaris, and G. max agglutinins was influenced by lectin concentration. Flow cytometry measurements of lectin binding to cells was consistent with measurements of agglutination resulting from lectin-cell interaction. Capsules surrounding nitrogen-fixing and ammonium-assimilating cells were readily demonstrated by light and transmission electron microscopies.

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Robert Chiovetti

Specimen preparation for electron microscopy using low temperature embedding resins

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Combined quick freezing, freeze‐drying, and embedding tissue at low temperature and in low viscosity resins

Fluorescein Isothiocyanate-Labeled Lectin Analysis of the Surface of the Nitrogen-Fixing Bacterium Azospirillum brasilense by Flow Cytometry

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