Vacuum drying, under appropriate conditions, diminishes the warping and buckling of epoxy semithin sections and enhances visualization with light microscopy. Treatment of sections with chloroform or variations in the drying times or temperatures did not reduce wrinkling.
Comments on techniques for characterizing leukocytes adhered to the aortic endothelium of the rat are given. Alpha-naphthyl acetate esterase positive leukocytes were studied by optical microscopy of en face intima-media preparations. Results indicate 1) 1% paraformaldehyde-2% glutaraldehyde is a better fixative than formalin-calcium or 4% paraformaldehyde with or without 1.5 mM CaCl2; the latter produces distortion of leukocytes, endothelial desquamation and enzymate inhibition, 2) washing the aorta with phosphate-buffered saline for 90 sec prior to fixation-perfusion produces a notable decrease in the number of leukocytes adhered, 3) diazotized parasaniline is better than fast blue RR salt as coupling agent in the esterase reaction, and 4) counterstaining with 1% methyl green for 1 min, before or after the esterase reaction, is not adequate because of limited contrast and the heavy staining of smooth muscle. Counterstaining with Gill's hematoxylin No. 3 for 90 sec is adequate only when done before the esterase reaction. Inhibition of endothelial esterase activity by hematoxylin decreases background, favors contrast of adhered leukocytes and makes it possible to observe nucleus-cytoplasm relations.
Using safranin O as a fluorescent stain at a wavelength range of 355-425 nm has allowed us to distinguish the transmitting tissue and the nature of this tissue in pistils of members of the Geraniaceae and Gentianaceae. Xylem, amyloplasts, and high tannin containing tissues, such as mericarp walls, were also readily differentiated.
Leaf epidermis of grasses is elaborate and important in the systematics of the Poaceae at subfamily and genus level. Most available techniques used in preparing leaf epidermis for microscopic studies are time-consuming and often produce preparations inadequate for studying histological detail. A combination of the hand scraping and maceration methods with modifications is proposed in this paper to prepare epidermal peels comparatively rapidly. One epidermal layer was scraped off and the mesophyll tissue removed from the epidermis to be studied by maceration in HNO3. The recovered epidermal peel was neutralized in NaOH and stained with malachite green or safranin O. Preparations made by this technique are suitable for studies of epidermal features, measurements of special structures and determinations of trichome indices. This method has been used in a study investigating intraspecific variation in southern African pasture grasses.
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