Differentiation of Articular and Epiphysial Cartilage, Based on Resorcin-CrystaeL Violet and Picro-Fuchsin Staining of Chondroitin Sulphate and Keratosulphate

Formalin-fixed, decalcified knee joints of young vertebrates were embedded in paraffin wax and cut at 4 μ. Sections were stained in Harris' Haematoxylin, washed in tap water, then immersed in the following staining solution for 60 min: crystal violet, 1 gm; resorcin, 2 gm; distilled water, 100 ml; boiled for 3 min, with constant stirring. After adding 30 ml of 30% FeCl₃, it was boiled for 3 min more. The solution was filtered. The precipitate was washed oil with 50 ml of distilled water and 100 ml of absolute alcohol added. This was combined with the original filtrate and boiled for 5 min. The solution was filtered once more, the precipitate discarded and 2 ml of cone. HC1 added. After cooling, the solution was ready for use. Sections were then washed briefly in tap water, stained in van Gieson's picro-fuchsin for 2 min, and differentiated as they were dehydrated and brought to Xylene. The sections were mounted in a synthetic resin (D.P.X.). Articular type cartilage stains red and growth cartilage blue.     

An Improved Method to Detect Allozymes of Spl and Ti Loci in Soybean Seed Proteins

In order to exploit and conserve the genic resources in soybean, it is necessary to analyse the genetic structure of soybean population. The modified procedures detecting the allozymes of Sp 1 (coding β-amylases) and Ti (coding soybean trypsin inhibitors) are summarized as follows: After proteins of soybean seed were separated by using 7% polyacrylamide slab gel electrophoresis (Davis system), gel was soaked in starch solution for half an hour. After that, gel was washed by distilled water twice. Finally, gel was stained by using I2-KI solution (in 0.05N HCl) for 2–3 h. The blank bands in blue back-ground are β-amylases. The products of Sp1a and Sp 1b located at Rf=0.38–0.40 and Rf=0A4–0.47 respectively. The dark blue bands are proteins. The altozymes of Ti can be identified by co-electrophoresis with standard soybean trypsin inhibitors.     

Oil Blue Na as A Stain for Rubber in Sectioned or Ground Plant Tissues

Oil blue NA (Calco), a stain which colors rubber bright blue, has been used effectively in studying the distribution of rubber in several plant species. Fresh or fixed sections are cut, bleached with Javelle water or NaOCl solution, treated with 9% KOH in 95% ethanol, washed with several changes of water and finally with 95% ethanol, and stained with 0.05% oil blue NA in 70% ethanol. Sections are rinsed in 50%' ethanol, placed in 40% glycerin, and mounted in glycerin jelly.

For the detection of changes in the distribution and character of rubber in milled or ground tissues, much the same staining procedure is followed. The stained tissues usually are examined and dissected under a stereoscopic microscope, a procedure which permits rubber to be recognized by both its staining reaction and by a more specific property, elastic elongation.

A microscopic technic is presented whereby it is possible to determine approximately the relative proportion of dispersed and coagulated rubber latex in unstained tissues.     

Toluidine Blue Staining of Coccidia in Cultured Animal Cells

Cultured animal cells infected with various species of Eimeria (coccidia) from chickens are washed in Hanks balanced salt solution (HBSS) and fixed in 5% formalin in HBSS. The fixed cultures are washed briefly in distilled water to remove HBSS salts and then dehydrated in a series of mixtures of 40 to 50% ethanol with increasing concentrations of tertiary butanol (TB) and decreasing concentrations of distilled water. Cultures are placed for 1 min in a mixture of 2 parts ethanol :TB (25:75) and 1 part 0.05% toluidine blue O in McIlvaine buffer (pH 6.0), followed by 1 min in 0.05% toluidine blue O in McIlvaine buffer (pH 6.0). The stained cultures are dipped for 1-2 sec in TB, allowed to dry and mounted permanently on slides. Cover-slip cultures fixed and stained by this procedure 8 years ago have not faded or discolored. The alcohol mixtures, formalin in HBSS, stain and buffer can be prepared in large volumes and stored indefinitely. The staining procedure has proven to be rapid and dependable with a variety of cell types in monolayer cultures in research and teaching applications.     

Sequential Use of Wright's and Ziehl-Neelsen's Stains for Demonstrating Phagocytosis of Bacterial Spores

Nongerminating spores, germinating spores, and vegetative cells of Clostridium botulinum type A were observed during phagocytosis in the peritoneal fluid of white mice. Since phagocytes are easily ruptured by heat, the method described avoids heating, as this has been employed in conventional spore staining methods. A thin smear of the fluid is air dried on the slide for 2 hr, and stained by Wright's method: stain, 2 min; dilution water, 2 min; and rinsed; then in 0.005% methylene blue for 30 sec, and rinsed. This is followed by Ziehl-Neelsen's stain for 3-4 min and destained with 1: acetone-95% ethanol for 10 sec. The slide is rinsed, and Wright's staining repeated: stain 1 min, dilution 2-3 min; and thereafter washed about 5 ml of Wright's buffer. Blotting and air drying completes the staining. Non-germinating spores stain light red with a red spore wall, germinating spores are deep red throughout, vegetative cells are blue, and leucocytes show a dark purple nucleus and light blue cytoplasm.     

Staining Chromosomes in Sections of Germinal Vesicles of Sarcoptid Mites by a Schiff Reagent

Chromosomes of oocytes, especially early prophase I stages, of Acaridae and Anoetidae species are difficult to stain by procedures using hematoxylin, Feulgen and aceto-orcein. Hematoxylin stains are intensely polychromatic in oocytes; the standard Feulgen procedure is negative with chromosomes during diffuse prophase stages. Satisfactory staining can be obtained with a supersensitive Schiff reagent (Tobie, W. C., Ind. Eng. Chem., Anal. Ed., 14: 405—406, 1942) made by reducing basic fuchsin with gaseous SO₂. Routinely prepared paraffin sections of mites fixed in Carnoy's 6:3:1 mixture were hydrolysed 5-8 min in 1 N HCl, washed well, and stained in this reagent: 1-2 hr for prophase oocytes, 10-20 min for condensed chromosomes. A second staining in a 0.5% aqueous solution of toluidine blue 0, adjusted to pH 5.3-5.5 with a citrate buffer, served to darken the original Feulgen stain. Counterstaining with 0.1-0.2% fast green FCF in the last fluid of the dehydrating series enhanced contrast between chromosomes and cytoplasm. This staining technic is also suitable for preparing whole mounts of mites.     

A Differential Staining Method for Elastic Fibers, Collagenic Fibers, and Keratin

A method allowing for the differential presentation of elastic fibers, other connective tissue fibers, epithelial and other types of cytoplasm, and keratin is described. The procedure is based on the affinity of orcein for elastic fibers, of anilin blue for collagenic material, and of orange G for keratin. Bouin-fixed, tissue-mat embedded sections are stained in Pinkus' acid orcein for 1 1/2 hours and rinsed in distilled water. The sections are differentiated in 50% alcohol containing 1% hydrochloric acid, washed in tap and then in distilled water. The sections are next transferred for I to 2 minutes to the anilin blue, orange G, phosphomolybdic acid combination known as solution No. 2 of Mallory's connective tissue stain, diluted 1:1 with distilled water. They are then rinsed in distilled water, quickly passed into 95% alcohol, and dehydrated in absolute alcohol containing some orange G, after which they are cleared and mounted. Within less than two hours sections may be stained and mounted with the following results: elastic fibers — red; collagenic fibers — blue; muscle fibers — yellow; keratin — orange.     

A Phloxine-Azure-Hematoxylin Sequence for Differential Staining of Cells in Pancreatic Islets

Sections of 6 μ from tissues fixed in Susa or in Bouin's fluid (without acetic acid) and embedded in paraffin were attached to slides with Mayer's albumen, dried at 37 C for 12 hr, deparaffinized and hydrated. The sections fixed in Susa were transferred to a I₂-K₁ solution (1:2:300 ml of water); rinsed in water, decolorized in 5% Na₂S₂O₃; washed in running water, and rinsed in distilled water. Those fixed in Bouin's were transferred to 80% alcohol until decolorized, then rinsed in distilled water. All sections were stained in 1% aqueous phloxine, 10 min; rinsed in distilled water and transferred to 3% aqueous phosphotungstic acid, 1 min; rinsed in distilled water; stained 0.5 min in 0.05 azure II (Merck), washed in water; and finally, nuclear staining in Weigert's hematoxylin for 1 min was followed by a rinse in distilled water, rapid dehydration through alcohols, clearing in xylene and covering in balsam or a synthetic resin. In the completed stain, islet cells appear as follows: A cells, purple; B cells, weakly violet-blue; D cells, light blue with evident granules; exocrine cells, grayish blue with red granules.     

A silver-impregnation-toluidine blue technique for demonstration of embryonic skeletal structures in paraffin sections

Summary Dewaxed and hydrated sections are treated with 1% aq. silver nitrate in bright light for 60 min and then thoroughly washed with distilled water followed by a rinse in Kolthoff's buffer (pH 3.3). The sections are next treated with 0.25% toluidine blue dissolved in buffer for 3 min, rinsed in buffer, allowed to dry and then cleared and mounted. Foci of calcification appear black and cartilage-matrix lilac to deep mauve. Nuclei appear deep blue in contrast to the pale blue of the cytoplasm.     

Staining Tissue of the Central Nervous System with Luxol Fast Blue and Neutral Red

The tissue is fixed in 10% neutral saline formalin for 1 day to 3 wk depending on the size of the block, dehydrated and embedded in paraffin. The sections are stained at 57° C for 2 hr, then at 22° C for 30 min, in a 0.0125% solution of Luxol fast blue in 95% alcohol acidified by 0.1% acetic acid. They are differentiated in a solution consisting of: Li₂CO₃, 5.0 gm; LiOH-H₂O, 0.01 gm; and distilled water, 1 liter at 0-1° C, followed by 70% alcohol, and then treated with 0.2% NaHSO₃. They are soaked 1 min in an acetic acid-sodium acetate buffer 0.1 N, pH 5.6, then stained with 0.03% buffered aqueous neutral red. Sections are washed in distilled water, 1 sec, then treated with the following solution: CuSO₄·5H₂O, 0.5 gm; CrK(SO₄)₂·12H₂O, 0.5 gm; 10% acetic acid, 3 ml; and distilled water, 250 ml. Dehydration, clearing and covering complete the process. Myelin sheaths are stained bright blue; meninges and the adventitia of blood vessels are blue; red blood cells are green. Nissl material is stained brilliant red; axon hillocks, axis cylinders, ependyma, nuclei and some cytoplasm of neuroglia, media and endothelium of blood vessels are pink.     

Sudan Black and Osmic Acid as Staining Agents for Testicular Interstitial Cells

Two standard cytological techniques have heen modified to stain specifically the interstitial cells of the testis. In Method 1, the tissue is fixed in Zenker-formol or Regaud's fluid for several hours or overnight and subsequently postchromed in 3% K₂Cr₂O₇ for 72 hr at 37°C. After paraffin embedding, sections are cut at 5μ, dewaxed, brought down to 70% alcohol and stained in an unfiltered saturated solution of Sudan black in 70% alcohol for 10-30 min. Sections are washed briefly in 70% alcohol to remove all excess dye, differentiated, if necessary, in 50% alcohol, downgraded to water and mounted in Farrants' medium or glycerol jelly. Interstitial cells: deep blue black; remainder of testicular tissue: light blue. Method 2 is essentially the Champy-Kull technique but specific staining for mitochondria is omitted and the sections are downgraded to water; then they are mounted in Farrants' medium or glycerol jelly without further treatment. In this way osmicated lipoids are preserved. Interstitial cells: conspicuous due to the variable number of black granules in their cytoplasm; the remainder of the tissue: yellow.     

A Simple Toluidine Blue—Basic Fuchsin Stain for Spermatozoa in Epoxy Sections

Differential staining of cell components of spermatozoa is readily accomplished in Epon or Araldite sections 0.5-1 μ thick from rat and hamster testis and epididymis, and stained as follows: 1% aqueous toluidine blue buffered at pH 6, 0.5-3 min at 90 C; washed in distilled water; 1% basic fuchsin in 50% alcohol, 3-5 min at 20-25 C; differentiated with 70% alcohol; allowed to dry; and mounted in a resin of high refraction (DPX was used). Results: acrosome, bright magenta; nucleus, deep blue; mitochondrial sheath of the middle-piece, pinkish purple; and tail, pale red. This procedure combined with staining of collagen by applying 2% aqueous phosphotungstic acid 1-2 min as a mordant, followed by 1% light green in 50% alcohol containing 1% acetic acid, 1-2 min at 20-25 C, gives polychromatic staining and is useful as a general stain for other epoxy-embedded tissues.     

A Nile Blue Staining Technic for the Differentiation of Melanin and Lipofuscins

When paraffin sections are stained in 0.05-.01% Nile blue in 1 % sulfuric acid, washed thoroughly in water and mounted in aqueous media, lipofuscins color deep blue, melanins dark green, myelin and red cells lighter greens and background pale green. If, immediately after staining, the preparations are at once extracted with acetone with or without a 1% sulfuric acid rinse, melanins remain dark green, mast cells color purple, lipofuscins and background decolorize and nuclei may stain light green.     

A Nile Blue Staining Technic for the Differentiation of Melanin and Lipofuscins

When paraffin sections are stained in 0.05-.01% Nile blue in 1 % sulfuric acid, washed thoroughly in water and mounted in aqueous media, lipofuscins color deep blue, melanins dark green, myelin and red cells lighter greens and background pale green. If, immediately after staining, the preparations are at once extracted with acetone with or without a 1% sulfuric acid rinse, melanins remain dark green, mast cells color purple, lipofuscins and background decolorize and nuclei may stain light green.     

Histological Localization of Microelectrode Placement in Brain by Ferrocyanide and Silver Staining

After recordings had been taken from a microelectrode used for mapping nerve impulses, a current of 100 μa from the positive pole of a direct current generator was run through the electrode for 5 sec while it was still in place. On terminating the experiment, in which the use of several electrodes was possible, 50-75 ml of a 1:1 mixture of 4% potassium ferrocyanide and 4% acetic acid was injected into each common carotid artery, and the brain left in situ for 0.5 hr. It was then removed and the electrode-bearing part fixed 5-6 hr in a 1:1 mixture of 40% formalin and 95% ethyl alcohol at 55 °C. This specimen was washed in running water 5-10 min, the electrodes removed and frozen sections of 40-80 μ cut and placed in 95% alcohol. Sections were stained 5-10 min at 25-30°C in 10% silver nitrate solution in 75-80% alcohol acidified by 3-4 drops of glacial acetic acid per 50 ml, washed 4-5 sec in each of 2 baths of 95% alcohol, and reduced while being agitated constantly in a 2% solution of pyrogallol and 6-7% formalin in 75-80% alcohol. Washing in 95% alcohol, clearing in clove oil or methyl salicylate followed by xylene and mounting in synthetic resin or balsam completed the process. Sites of electrolysis at the tips of electrodes (under magnification) were blue before silver staining and black after staining. Axons stained brown to black on a yellow background.     

Selective staining methods for cartilage of rat fetal specimens previously treated with alizarin red S.

A convenient method for staining cartilage with several basic stains after alizarin red S staining of bone was investigated in rat fetuses. It was found that bromophenol blue was useful and effective for staining of the margin and center areas of cartilage, even in specimens stored in glycerin for over 10 years. The specimens were washed in running tap water for 1 hr, and subsequently were immersed in water or in 70% ethanol at pH 4 for 1 hr or longer. The specimens were then stained with 0.005% bromophenol blue in 40% ethanol adjusted to pH 4 for 2 hr, or with 0.001% bromophenol blue in 40% ethanol adjusted to pH 4 for 24 hr. Furthermore, the bromophenol blue stain color actually faded when the specimens were immersed in water or in 70% ethanol at pH 8. Descending order of the stain-effective action on fetal rat cartilage for the basic stains tested was bromophenol blue, aniline blue, Evans blue, methyl violet, trypan blue, and water blue.     

Effects of Nutrition on Desiccation Tolerance and Virulence of Colletotrichum truncatum and Alternaria alternata Conidia

The promising mycoherbicides Colletotrichum truncatum and Alternaria alternata were grown respectively in liquid and solid semi-defined media. C. truncatum conidia produced in a medium with a C:N ratio of 5:1 showed higher desiccation tolerance (survival during storage) at 15% relative humidity and 25°C, greater germination on the host leaf and greater disease expression on Sesbania exaltata than those produced in media with C:N ratios of 15:1 or 40:1. Similar results were obtained with conidia of A. alternata produced on a medium with a C:N ratio of 15:1. Conidia washed with 0.9% (w/v) NaCl produced higher tolerance to desiccation, and greater disease incitement, than unwashed conidia of C. truncatum or conidia washed with water. In contrast, washing had no positive effect on desiccation tolerance in A. alternata .     

Rapid Single-Solution Polychrome Staining of Semithin Epoxy Sections using Polyethylene Glycol 200 (PEG 200) as a Stain Solvent

Rapid, onestep polychromatic staining of 0.75-1.5 μm epoxy sections of glutaraldehyde-osmium fixed tissues can be obtained with mixtures of basic fucbsin and toluidme blue O in alkaline polyethylene glycol ZOO (PEG ZOO). Sections are attached to slides by heating at 100 C for 45 seconds and stained at that temperature for 2-3 minutes with a solution consisting of PEG 200 (50 ml), 0.2 N KOH (0.75 ml), basic fuchsin (1.7 gm), and toluidine blue O (0.3 gm). Red-blue balance and selective staining of different structures can be controlled by varying the amount of toluidine blue added. After rinsing with 10% acetone and rapid drying, sections are covered with immersion oil or mounting medium and a cover-slip. Total time from cutting of a section to finished preparation is less than 6 minutes. This staining solution is stable, does not produce precipitates on the sections, and does not wrinkle or lift the sections from the slides.     

Luxol Fast Blue Arn: A New Solvent Azo Dye with Improved Staining Qualities for Myelin and Phospholipids

Luxol fast blue ARN (Du Pont, C.I. solvent blue 37) is a diarylguanidine salt of a sulfonated azo dye. This dye was compared with other Luxol blue and Luxol black dyes. Luxol fast blue ARN has improved staining qualities for phospholipids and myelin, and can advantageously be substituted for Luxol fast blue MBS (MBSN). Appropriate staining times for a 0.1% dye solution in 95% ethanol (containing 0.02% acetic add) at 35°-40° C range from 2-3 hr. After staining, the sections should be rinsed in 95% ethanol, rinsed in distilled water, and differentiated for 2 sec in 0.005% Li₂CO₃, rinsed in 70% ethanol, washed in water, and counterstained as required. Phospholipids and myelin selectively stain deep blue. A fixative containing CaCl₂, 1%; cetyltrimethylammonium bromide, 0.5%; and formaldehyde, 10%, in water gave excellent results with brain. However, 10% formalin can be used. The staining of the phospholipids is probably due to the formation of dye-phospholipid complexes.     

Phloxine-Methylene Blue Staining of Formalin-Fixed Tissue

It is at present difficult to obtain a good phloxine-metbylene blue stain on formalin-fixed tissue. When phloxine has been used, it is washed out in the process of staining with methylene blue and differentiating with colophony (rosin). In the original technic of Mallory, Zenker's fixation is used. The tissue is first stained with a 2.5% aqueous solution of phloxine, then with a solution of 1% methylene blue plus 1% azure II and differentiated in colophony.¹