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1.
Methods are proposed for staining plant chromosomes with the dye brilliant cresyl blue, and for making these stained preparations permanent by using polyvinyl alcohol mounting medium.
The stain, which is composed of 2% brilliant cresyl blue in 45% aqueous acetic or propionic acid, is used with fixed material in making smear preparations. The technics for staining are similar to those employed in the aceto-carmine method.
The mounting medium is made by mixing 56% polyvinyl alcohol, which is diluted in water to the consistency of thick molasses, with 22% lactic acid and 22% phenol by volume. The permanent slides are made by floating off the cover slip of the temporary slide in 70% alcohol, then applying the mounting medium and replacing the cover slip.
The chief advantages of the methods described are:
1)The preparation of the stain is rapid and simple. The batch of stain will be good with the first try.
2)The staining procedure in some instances is shorter than when using aceto-carmine.
3)The stain shows a high degree of specificity for nuclear structures and gives better results than aceto-carmine when used on certain plant tissues.
4)A minimum number of cells is lost in making the slides permanent when using polyvinyl alcohol mounting medium as the slide and cover slip are run through only one solution prior to mounting.
5)The mounting medium dries rapidly and this shortens the time required before critical examination of the permanent mounts can be made. 相似文献
The stain, which is composed of 2% brilliant cresyl blue in 45% aqueous acetic or propionic acid, is used with fixed material in making smear preparations. The technics for staining are similar to those employed in the aceto-carmine method.
The mounting medium is made by mixing 56% polyvinyl alcohol, which is diluted in water to the consistency of thick molasses, with 22% lactic acid and 22% phenol by volume. The permanent slides are made by floating off the cover slip of the temporary slide in 70% alcohol, then applying the mounting medium and replacing the cover slip.
The chief advantages of the methods described are:
1)The preparation of the stain is rapid and simple. The batch of stain will be good with the first try.
2)The staining procedure in some instances is shorter than when using aceto-carmine.
3)The stain shows a high degree of specificity for nuclear structures and gives better results than aceto-carmine when used on certain plant tissues.
4)A minimum number of cells is lost in making the slides permanent when using polyvinyl alcohol mounting medium as the slide and cover slip are run through only one solution prior to mounting.
5)The mounting medium dries rapidly and this shortens the time required before critical examination of the permanent mounts can be made. 相似文献
2.
A method is described for preparing cake crumb for sectioning and staining. Previous to embedding, the fat was stained and fixed by exposing small blocks of cake to the fumes from a 5%, freshly-prepared, aqueous solution of osmic acid (OsO4). This was followed by dehydration in ethyl alcohol and tertiary butyl alcohol, removal of air under vacuum and infiltration with paraffin.
Sections were cut 20 and 9Op thick and mounted with water.
Wax was removed by immersion in xylene. The sections were rehydrated in a series of ethyl alcohol dilutions, from concentrated to dilute, then transferred to distilled water.
Protein was then stained pink by immersion of the slides in an acidified 0.04% water solution of eosin Y, or starch was stained blue with a dilute aqueous solution of iodine. Ten grams iodine and 10 g. KI were dissolved in 25 ml. distilled water. This stock solution was diluted for use one to two hundred times.
The relationship between protein and starch was demonstrated by staining the sections with eosin, differentiating in 50% alcohol and staining with iodine.
When slides of cake crumb were prepared in this way, the fat was stained black, the protein bright pink and the starch granules a dark blue. 相似文献
Sections were cut 20 and 9Op thick and mounted with water.
Wax was removed by immersion in xylene. The sections were rehydrated in a series of ethyl alcohol dilutions, from concentrated to dilute, then transferred to distilled water.
Protein was then stained pink by immersion of the slides in an acidified 0.04% water solution of eosin Y, or starch was stained blue with a dilute aqueous solution of iodine. Ten grams iodine and 10 g. KI were dissolved in 25 ml. distilled water. This stock solution was diluted for use one to two hundred times.
The relationship between protein and starch was demonstrated by staining the sections with eosin, differentiating in 50% alcohol and staining with iodine.
When slides of cake crumb were prepared in this way, the fat was stained black, the protein bright pink and the starch granules a dark blue. 相似文献
3.
Antero Vaarama 《Biotechnic & histochemistry》1950,25(1):47-50
A method for the dry-preservation of fixed plant material, root tips and buds, is described. The method seems to be advantageous on long expeditions and when material has to be sent away.
The material is transferred from the fixative to 70% alcohol (3 changes, 1/2 hour in the last). It is dried on blotting-paper. The dried material may be preserved a long time. Material kept dry for 4 1/2 years has proved to be quite satisfactory. Drying has been tried after fixation with CRAF-solutions (Webber and Randolph modifications) and fixatives containing osmic acid (Fleming-Benda and 2BD).
The dry material is swollen by keeping for 2 days in 10% alcohol. It is embedded in paraffin according to the usual method. A satisfactory staining has been obtained after these fixatives using iodine-gentian-violet and Feulgen stainings. In addition to chromosome counts dry material may be used for chromosome morphology studies.
Dried material fixed in aceto-alcohol (1:3) has not turned out to be specially suitable for squash preparations owing to the fragility of the chromosomes. If strong pressure is not applied, satisfactory results may, however, be obtained. 相似文献
The material is transferred from the fixative to 70% alcohol (3 changes, 1/2 hour in the last). It is dried on blotting-paper. The dried material may be preserved a long time. Material kept dry for 4 1/2 years has proved to be quite satisfactory. Drying has been tried after fixation with CRAF-solutions (Webber and Randolph modifications) and fixatives containing osmic acid (Fleming-Benda and 2BD).
The dry material is swollen by keeping for 2 days in 10% alcohol. It is embedded in paraffin according to the usual method. A satisfactory staining has been obtained after these fixatives using iodine-gentian-violet and Feulgen stainings. In addition to chromosome counts dry material may be used for chromosome morphology studies.
Dried material fixed in aceto-alcohol (1:3) has not turned out to be specially suitable for squash preparations owing to the fragility of the chromosomes. If strong pressure is not applied, satisfactory results may, however, be obtained. 相似文献
4.
Becher's investigations upon the soluble metallic lakes of the oxazines have been re-investigated, extended and results described. Gallamin blue, gallocyanin and coelestin blue in combination with ferric ammonium sulfate gave the best results. The dyes are dissolved in a five per cent aqueous solution of ferric ammonium sulfate. The solution is boiled for 2-3 minutes, cooled, filtered and ready for immediate use. The iron lakes of these dyes stain nuclei excellently giving a deep blue or blue black in 3-5 minutes. No differentiation with acid is required. Coelestin blue gives the most stable solution and is recommended as a routine nuclear stain. The protoplasm remains practically colorless and counter-staining with acid dyes such as ethyl-eosin, orange G, or fuchsin gives pictures which cannot be distinguished from a good hematoxylin stain.
Counter-staining with van Gieson solution is also possible. Benda's modification of the van Gieson solution is recommended. Staining of fat with Sudan, scarlet red, etc., does not interfere with nuclear staining by these dyes.
As applied to the central nervous system these dyes are far superior to hematoxylin. Ganglion and glia cells are as excellently stained as with thionin.
The most widely used fixatives, namely formaldehyde, Mueller-formaldehyde, Zenker's and alcohol, give equally as good results. The nature of the staining process is briefly discussed and a prospectus offered. 相似文献
Counter-staining with van Gieson solution is also possible. Benda's modification of the van Gieson solution is recommended. Staining of fat with Sudan, scarlet red, etc., does not interfere with nuclear staining by these dyes.
As applied to the central nervous system these dyes are far superior to hematoxylin. Ganglion and glia cells are as excellently stained as with thionin.
The most widely used fixatives, namely formaldehyde, Mueller-formaldehyde, Zenker's and alcohol, give equally as good results. The nature of the staining process is briefly discussed and a prospectus offered. 相似文献
5.
H. A. Davenport 《Biotechnic & histochemistry》1934,9(2):49-52
The fixing action of 10% formalin solution alone and with formic, acetic, propionic, butyric, lactic, monochloracetic, dichloracetic, or trichloracetic acid was studied by means of stains with silver, osmic acid and cresyl violet. The following conclusions were reached:
1. In general, better fixation and staining was obtained with acid than without.
2. Less difference was seen in comparing one acid with another than was expected before the experiments were made.
3. Propionic, butyric, and dichloracetic showed no promise of having practical value.
4. Formic and monochloracetic acids as modifiers gave superior stains with osmic acid, while silver and cresyl violet stains of the same material were about equal to those made from formalin-acetic fixed material.
5. Lactic acid caused somewhat more distortion of tissue elements than the others but was compatible with good staining.
6. Acetic acid was most effective in concentrations of 3 to 5% while the stronger acids such as formic, monochloracetic, lactic and trichloracetic were effective in concentrations of 0.5 to 1%. 相似文献
1. In general, better fixation and staining was obtained with acid than without.
2. Less difference was seen in comparing one acid with another than was expected before the experiments were made.
3. Propionic, butyric, and dichloracetic showed no promise of having practical value.
4. Formic and monochloracetic acids as modifiers gave superior stains with osmic acid, while silver and cresyl violet stains of the same material were about equal to those made from formalin-acetic fixed material.
5. Lactic acid caused somewhat more distortion of tissue elements than the others but was compatible with good staining.
6. Acetic acid was most effective in concentrations of 3 to 5% while the stronger acids such as formic, monochloracetic, lactic and trichloracetic were effective in concentrations of 0.5 to 1%. 相似文献
6.
Spinal cord of cat and rabbit was stained, after experimental lesions, by variations of Marchi's method. The following conclusions were drawn:
1. The presence of an oxidizing agent (K2Cr2O7, NaIO3, or KCIO3) in the osmic acid solution is of primary importance and a preliminary oxidation in Mueller's fluid is unnecessary or even detrimental.
2. Acetic acid added to Marchi's fluid, accentuates the action of the oxidizing agent in restraining the staining of normal myelin.
3. Too high concentration of oxidizing agent or of acid may inhibit staining of degenerating myelin.
4. Marchi's and Busch's methods have been modified as follows: Fix one day in 10% formalin and transfer without washing to the staining mixture, either A or B. Staining mixture A: Marchi's fluid plus 1 to 3% glacial acetic acid. B: An aqueous solution containing KCIO3 0.25%, osmic acid 0.33%, and acetic acid 1%. Stain about one week. These methods worked on spinal cord and medulla, but cannot be recommended for brain.
5. The detrimental effects of long post mortem autolysis or of prolonged fixation in formalin may be counteracted to some degree by increasing the concentration of the acid in Marchi's fluid up to 5% or of the KCIO3 up to 0.4% in the modified Busch's fluid. 相似文献
1. The presence of an oxidizing agent (K2Cr2O7, NaIO3, or KCIO3) in the osmic acid solution is of primary importance and a preliminary oxidation in Mueller's fluid is unnecessary or even detrimental.
2. Acetic acid added to Marchi's fluid, accentuates the action of the oxidizing agent in restraining the staining of normal myelin.
3. Too high concentration of oxidizing agent or of acid may inhibit staining of degenerating myelin.
4. Marchi's and Busch's methods have been modified as follows: Fix one day in 10% formalin and transfer without washing to the staining mixture, either A or B. Staining mixture A: Marchi's fluid plus 1 to 3% glacial acetic acid. B: An aqueous solution containing KCIO3 0.25%, osmic acid 0.33%, and acetic acid 1%. Stain about one week. These methods worked on spinal cord and medulla, but cannot be recommended for brain.
5. The detrimental effects of long post mortem autolysis or of prolonged fixation in formalin may be counteracted to some degree by increasing the concentration of the acid in Marchi's fluid up to 5% or of the KCIO3 up to 0.4% in the modified Busch's fluid. 相似文献
7.
Permanent mounts of certain protozoa and small worms are obtained as follows: kill suspensions of the organisms with Feulgen's fixative (6% HgCl2 in 2% aqu. acetic acid) for 3 to 24 hours. After pipetting off the fixative, add successively: 70% iodized alcohol; ditto, 30 minutes later; 50%, then 35% alcohol; 2 baths distilled water; normal HCl. Transfer to cold water and heat to 60°C for 4 to 5 minutes or longer. Cool under running water; and wash in distilled water.
Stain 1 to 3 hours in Feulgen's fuchsin sulfurous acid (1 g. of a suitable basic fuchsin, e. g. rosanilin hydrochloride, boiled in 200 cc. water, cooled, and allowed to stand 24 hours after adding 20 cc. normal HCl and 1 g. sodium bisulfite). Pass thru 3 baths of 200 cc. distilled water with 10 cc. normal HCl and 1 g. sodium bisulfite. Transfer to water and then to 35%, 70%, and 95% alcohols successively. Counterstain with fast green FCF, orange G or eosin Y in 95% alcohol. Pass thru two changes of absolute alcohol.
Transfer to 10% Venetian turpentine and place in a dessicator; mount after the turpentine has become concentrated.
If sections instead of total mounts are desired, the material should go from absolute alcohol, thru alcohol-xylol and xylol to paraffin (or preferably paraffin of M. P. 56°C with 3% bees-wax). The paraffin may be added to the material in the test tube, and cooled after the organisms have settled. Then break the tube, trim a block, and cut. 相似文献
Stain 1 to 3 hours in Feulgen's fuchsin sulfurous acid (1 g. of a suitable basic fuchsin, e. g. rosanilin hydrochloride, boiled in 200 cc. water, cooled, and allowed to stand 24 hours after adding 20 cc. normal HCl and 1 g. sodium bisulfite). Pass thru 3 baths of 200 cc. distilled water with 10 cc. normal HCl and 1 g. sodium bisulfite. Transfer to water and then to 35%, 70%, and 95% alcohols successively. Counterstain with fast green FCF, orange G or eosin Y in 95% alcohol. Pass thru two changes of absolute alcohol.
Transfer to 10% Venetian turpentine and place in a dessicator; mount after the turpentine has become concentrated.
If sections instead of total mounts are desired, the material should go from absolute alcohol, thru alcohol-xylol and xylol to paraffin (or preferably paraffin of M. P. 56°C with 3% bees-wax). The paraffin may be added to the material in the test tube, and cooled after the organisms have settled. Then break the tube, trim a block, and cut. 相似文献
8.
Alden B. Dawson 《Biotechnic & histochemistry》1926,1(4):123-124
A selective, progressive method for staining the skeleton in cleared specimens, developed with rat material.
Fix in 95% alcohol for at least 48 to 96 hrs. Even longer fixation is desirable. Then place in a 1% solution of KOH until the bones are clearly visible through the surrounding tissues. Transfer directly to a dilute solution of alizarin in KOH, one part alizarin to 10,000 parts of 1% KOH. Allow the stain to act until the desired intensity is attained. Fresh stain may be added if necessary.
Complete the clearing process, (1) in Mall's solution, water 79 parts, glycerine 20 parts and KOH 1 part; (2) in increased concentrations of glycerine. Store in pure glycerine.
The success of the method depends on obtaining the proper degree of clearing before staining. If the specimen is insufficiently cleared, a general staining of all tissues usually occurs. 相似文献
Fix in 95% alcohol for at least 48 to 96 hrs. Even longer fixation is desirable. Then place in a 1% solution of KOH until the bones are clearly visible through the surrounding tissues. Transfer directly to a dilute solution of alizarin in KOH, one part alizarin to 10,000 parts of 1% KOH. Allow the stain to act until the desired intensity is attained. Fresh stain may be added if necessary.
Complete the clearing process, (1) in Mall's solution, water 79 parts, glycerine 20 parts and KOH 1 part; (2) in increased concentrations of glycerine. Store in pure glycerine.
The success of the method depends on obtaining the proper degree of clearing before staining. If the specimen is insufficiently cleared, a general staining of all tissues usually occurs. 相似文献
9.
W. N. Steil 《Biotechnic & histochemistry》1933,8(4):139-142
A modification of Loeffler's method for staining the flagella of bacteria was employed in staining large forms of bacteria and antherozoids. The bacteria or the antherozoids are killed and fixed in a drop of water on a slide and set aside to dry, before the next step is undertaken. The slide is treated for a period of time, varying from about ten minutes to several hours, in a practically saturated solution of tannic acid. After the slide is thoroly rinsed in water, it is stained with either a single stain or a combination of stains. The slide is then dehydrated with absolute alcohol, cleared, with clove oil, and completed in the usual manner.
The body of the bacterium and that of the antherozoid are well differentiated and the cilia are distinctly brought out by means of the method herein described.
The technic is of especial value in staining the antherozoids of mosses, liverworts, and ferns. 相似文献
The body of the bacterium and that of the antherozoid are well differentiated and the cilia are distinctly brought out by means of the method herein described.
The technic is of especial value in staining the antherozoids of mosses, liverworts, and ferns. 相似文献
10.
Procedures having enhanced reliability over older methods for both Bielschowsky and Cajal types of stain are described.
Fixation of embryos in a solution containing 4% formaldehyde and 0.5% trichloracetic acid greatly improved the staining of neural elements by Bielschowsky's method.
Among the variations of Cajal's type of staining tried, a modification of Ranson's pyridin-silver method gave the most complete staining of neurofibrillar elements. Washing for 0.5 to 1 hour after silver impregnation and shortening of the reduction time from 24 to 4 hours corrected the tendency of the method to overstain. 相似文献
Fixation of embryos in a solution containing 4% formaldehyde and 0.5% trichloracetic acid greatly improved the staining of neural elements by Bielschowsky's method.
Among the variations of Cajal's type of staining tried, a modification of Ranson's pyridin-silver method gave the most complete staining of neurofibrillar elements. Washing for 0.5 to 1 hour after silver impregnation and shortening of the reduction time from 24 to 4 hours corrected the tendency of the method to overstain. 相似文献
11.
Charles O. Bechtol 《Biotechnic & histochemistry》1948,23(1):3-8
The following method for staining bone and cartilage allows study of the gross cleared specimen and does not injure the tissues for subsequent microscopic study: Fix in 10% neutral formalin; bleach thoroughly in 3% H2O2 in sunlight. Wash in distilled water. Stain bone 24 hours in 0.01 g. of Biebrich scarlet in 100 ml. of distilled water. Destain in 95% alcohol until soft tissues and cartilage are colorless. Stain cartilage 24 hours in a pH2 buffer solution of 2.1g. of citric acid per 100 ml. of water with 0.001 g. of methylene blue. Destain in pH2 buffer solution until soft tissues are pale. Dehydrate in two changes of 95% alcohol in preparation for clearing. (This completes the destaining and may remove too much stain from the cartilage if destaining in the pH2 solution has been carried too far.) Place in Groat's clearing fluid and cover loosely so that the alcohol may evaporate, or remove the alcohol in vacuo. Groat's Mixture No. 19 is usually satisfactory.
For a combined stain, first stain bone, as above, and then apply the cartilage stain.
Seal jars with an ordinary liquid wood glue such as LePage's. 相似文献
For a combined stain, first stain bone, as above, and then apply the cartilage stain.
Seal jars with an ordinary liquid wood glue such as LePage's. 相似文献
12.
This paper shows that by using solutions heated in the incubator during certain stages, the alizarin red S method of staining the ossified centers in embryos has been shortened, with a consequent saving in time.
New methods of mounting the specimens have been evolved and are described in detail.
The technic of photographing mounted and unmounted specimens is outlined and illustrated by diagrams.
Diagrammatic illustrations are provided of the various types of apparatus used, including a plan of the cabinet for demonstrating clearly the smaller embryos mounted between watch glasses. Photographic examples of the results achieved are also shown. 相似文献
New methods of mounting the specimens have been evolved and are described in detail.
The technic of photographing mounted and unmounted specimens is outlined and illustrated by diagrams.
Diagrammatic illustrations are provided of the various types of apparatus used, including a plan of the cabinet for demonstrating clearly the smaller embryos mounted between watch glasses. Photographic examples of the results achieved are also shown. 相似文献
13.
J. A. Rattenbury 《Biotechnic & histochemistry》1952,27(2):113-120
A method is described for staining nucleoli intensely by treating tissues with formaldehyde, hydrolysing in normal HC1 at 60°C. and staining with aceto-carmine. With correct hydrolysis time, chromosomes and cytoplasm are almost colorless.
Formaldehyde increases the acidity of cell parts, especially the nucleolus, presumably by neutralizing the basic protein groups, and increases the resistance to hydrolysis, perhaps by protecting the phospholipoprotein complexes which are most abundant in the nucleolus.
Hydrolysis reduces the acidity of cell parts, chiefly by removal of nucleic acids.
Aceto-carmine stains cell structures which are weakly acid in character (about pH 4-5) probably by precipitating as large dye aggregates.
The technic appears to be highly specific for nucleoli and related cell bodies. 相似文献
Formaldehyde increases the acidity of cell parts, especially the nucleolus, presumably by neutralizing the basic protein groups, and increases the resistance to hydrolysis, perhaps by protecting the phospholipoprotein complexes which are most abundant in the nucleolus.
Hydrolysis reduces the acidity of cell parts, chiefly by removal of nucleic acids.
Aceto-carmine stains cell structures which are weakly acid in character (about pH 4-5) probably by precipitating as large dye aggregates.
The technic appears to be highly specific for nucleoli and related cell bodies. 相似文献
14.
Following experimental lesions, spinal cords of cats and rabbits were fixed with acid, neutral, and alkaline solutions. Staining was limited to a chromate-osmic (Marchi's) solution and a chlorate-osmic solution. The following conclusions were drawn:
The presence of an acid in the fixative caused normal myelin sheaths to stain. This effect was reduced by washing tissues before staining, by adding acetic acid to the stain, or by employing a non-formalin fixative. It was, however, at no time entirely obviated.
A study was made of the granular deposits which occur in nearly all Marchi preparations and which are especially confusing if very light backgrounds are obtained.
The staining reactions of the granular deposits were very similar to those of degenerating myelin but some suppression of the granules was obtained by adding KCIO3 to the formalin fixative. 相似文献
The presence of an acid in the fixative caused normal myelin sheaths to stain. This effect was reduced by washing tissues before staining, by adding acetic acid to the stain, or by employing a non-formalin fixative. It was, however, at no time entirely obviated.
A study was made of the granular deposits which occur in nearly all Marchi preparations and which are especially confusing if very light backgrounds are obtained.
The staining reactions of the granular deposits were very similar to those of degenerating myelin but some suppression of the granules was obtained by adding KCIO3 to the formalin fixative. 相似文献
15.
Permanent preparations were made of paraffin sections from raw and cooked apple tissues stained with microchemical color reagents for pectins and pentosans. Sections stained with ruthenium red to show pectins were dehydrated and covered in balsam, and sections stained with diphenylene diamine acetate (DDA) to show pentosans were washed with water and covered in Clearcol.
Cooking was accomplished by steaming cubed histological samples. Both raw and steamed specimens were fixed in FAA in a vacuum chamber, dehydrated and cleared in tertiary butyl alcohol, and embedded in paraffin. Paraffin sections first fixed to slides with Haupt's adhesive were further stabilized by immersing in a 1% celloidin solution after dissolving the paraffin.
Ruthenium oxychloride flakes were dissolved in a Coplin jar of water containing 2 drops of ammonium hydroxide. Rehydrated sections were stained in ruthenium red 30 minutes and rinsed in water. Three methods of further preparation follow: (1) Flood sections with 10% gum arabic; drain and air-dry thoroughly; immerse in xylene 5 minutes; cover in balsam. (2) Drain and air-dry sections; if desired, counterstain dry sections with Johansen's fast green solution; immerse in xylene; cover in balsam. (3) Dehydrate by dipping in 70%, 95%, and absolute ethyl alcohol; immerse in xylene; cover in balsam.
DDA was made by heating 15 g. of benzidine in 150 ml. of glacial acetic acid and 450 ml. of water until dissolved, then adding water to make 750 ml. of solution. Rehydrated sections were stained 4 hours in DDA, washed, stained 5 minutes in Congo red (Congo red, 5 g.; NaOH, 5 g.; water, 100 ml.), washed, and covered in Clearcol.
An Autotechnicon was used for dehydration, clearing, infiltration, deparaffinizing sections, and staining. Procedures that necessarily remained manual were fixation in a vacuum chamber, and all operations that followed staining.
Ruthenium red, though the best available indicator for pectins, may not be specific for these substances. DDA and ruthenium red stained identical structures in hypodermis and cortex. DDA also stained cuticle, hence was more useful than ruthenium red for delineating that portion. DDA sections were better for photomicrography, and for measuring thickness of cell walls. Neither stain prevented the study of cell walls in polarized light. 相似文献
Cooking was accomplished by steaming cubed histological samples. Both raw and steamed specimens were fixed in FAA in a vacuum chamber, dehydrated and cleared in tertiary butyl alcohol, and embedded in paraffin. Paraffin sections first fixed to slides with Haupt's adhesive were further stabilized by immersing in a 1% celloidin solution after dissolving the paraffin.
Ruthenium oxychloride flakes were dissolved in a Coplin jar of water containing 2 drops of ammonium hydroxide. Rehydrated sections were stained in ruthenium red 30 minutes and rinsed in water. Three methods of further preparation follow: (1) Flood sections with 10% gum arabic; drain and air-dry thoroughly; immerse in xylene 5 minutes; cover in balsam. (2) Drain and air-dry sections; if desired, counterstain dry sections with Johansen's fast green solution; immerse in xylene; cover in balsam. (3) Dehydrate by dipping in 70%, 95%, and absolute ethyl alcohol; immerse in xylene; cover in balsam.
DDA was made by heating 15 g. of benzidine in 150 ml. of glacial acetic acid and 450 ml. of water until dissolved, then adding water to make 750 ml. of solution. Rehydrated sections were stained 4 hours in DDA, washed, stained 5 minutes in Congo red (Congo red, 5 g.; NaOH, 5 g.; water, 100 ml.), washed, and covered in Clearcol.
An Autotechnicon was used for dehydration, clearing, infiltration, deparaffinizing sections, and staining. Procedures that necessarily remained manual were fixation in a vacuum chamber, and all operations that followed staining.
Ruthenium red, though the best available indicator for pectins, may not be specific for these substances. DDA and ruthenium red stained identical structures in hypodermis and cortex. DDA also stained cuticle, hence was more useful than ruthenium red for delineating that portion. DDA sections were better for photomicrography, and for measuring thickness of cell walls. Neither stain prevented the study of cell walls in polarized light. 相似文献
16.
Elizabeth F. Genung 《Biotechnic & histochemistry》1926,1(1):41-48
The writer has made an investigation of various samples of basic fuchsin for use in the Endo medium for differentiating the bacteria of the colon-typhoid group. Various different concentrations of the fuchsin samples have been used in making the media. The conclusions are as follows:
American made fuchsins differ markedly in their alcohol solubility properties. They contain materials which are very readily soluble in 95% alcohol, but which are precipitated by sodium sulphite.
This precipitation may be prevented by increasing the dilution of the fuchsin in alcohol.
In order to secure more dependable results in the use of decolorized basic fuchsin as an indicator in Endo Agar, it is advisable to test the fuchsin in different dilutions in alcohol in order to secure a completely decolorized solution. It is also advisable to carefully test those fuchsins which decolorize only in high dilutions with a known organism in Endo agar before relying on it as a satisfactory indicator for the presence of sewage organisms. 相似文献
American made fuchsins differ markedly in their alcohol solubility properties. They contain materials which are very readily soluble in 95% alcohol, but which are precipitated by sodium sulphite.
This precipitation may be prevented by increasing the dilution of the fuchsin in alcohol.
In order to secure more dependable results in the use of decolorized basic fuchsin as an indicator in Endo Agar, it is advisable to test the fuchsin in different dilutions in alcohol in order to secure a completely decolorized solution. It is also advisable to carefully test those fuchsins which decolorize only in high dilutions with a known organism in Endo agar before relying on it as a satisfactory indicator for the presence of sewage organisms. 相似文献
17.
Glenn W. Blaydes 《Biotechnic & histochemistry》1939,14(3):105-110
The staining quality of Bismarck brown Y may be improved and sterility maintained by adding 5% phenol to a 1% aqueous solution. Use the phenolic Bismarck brown in combination with iron alum hematoxylin except for stripped epidermis in the following procedures:
Stem and Root Schedule: Mordant sections from water in 4% iron alum for 10 minutes. Rinse in distilled water and stain in 0.5% aqueous hematoxylin for 1 minute or until darkly stained. Rinse in distilled water and destain in 2% iron alum until a gray color appears. Rinse thoroly in distilled water and intensify hematoxylin by transferring sections to 0.5% aqueous lithium carbonate until the desired black color appears. Rinse thoroly in distilled water and stain for 1-5 minutes in phenolic Bismarck brown. Rinse in distilled water, dehydrate successively in 30, 50, 70, 95 and 100% alcohol. Clear in methyl salicylate for 5 minutes, then to xylene for 3-5 minutes, and mount in balsam.
Middle Lamellae in Wood: Destain more thoroly in 2% iron alum than for the general stem and root schedule, and intensify in lithium carbonate for a longer period (about 1 hour).
White Potato Tuber Sections: Modify above schedule by reducing time of destaining in 2% iron alum to about 30-60 seconds and intensify hematoxylin until starch grains appear bluish in color. Stain in phenolic Bismarck brown for 1-2 minutes.
Wheat Grain Sections: Fix grain for sectioning when in “dough” stage. Use schedule the same as for potato tuber except for reducing time of staining in phenolic Bismarck brown to about 45 seconds.
Tradescantia zebrina Epidermis: Strip epidermis from leaf while submerged in water. Fix in 100% alcohol 10 minutes, pass thru 95, 70, 50, 30, and 10% alcohol to water. Stain in phenolic Bismarck brown for 10-20 minutes. Dehydrate, clear in methyl salicylate and mount in balsam. 相似文献
Stem and Root Schedule: Mordant sections from water in 4% iron alum for 10 minutes. Rinse in distilled water and stain in 0.5% aqueous hematoxylin for 1 minute or until darkly stained. Rinse in distilled water and destain in 2% iron alum until a gray color appears. Rinse thoroly in distilled water and intensify hematoxylin by transferring sections to 0.5% aqueous lithium carbonate until the desired black color appears. Rinse thoroly in distilled water and stain for 1-5 minutes in phenolic Bismarck brown. Rinse in distilled water, dehydrate successively in 30, 50, 70, 95 and 100% alcohol. Clear in methyl salicylate for 5 minutes, then to xylene for 3-5 minutes, and mount in balsam.
Middle Lamellae in Wood: Destain more thoroly in 2% iron alum than for the general stem and root schedule, and intensify in lithium carbonate for a longer period (about 1 hour).
White Potato Tuber Sections: Modify above schedule by reducing time of destaining in 2% iron alum to about 30-60 seconds and intensify hematoxylin until starch grains appear bluish in color. Stain in phenolic Bismarck brown for 1-2 minutes.
Wheat Grain Sections: Fix grain for sectioning when in “dough” stage. Use schedule the same as for potato tuber except for reducing time of staining in phenolic Bismarck brown to about 45 seconds.
Tradescantia zebrina Epidermis: Strip epidermis from leaf while submerged in water. Fix in 100% alcohol 10 minutes, pass thru 95, 70, 50, 30, and 10% alcohol to water. Stain in phenolic Bismarck brown for 10-20 minutes. Dehydrate, clear in methyl salicylate and mount in balsam. 相似文献
18.
The following fixative is recommended for tissues vitally stained with trypan blue: Chloroform, 2 parts; absolute ethyl alcohol, 2 parts; glacial acetic acid, 1 part; mercuric chloride to the point of saturation.
The tissue should be fixed 1 to 2 hours; transferred to 95% ethyl alcohol for 12 hours; to absolute alcohol for 12 to 24 hours; to a mixture of absolute alcohol and xylol for 1/2 hour, and finally to xylol, before embedding in paraffin. Cedar oil may be used for clearing in the place of xylol; in that case the tissues should be transferred from absolute alcohol to a mixture of absolute alcohol and cedar oil for 24 hours before placing in cedar oil alone.
Various counterstains can be used; Mayer's carmalum is excellent. 相似文献
The tissue should be fixed 1 to 2 hours; transferred to 95% ethyl alcohol for 12 hours; to absolute alcohol for 12 to 24 hours; to a mixture of absolute alcohol and xylol for 1/2 hour, and finally to xylol, before embedding in paraffin. Cedar oil may be used for clearing in the place of xylol; in that case the tissues should be transferred from absolute alcohol to a mixture of absolute alcohol and cedar oil for 24 hours before placing in cedar oil alone.
Various counterstains can be used; Mayer's carmalum is excellent. 相似文献
19.
The phenyl and methyl trihydroxyfluorones, hitherto used histologically only in the rather difficult and unreliable Turchini tecbnics for discriminating deoxyribonucleic from ribonucleic acid, find a new use as iron mordant metachrome dyes which act as nuclear stains. Nuclear staining is unaffected by acid extraction of nudeic acids, as with hematoxylin lakes.
The two dyes, named by Liebermann and Lindenbanm 9-phenyl-2, 3, 7-trihydroxy-6-fluorone and 9-methyl-2, 3, 7-trihydroxy-6-Ruorone, have also acquired (illustrating with the phenyl homolog) longer chemical names of the form 2, 6, 7-trihydroxy-9-phenylisoxanthene-3-one (Eastman). Aldrich and Pfalz-Bauer adhere to the Liebermann-Lindenbaum nomenclature. The trivial name fluorone black is proposed for the phenyl homolog and methyl fluorone black for the methyl homolog.
The iron lake of fluorone black appears to be a useful substitute for iron hematoxylin, methyl fluorone black less useful. Neither dye has the diverse capability of hematoxylin.
Aided by a contract from the National Cancer Institute NO-1-CB-43912 相似文献
The two dyes, named by Liebermann and Lindenbanm 9-phenyl-2, 3, 7-trihydroxy-6-fluorone and 9-methyl-2, 3, 7-trihydroxy-6-Ruorone, have also acquired (illustrating with the phenyl homolog) longer chemical names of the form 2, 6, 7-trihydroxy-9-phenylisoxanthene-3-one (Eastman). Aldrich and Pfalz-Bauer adhere to the Liebermann-Lindenbaum nomenclature. The trivial name fluorone black is proposed for the phenyl homolog and methyl fluorone black for the methyl homolog.
The iron lake of fluorone black appears to be a useful substitute for iron hematoxylin, methyl fluorone black less useful. Neither dye has the diverse capability of hematoxylin.
Aided by a contract from the National Cancer Institute NO-1-CB-43912 相似文献
20.
H. A. Tobgy 《Biotechnic & histochemistry》1942,17(4):171-175
Root tips of Crepis species are fixed in La Cour's “2BE” and dehydrated thru a butyl alcohol series. They are stained in 1% crystal violet for 1 hour, with chromic acid and iodine as pre-and post-staining mordants, respectively, and passed thru dehydrating alcohols containing picric acid and ammonium hydroxide. Differentiation is done in clove oil. The method is rapid; the chromosomes are dark purple; the centromere is not stained; and the cytoplasm is clear. By further controlled destaining the hetero-chromatic segments within the chromosomes may be located.
Pollen mother cells are fixed in acetic alcohol (1:4) and squashed in aceto-carmine. A method is described for making semi-permanent preparations mounted in diaphane.
Pollen grains are mounted in lacto-phenol with acid fuchsin or anilin blue W. S. as the dye. 相似文献
Pollen mother cells are fixed in acetic alcohol (1:4) and squashed in aceto-carmine. A method is described for making semi-permanent preparations mounted in diaphane.
Pollen grains are mounted in lacto-phenol with acid fuchsin or anilin blue W. S. as the dye. 相似文献