Silver staining of DNA synthesizing cells in the neural tube of chick embryos

I report a study by light microscopy of the spinal cord of early chick embryos stained with the ammoniacal silver carbonate solution of Del Rio Hortega. Cell nuclei are stained in a selective fashion and two classes of nuclei - dark and pale - can be distinguished in the neuroepithelium. Neuronal nuclei also show a characteristic staining pattern. A radioautographic study after [3H] thymidine incorporation has shown that it is the dark neuroepithelial nuclei that are engaged in DNA synthesis. Dark nuclei disappear after administration of cytosine arabinoside, supporting the association between DNA synthesis and silver staining of neuroepithelial nuclei.     

Silver staining in transcriptionally active NORs of meiotic and mitotic cells in Acheta domesticus (L.) (Orthoptera)

The behaviour of the NOR material in mitotic and meiotic cells of Acheta domesticus was studied by silver staining. — In mitotic chromosomes black silver staining is observed in the centromeric region of 2 pairs of acrocentric chromosomes. Additionally a polymorphic silver positive region is found at the telomere of a large submetacentric chromosome. — The Ag-pattern of the amplified rDNA material in various stages of oogenesis was followed. During pachytene the extra DNA body shows dark brownish staining and only a few black spots. One distinct black precipitate, however, is found in association with meiotic chromosomes. In early diplotene the central core of the extra DNA body is heavily stained with silver. The outer shell shows only brown staining. In the following stages of diplotene the compact structure of the outer shell is loosened and small brown extra nucleoli are found in the remaining nucleus. These nucleoli show black Ag-precipitates in their centres. During the desintegration of the extra DNA body the nucleus becomes filled with small extra nucleoli. The black stained central core is reduced in size and finally disappears.     

Staining of depolymerised DNA in mammalian tissues with methyl violet 6B and crystal violet

The paper contains an account of DNA staining with basic dyes; methyl violet 6B and crystal violet in mammalian tissue sections after RNA extraction with cold concentrated phosphoric acid. The study shows that the best staining is obtained at pHs 2.5 and 3.5. Dehydration of stained nuclei is perfect when a mixture of absolute ethanol and n-butanol is used followed by treatment of sections in isoamyl or amyl alcohol. The in situ absorption data of nuclei stained with aqueous solution of methyl violet 6B as well as with crystal violet are also presented. Possible mechanism of staining as well as an explanation for dye-leaching when sections are dehydrated through ethanol are discussed.     

The histological localization of DNA in rabbit medullary neurons

The nuclei of unfixed isolated rabbit neurons cleared on incubation with DNAse (10 mg/ml), but not RNAse (10 mg/ml). The nuclei stained for DNA with eight chromosomal or nuclear stains more intensely than the cytoplasm, and less intensely after treatment with DNAse (10 mg/ml). On the other hand, when the whole tissue was embedded and sectioned, DNA did not appear to be stained in the nucleus; the nucleolus and the cytoplasm were more heavily stained than the nucleoplasm. Possible explanations for this apparent anomaly are considered. It was concluded that DNA diffused out of the nucleus during embedding and sectioning, and that the colouration of the nucleolus and cytoplasm with the eight staining systems used was due to other nucleotides present.     

Evaluation of the effects of cryopreservation of isolated erythrocytes and leukocytes of largemouth bass by flow cytometry

We examined the effects of separation and freezing on fish leukocyte and erythrocyte morphology by light microscopy and on DNA content as measured by flow cytometry (FCM). Leukocytes and erythrocytes of largemouth bass Micropterus salmoides were isolated by density gradient centrifugation of whole blood, and frozen in liquid nitrogen in a buffer containing DMSO as a cryopreservative. The coefficient of variation (CV) of the G₀/G₁ peak of the cells was used to assess variation in nuclear DNA content within cell populations before and after separation and freezing treatments. In erythrocytes, the CV did not change significantly (P>0.05) when nuclei were isolated and stained without freezing or when erythrocytes were frozen prior to nuclear isolation and staining. In leukocytes, freezing and thawing prior to isolation and staining of nuclei significantly increased the CV (P<0.05), and produced hyperdiploid shoulders of the G₀/G₁ peak. However, the CV of leukocyte nuclei that were isolated and stained prior to freezing and the CV of non-frozen leukocyte nuclei did not differ (P>0.05). Microscopy showed that the freezing protocol had little effect on erythrocyte morphology, but caused irregular swelling in leukocytes. Freezing intact leukocytes also significantly (p<0.05) altered the apparent distribution of cells among the phases of the cell cycle as measured by FCM. The distributions of leukocyte nuclei that were isolated and stained prior to freezing were not different to non-frozen leukocytes. DNA measurements of nucleated blood cells are widely used in physiological, genetic and toxicological studies. Our results suggest that whole blood and erythrocytes for use in such studies can be frozen whole using a simple protocol, but leukocyte nuclei must be isolated and stained before freezing to avoid serious artifacts.     

The mechanism of silver staining of proteins separated by SDS polyacrylamide gel electrophoresis

Gel based silver staining of proteins is thought to occur by selective reduction of silver ions to insoluble metallic silver at specific initiation sites in the vicinity of the protein molecules. Silver stained protein bands generally are dark brown or black with considerable variation in color intensity. The color variation has been attributed to diffractive scattering by silver grains of different sizes. Our experiments, however, demonstrate that color variation is due to the formation of silver chromate deposits that are incorporated into formalin fixed proteins. Understanding the mechanism of silver staining is essential for developing a method for protein quantification.     

Absence of nucleolar dominance in mouse-human heterokaryons

Autoradiographic analysis of [³H]uridine incorporation 48 h after polyethylene glycol-mediated cell fusion indicates that nucleolar RNA synthesis persists in both human and mouse nuclei in interspecific heterokaryons. The absence of nucleolar dominance in heterokaryons has been confirmed by zinc-dithizone nucleolus-specific staining, and is true even when there are considerably more nuclei of one species than of the other in the heterokaryon. Studies of actinomycin D-induced nucleolar segregation indicate that the zinc-binding proteins responsible for zinc-dithizone staining are located in a different nucleolar component than the protein responsible for silver staining.     

Tetraploid cycle in ageing solid tumours

Abstract. When the mouse mammary adenocarcinoma 755 (Ca-755) reaches the plateau phase of growth, non-cycling cells with a G₂-DNA content can be observed. They may belong to the diploid cell cycle but they could also be blocked in G₀ or G₁ of a tetraploid cycle. This hypothesis was tested in three ways: (1) non-cycling G₂ nuclei were stained with a combination of Feulgen and naphthol yellow which revealed two populations, one with a low protein content and the other with a high protein content– the latter may represent nuclei ready to begin a new phase of DNA synthesis; (2) Feulgen staining and autoradiography were performed after tritiated thymidine had been administered to mice continuously: this showed that there were cells synthesizing DNA with a DNA index above 2; and (3) cells having 80 chromosomes, corresponding to the tetraploid cycle, were found almost exclusively in the plateau phase tumours.
On the other hand, the use of texture and DNA parameters of the Feulgen stained nuclei showed that they were concentrated in a diploid cycle for tumours in the exponential phase of growth and were divided between a diploid and tetraploid cycle for 'plateau' cells. Neither the cause for, nor the role played by, polyploid cells is known.     

Electron microscopic analysis of glial cells in the rat telencephalon stained with the Neo-Timm and selenium methods

Two histochemical methods for visualization of zinc in synaptic vesicles, the Neo-Timm and selenium methods, have been shown to additionally stain glial cells and neuronal somata. In a previous light microscopic study the majority of stained glial cells were seen in the major fiber tracts of the rat telencephalon. The aim of the present study was to further characterize the stained glial cells with respect to glial cell type and ultrastructural localization of the silver grains responsible for the staining. Electron microscopic analysis of brains treated according to either method revealed that the vast majority of stained glial cells belonged to the dark oligodendroglial cell type. However, a smaller number of stained astrocytes was also seen, especially in the grey matter. The silver grains responsible for the staining were located in electron-dense rounded cytoplasmic organelles, suggestive of lysosomes.     

Silver Impregnation of Alzheimer's Neurofibrillary Changes Counterstained for Basophilic Material and Lipofuscin Pigment

A method is described in which selective silver staining of Alzheimer's neurofibrillary changes is combined with staining of cell nuclei, Nissl material, and lipofuscin granules. Formalin fixed, paraffin embedded sections of human autopsy tissue are silver stained according to a method proposed by Gallyas. Lipofuscin is stained by crotonaldehyde fuchsin following performic acid oxidation. Nissl substance is visualized by either Darrow red or gallocyanin-chrome alum staining. Architectonic units showing the specific pathology and the neuronal types prone to develop the neurofibrillary changes can be recognized using this technique.     

Silver impregnation of Alzheimer's neurofibrillary changes counterstained for basophilic material and lipofuscin pigment

A method is described in which selective silver staining of Alzheimer's neurofibrillary changes is combined with staining of cell nuclei, Nissl material, and lipofuscin granules. Formalin fixed, paraffin embedded sections of human autopsy tissue are silver stained according to a method proposed by Gallyas. Lipofuscin is stained by crotonaldehyde fuchsin following performic acid oxidation. Nissl substance is visualized by either Darrow red or gallocyanin-chrome alum staining. Architectonic units showing the specific pathology and the neuronal types prone to develop the neurofibrillary changes can be recognized using this technique.     

Behavior of silver stainable material during mitosis inVicia faba

To reveal the behavior of silver stainable material localized mainly in the nucleoli and nucleolar organizing regions (NORs), the somatic cells ofVicia faba were investigated by silver staining throughout the mitotic cell cycle. Nucleoli of interphase and early prophase nuclei were darkly stained. From late prophase to anaphase the secondary constrictions were discriminated as silver stained NORs and many silver grains appeared throughout the cytoplasm. At late prophase the NOR condensed at the same rate as the chromosome arm. Small spherical bodies and two new nucleoli appeared in telophase nuclei and at the same time the cytoplasmic grains disappeared. On the basis of the above observations on the silver stainable material during each mitotic phase, the behavior of silver stainable material is interpreted.     

Determination of ACC-induced cell-programmed death in roots of Vicia faba ssp. minor seedlings by acridine orange and ethidium bromide staining

Fluorescence staining with acridine orange (AO) and ethidium bromide (EB) showed that nuclei of cortex root cells of 1-aminocyclopropane-1-carboxylic acid (ACC)-treated Vicia faba ssp. minor seedlings differed in color. Measurement of resultant fluorescence intensity (RFI) showed that it increased when the color of nuclear chromatin was changed from green to red, indicating that EB moved to the nuclei via the cell membrane which lost its integrity and stained nuclei red. AO/EB staining showed that changes in color of the nuclear chromatin were accompanied by DNA condensation, nuclei fragmentation, and chromatin degradation which were also shown after 4,6-diamidino-2-phenylindol staining. These results indicate that ACC induced programmed cell death. The increasing values of RFI together with the corresponding morphological changes of nuclear chromatin were the basis to prepare the standard curve; cells with green unchanged nuclear chromatin were alive while those with dark orange and bright red nuclei were dead. The cells with nuclei with green–yellow, yellow–orange, and bright orange chromatin with or without their condensation and fragmentation chromatin were dying. The prepared curve has became the basis to draw up the digital method for detection and determination of the number of living, dying, and dead cells in an in planta system and revealed that ACC induced death in about 20% of root cortex cells. This process was accompanied by increase in ion leakage, shortening of cells and whole roots, as well as by increase in weight and width of the apical part of roots and appearance of few aerenchymatic spaces while not by internucleosomal DNA degradation.     

The distribution of tyrosine hydroxylase immunoreactivity in the brains of male and female zebra finches

A system of brain nuclei controls song learning and behavior in zebra finches (Poephila guttata). The size of song-control nuclei are much larger in males, which sing, than in females, which do not sing. This study examined the distribution of fibers, terminals, and cell bodies that are immunoreactive for tyrosine hydroxylase (TH) (the rate-limiting enzyme in the synthesis of catecholamines) in song-control nuclei of adult males and females and juvenile males. In addition, the broad pattern of TH staining throughout the brain was described. There was a sex difference in TH immunoreactivity within song-control nuclei: males had light to moderate staining in all three cortical nuclei examined, whereas females had little or no label in corresponding areas [lateral magnocellular nucleus of the anterior neostriatum (IMAN), higher vocal center (HVC), and robust nucleus of the archistriatum (RA)]. The song-control nucleus area X (X), located in the striatum of avian basal ganglia, was more darkly stained than the surrounding striatum only in males; X was not defined by more intense immunoreactivity in females and hence could not be visualized. There were no apparent differences in TH staining in males ranging in age from 50 days to adulthood (>90 days). Outside of the song-control system there were no substantive differences as a function of sex or age in the pattern or intensity of TH labeling. Major areas of telencephalic staining included the striatal region of basal ganglia, which was covered with dense, fine-grained label, and the septum, where cell bodies were encircled by extremely well-labeled thick processes. In the diencephalon, the preoptic area and hypothalamus included a complex pattern of darkly stained somata and fiber and terminal labeling. Darkly stained somata surrounded the pretectal nucleus, and labeled processes ramified throughout the superficial layers of the optic tectum. The midbrain and hindbrain contained a dense plexus of extremely dark cell bodies corresponding to mammalian substantia nigra, adjacent tegmental areas, and locus ceruleus. Labeled hindbrain cells were also seen in the pontine region, around nucleus solitarius, and in the ventrolateral medulla. © 1993 John Wiley & Sons, Inc.     

Sequential Estimation of Nuclear DNA and Silver Staining of Nucleoli in Plant Cells

A method for sequential estimation of nuclear DNA and silver staining of nucleoli in plant cells is described. Feulgen staining is done first and nuclear DNA estimated by absorption cytophotometry. Following this, the slides are stained with AgNO₃. The method has been used to study the process of nucleolar fusion in garlic (Allium sativum L.) meristem root tip cells. It was found that during interphase nucleoli rarely fused, thus most fusion must have occurred before the G_I phase of the cell cycle.     

123 Permanent Fluorescent Nuclear Staining of Binucleate Dinoflagellates

Typically, fluorescent microscopy of dinoflagellate nuclei is of poor resolution, due mainly to visual obstruction of the nuclei by plastids, pigment granules, and thecal plates. Moreover, the usual slide mounts using buffered glycerol are temporary, and fade after a week or so. We have developed a procedure to clear pigments from dinoflagellates, followed by fluorescent staining of the nuclei. The cells are then prepared as permanent mounts using an ultraviolet light-catalyzed resin to produce stained samples which may be kept for at least three years with little loss of fluorescence. This procedure can also be used to prepare plastic embedded dinoflagellate cells which can then be sectioned at 1–2 nm, fluorescent stained, and permanently mounted. Suitable nuclear stains are DAPI, Hoechst 33258, ethidium bromide and acridine orange. The dinoflagellate (dinokaryotic), and endosymbiont (eukaryotic) nuclei are clearly visualized, revealing individual chromosomes in the dinoflagellate nucleus, and a highly lobed morphology of the endosymbiont nucleus.     

Staining Glycol Methacrylate Embedded Cartilage with Triethyl-Carbocyanin Dbtc (“Ethyl-Stains All”) With Special Reference to the Interlacunar Network

The dye, triethyl-carbocyanin DBTC, was tested for differential staining of cartilage structures. Femoral head articular cartilage from neonatal rats was processed for histology to demonstrate the interlacunar network. Sections of glycol methacrylate (GMA) embedded cartilage were stained at pH 2.8, 5.4, 6.1 and 8.0 to determine the optimal staining conditions. Only at pH 6.1 were all cartilage structures stained and the best contrast achieved. Streptomyces hyaluronidase, chondroitinase ABC, pepsin, trypsin, and pronase digestions were carried out prior to staining at pH 6.1 to evaluate the selectivity of the stain. Undigested chondrocyte nuclear chromatin stained dark purple; staining intensity was reduced slightly by pepsin or trypsin digestion. Undigested chondrocyte cytoplasm stained light blue but stained purple after hyaluronidase digestion. Undigested extracellular matrix stained light violet; staining was almost entirely eliminated by chondroitinase ABC digestion, was unaffected by hyaluronidase, and was either unaffected or increased after proteinase digestion. Staining of a narrow zone of matrix adjacent to the network was prevented by proteinase digestion while the network element appeared as a thin dark line. The network appears to be a trilaminar structure; a core element of hyaluronic acid and protein surrounded by a protein sheath. Triethyl-carbocyanin DBTC staining of cartilage offers slightly more selectivity and contrast than methylene blue, toluidine blue or safranin O. At pH 6.1, DNA, perhaps RNA, and hyaluronic acid stained deep purple; chondroitin sulfate, light violet; protein (collagen), stained very light violet if at all.     

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.     

Distribution of DNA polymerase alpha during nuclear division cycles in Drosophila melanogaster embryo.

An immunocytochemical method using a specific monoclonal antibody was employed to detect DNA polymerase alpha in Drosophila melanogaster embryos during the first 13 nuclear division cycles after fertilization. The anti-DNA polymerase alpha antibody stained the ooplasm of the unfertilized egg, indicating that DNA polymerase alpha is maternally stored. Strong nuclear staining with the antibody over the weaker staining of the cytoplasm was observed at interphase throughout the 13 nuclear division cycles. The staining of the cytoplasmic regions surrounding the nucleus was much stronger than the other region of the syncytial cytoplasm until cycle 10. Although prophase nuclei were stained with the antibody, metaphase chromosomes were never stained throughout the 13 cycles. The chromosomal (nuclear) staining reappeared at anaphase until cycle 11 and at telophase in later cycles. The staining of the syncytial cytoplasm except for the cortical region became faint by cycle 13, suggesting the consumption of the maternal storage by this cycle. These results suggest that DNA polymerase alpha dissociates from chromosomes at the beginning of metaphase; then in later mitotic phases, it is transported from the syncytial cytoplasm into nuclei to participate in formation of the active DNA replication enzyme complex.     

Electron microscopic analysis of glial cells in the rat telencephalon stained with the Neo-Timm and selenium methods

Summary Two histochemical methods for visualization of zine in synaptic vesicles, the Neo-Timm and selenium methods, have been shown to additionally stain glial cells and neuronal somata.In a previous light microscopic study the majority of stained glial cells were seen in the major fiber tracts of the rat telencephalon. The aim of the present study was to further characterize the stained glial cells with respect to glial cell type and ultrastructural localization of the silver grains responsible for the staining.Electron microscopic analysis of brains treated according to either method revealed that the vast majority of stained glial cells belonged to the dark oligodendroglial cell type, However, a smaller number of stained astrocytes was also seen, especially in the grey matter. The silver grains responsible for the staining were located in electron-dense rounded cytoplasmic organelles, suggestive of lysosomes.