Selective staining of the same set of nucleolar phosphoproteins by silver and Giemsa

Gel electrophoresis of nucleolar isolates from Zajdela ascites hepatoma cells followed by various staining procedures revealed a common set of bands that stained selectively with silver and Giemsa. The gel bands, corresponding to molecular weights of 104, 78, 37, and 29 kilodaltons (kd), appeared to contain phosphoproteins that were at least partly associated with oligo-deoxyribonucleotides. Enzyme digestion studies showed that the Giemsastainability was due to the phosphorylated state of the proteins. The positive selective silver-staining reaction in gels could be most likely attributed to the high content of carboxyl groups present in these phosphoproteins. The significance of these findings in relation to cytological results produced by selective silver staining of nucleolus organizing regions (NORs) and by Giemsa N-banding is discussed.     

Cytochemistry of the chromatin replication band in hypotrichous ciliated protozoa staining with silver and thiol-specific coumarin maleimide

A modification of the silver-staining techniques for nucleolar organizing regions (NORs) was used to stain selectively the macronuclear replication bands (RBs) and nucleoli in hypotrichous ciliated protozoa (Euplotes, Stylonychia, and Oxytricha). Silver staining of both types of structures was trypsin-sensitive and DNase I-insensitive, suggesting the involvement of proteins. Silver-staining proteins in the RB were differentially extracted with acid, without any decrease in nucleolar staining. Triton-acid-urea gel electrophoresis of an acid extract of Euplotes macronuclei revealed enhanced silver reaction with a single protein upon selective silver staining. An abundance of thiol groups was also demonstrated in the RBs and nucleoli by the fluorochrome 3-(4-maleimidylphenyl)-7-diethylamino-4-methyl coumarin (coumarin maleimide). Histochemical studies, including blocking thiols with N-ethyl maleimide (NEM), indicated that thiols were not necessary for silver staining, and that proteins in the RBs and nucleoli reacting with coumarin maleimide were not acid extractable.     

DNAse I digestion of fixed chromosomes specifically reveals NORs in man

Chromosomal preparations were digested with different concentrations of DNAse I for various periods of time and then stained with Giemsa. It was found that this endonuclease rapidly modifies the structure of the chromosomes which then lose most of their stainability. However, small chromosomal segments corresponding to the nucleolar organizers (NORs) in man have been consistently observed. Although DNAse I treatment has permitted us to observe that some NORs are stained less intensely than others, comparisons with silver nitrate-stained NORs have shown a strict correspondence, in metaphase as well as in interphase. Chromosomal proteins seem responsible for this staining.     

Rapid identification of chromosomes carrying silver-stained nucleolus-organizing regions

Summary The use of a combination of transmitted light and epiluminescence after silver and fluorescent staining of chromosome preparations makes it possible to achieve simultaneous visualization of silver-stained NORs and fluorescent chromosomes. This technique permits exact localization of silver precipitates on normal and BrdU-substituted chromosomes. After previous silver impregnation, fluorescent staining by actinomycin-daunomycin-DAPI was used to induce a banding pattern that enables identification of specific chromosomes while observing silver-stained NORs at the same time. Application of this method to Down's syndrome patient revealed a 21/21 Robertsonian translocation with NORs eliminated.     

A method for combined C-banding and silver staining

A reliable technique for combined C-banding and silver staining of metaphase chromosomes which uses trypsinization is described. Slides are first immersed in dilute HCl to remove residual cytoplasm from around the chromosomes. They are then treated with saturated barium hydroxide and incubated overnight in saline sodium citrate (0.30 M NaCl, 0.03 M sodium citrate, adjusted to pH 7.0 with HCl). Following the C-banding pretreatment, a two-step method of silver staining which employs a protective colloidal developer is used to stain the nucleolar organizer regions (NORs) of the chromosomes. Silver staining is followed by trypsinization to remove extraneous silver precipitate from the chromosome arms which permits the C-bands to be stained with Giemsa. The method works equally well with fresh and aged mitotic chromosome preparations and gives consistent staining of both heterochromatin and active NORs in metaphases across the slide.     

A Method for Combined C-Banding and Silver Staining

A reliable technique for combined C-banding and silver staining of metaphase chromosomes which uses trypsinization is described. Slides are first immersed in dilute HCl to remove residual cytoplasm from around the chromosomes. They are then treated with saturated barium hydroxide and incubated overnight in saline sodium citrate (0.30 M NaCl, 0.03 M sodium citrate, adjusted to pH 7.0 with HCl). Following the C-banding pretreatment, a two-step method of silver staining which employs a protective colloidal developer is used to stain the nucleolar organizer regions (NORs) of the chromosomes. Silver staining is followed by trypsinization to remove extraneous silver precipitate from the chromosome arms which permits the C-bands to be stained with Giemsa. The method works equally well with fresh and aged mitotic chromosome preparations and gives consistent staining of both heterochromatin and active NORs in metaphases across the slide.     

Analysis of nucleolus organizer regions (NORs) in mitotic and polytene chromosomes ofPhaseolus coccineus by silver staining and Giemsa C-banding

Chromosomes with active nucleolus organizer regions (NORs) were visualized in root tip metaphases ofPhaseolus coccineus using the silver staining technique. A mean number of 5.5 Ag-NORs per cell was observed in 54 cells from eight plants. In the endopolyploid nuclei of the suspensor the silver technique did not demonstrate the reported specificity for nucleolus organizer activity, because there was usually pale staining of nucleoli and preferential staining of heterochromatic regions in the polytene chromosomes including pericentromeric material, telomeres and NORs. The mean number of NORs per nucleolus as detected by this method was 5.8 (28 nucleoli analysed). Using a modified preparation technique, giant chromosomes stained pale, but nucleoli of suspensor cells displayed darkly silver staining internal domains, each of which originating from a nucleolus organizer.—Giemsa C-banding of endopolyploid suspensor nuclei revealed C-positive nucleolus organizers with darkly staining intranucleolar fibrils. The latter were frequently involved in inter-NOR associations. In 34 nucleoli analysed, the mean number of Giemsa C-positive NORs per nucleolus was 6.0.Dedicated to Professor Dr.Lothar Geitler on the occasion of his 80th birthday.     

The application of the nucleolar organizer region silver staining (AgNOR) to backscattered electron imaging (BEI)

Until recently scanning electron microscopes were mainly used to observe surfaces. However, it has been proved that a backscattered electron detector can give an image (BEI) of the specimen's internal structure after heavy metal staining. In this paper, we report how we have applied the silver staining for NOR-associated proteins to scanning electron microscopy, studying C3H10T1/2 cells in culture. This technique allows to localize, inside the nucleus, the nucleolar arrangement of AgNOR-associated proteins. In BEI imaging, the silver staining shows several intranucleolar silver spot-like deposits sometimes associated in “doublets” as on metaphasic chromosomes. These silver grains probably represent the fibrillar centre location, thought to be the interphasic counterpart of the NORs. However, these silver spot granules are more numerous during interphase.     

The application of the nucleolar organizer region silver staining (AgNOR) to backscattered electron imaging (BEI)

Until recently scanning electron microscopes were mainly used to observe surfaces. However, it has been proved that a backscattered electron detector can give an image (BEI) of the specimen's internal structure after heavy metal staining. In this paper, we report how we have applied the silver staining for NOR-associated proteins to scanning electron microscopy, studying C3H10T1/2 cells in culture. This technique allows to localize, inside the nucleus, the nucleolar arrangement of AgNOR-associated proteins. In BEI imaging, the silver staining shows several intranucleolar silver spot-like deposits sometimes associated in "doublets" as on metaphasic chromosomes. These silver grains probably represent the fibrillar centre location, thought to be the interphasic counterpart of the NORs. However, these silver spot granules are more numerous during interphase.     

Patterns of silver staining on NORs of prematurely condensed muntjac chromosomes following RNA inhibition

Prematurely condensed chromosomes of muntjac G0 lymphocytes as well as contact-inhibited and Actinomycin D (actD)-treated fibroblasts have been stained with silver nitrate to estimate the correlation between RNA suppression and the NOR staining. The results demonstrate that actD treatment for up to 36 h does not significantly affect the staining. Only partial suppression occurs in contact-inhibited cells, whereas complete abolition is obtained in long quiescent lymphocytes. We conclude that the reduction of the staining occurs only gradually from the NORs over a number of days or even weeks. We assume that the silver staining proteins may be associated with rDNA having a regulatory or structural role to play in rDNA activity.     

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.     

对rDNA转录活性的图象分析

用低浓度的放线菌素D(AMD)处理人的外周血淋巴细胞,可以导致细胞周期各阶段核仁形成区(NOR)的银可染性显著减少,表明了放线菌素D对rDNA的转录活性具有明显的抑制作用。本实验采用IBAS图象分析系统,对经不同浓度的放线菌素D处理过的外周血淋巴细胞进行形态学测量和计算机统计分析,其结果阐述了细胞中NOR的银可染性(即rDNA的转录活性指标)与AMD浓度梯度的相关性,并以此建立了相应的回归方程。本文结果表明,间期的银染核仁面积是检测rDNA转录活性较为敏感的指标。     

Nucleolar organizer regions (NORs) distribution and behavior in spermatozoa and meiotic cells of the horse (Equus caballus)

Nucleolar organizing regions (NORs) containing rDNA gene clusters have been assigned to the equine autosomes ECA1, ECA28, and ECA31. Active NORs (Ag-NORs) are associated with argyrophilic proteins, which allow them to be readily identified using silver staining techniques. Fluorescence in situ hybridization (FISH) for rDNA can also be used to visualize all NOR clusters in the nucleus, regardless of whether they are active or inactive. The present study analyzed the distribution and behavior of equine Ag-NOR and NOR clusters in horse spermatozoa and during male meiosis by FISH and silver staining. The NOR foci were observed to be variable in number, size, and shape, but were usually located centrally and appeared as one or two nucleolus-like structures in the spermatozoa head. Three distinctive FISH signals identified the NOR-bearing chromosome pairs during the synaptic cell stage of meiosis I. At diakinesis/metaphase I, as well as different stages of meiosis II, FISH signals clearly depicted the NOR-bearing sister chromatids. The synaptonemal complexes of primary spermatocytes consistently showed three rDNA foci following FISH, but variably demonstrated two or three Ag-NOR bodies following silver staining. We propose rDNA loss and gain during unequal crossing-over events could be both a direct and indirect cause of variation in equine NOR foci. Additionally, our cytogenetic analysis did not confirm the presence of a fourth pair of NORs-bearing chromosomes in the horse, which is contrary to previously mitotic published data.     

Human NORs show correlation between transcriptional activity, DNase I sensitivity, and hypomethylation

Active human ribosomal gene clusters (NORs) are distinguishable from inactive ones by silver staining. By sequentially applying deoxyribonuclease I (DNase I)-directed in situ nick-translation and silver staining to fixed chromosome preparations, we found that active NORs are more sensitive to DNase I than inactive ones. Use of the two restriction isoschizomeres MspI and HpaII to modify the nick-translation technique showed that active NORs are significantly less methylated than inactive ones. Taken as a whole, our results indicate that ribosomal gene activity, DNase I sensitivity, and DNA methylation are closely interrelated.     

Effect of increase in ploidy on the activation of nucleolar organizer regions in Chinese hamster ovary (CHO) cells

The effect of increased ploidy on the activation of specific nucleolar organizer regions (NORs) was examined by comparing the distribution and frequency of active NORs in pseudodiploid Chinese hamster ovary (CHO) cells with a quasi-tetraploid hybrid line. Active NORs were identified on both unrearranged chromosomes and isochromosomes of the Z group by silver staining. The increase in cell ploidy in the hybrid did not result in the complete inactivation of specific NORs or the activation of a previously silent NOR. However, for several chromosome pairs identified as carrying NORs, apparent translocations and deletions which produced the karyotype of the pseudodiploid cells deleted or inactivated the NOR of one member of a homologous pair. When two copies of such chromosomes were present in the quasi-tetraploid hybrid line, the activity of their NORs showed apparent coordination. Furthermore, the frequency of activity of individual NORs in two CHO lines and in a quasi-tetraploid hybrid line suggests that active NORs are not inherited directly.