黑麦染色体银染的初步研究

本文对黑麦染色体的银染条件进行了探索,并对黑麦染色体上银染正反应分布区进行了研究。首次发现黑麦染色体的核仁组成中心区、着丝点和端粒均能用硝酸银染色。对此现象的原因进行了讨论。     

Heterochromatin and silver banding of rye (Secale cereale,Gramineae) chromosomes

Air-dried chromosomes of rye when stained with aqueous silver nitrate show differential banding patterns. In addition to staining the NOR sites, the silver nitrate stains all regions of constitutive heterochromatin, as identified by Giemsa C-banding, as well as a number of small interstitial regions. However, the heterochromatin on the B chromosome is not stained by the silver method. This is proposed as a rapid and reliable banding method.     

Silver staining of histone-depleted metaphase chromosomes

To investigate a possible relationship between the core-like structures seen in silver-stained chromosomes (prepared by standard cytogenetic methods) and the scaffolds observed in histone-depleted chromosomes, the ability of the scaffold to stain with silver has been examined. Isolated chromosomes were histone-depleted by washing in ammonium acetate or by spreading the chromosomes on an ammonium acetate hypophase. The residual chromosome structures were carbon-platinum shadowed or stained with silver, and then examined by electron microscopy. The results provide clear evidence that the scaffold structure has a high affinity for silver and is therefore similar in its silver-staining potential to the core structure in standard chromosomes. This suggests that the silver core in standard chromosomes may represent the scaffold visualized by histone depletion. The peripherally dispersed DNA radiating from the scaffold also proved to be silver-reactive, and additional experiments demonstrated that purified DNA is capable of binding silver. This result indicates that cytological silver staining is not simply a matter of staining protein, as has previously been thought, but may also involve the staining of chromosomal DNA. In the ammonium acetate-treated and carbon-platinum-shadowed preparations, the scaffold structure was highly variable in its morphology and appeared to be composed of undispersed or incompletely dehistonized chromatin fibers. The silver-stained scaffold reflected this variability. Taken together with other evidence, these findings lead to a questioning of the reality of chromosome core structures.     

An improved technique for selective silver staining of nucleolar organizer regions in human chromosomes

Summary A reliable technique for staining human chromosomal nucleolar organizers (NOR's) with silver solutions is described. The NOR's can be selectively stained dark brown by silver solutions leaving the chromosome arms unstained and available for counterstaining with orcein or Giemsa dyes. Unequivocal identification of chromosome pairs bearing NOR's can be achieved using fluorescent banding techniques followed by silver staining. The silver staining procedure for NOR's was simplified and standardized through control of the chemical and physical conditions during silver impregnation and developing.     

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.     

Silver Staining for Nucleolar Organizing Regions of Vertebrate Chromosomes

Refinements to a simple, one-step silver staining technique for nucleolar organizing regions are described. These include fixation of silver stained material with sodium thiosulfate and standardization of silver development conditions for different groups of vertebrates. The central advantages to the method are that it is rapid, reliable, simple, and inexpensive. Additional benefits include (i) consistent and uniform silver staining of nucleolar organizing regions, (ii) few reduced silver deposits elsewhere on the chromosomes or on the slides, (iii) generally unaltered chromosome morphology after silver treatment, and (iv) relative permanence of Permounted preparations. The method works equally well on chromosomes made from cell cultures and from solid tissues of live specimens.     

Suppression of human nucleolus organizer activity in mouse-human somatic hybrid cells

Cells from four different mouse-human somatic cell hybrids were stained with quinacrine to identify each metaphase chromosome and with ammoniacal silver by the Ag-AS method to locate nucleolus organizer regions. Each of the hybrids contained human acrocentric chromosomes. None of these human acrocentric chromosomes was stained with silver in any hybrid cell. Diploid cells were available from the human parent of one of the hybrids. In these cells both copies of nos. 13 and 15 stained with silver; the same chromosomes in the hybrid cell were not stained. These results support earlier reports that the expression of human ribosomal RNA (rRNA) genes is suppressed in mouse-human hybrid cells. Further, they suggest that silver staining by the Ag-AS method reflects activity of rRNA genes rather than just the presence of these genes.     

Silver staining for nucleolar organizing regions of vertebrate chromosomes

Refinements to a simple, one-step silver staining technique for nucleolar organizing regions are described. These include fixation of silver stained material with sodium thiosulfate and standardization of silver development conditions for different groups of vertebrates. The central advantages to the method are that it is rapid, reliable, simple, and inexpensive. Additional benefits include (i) consistent and uniform silver staining of nucleolar organizing regions, (ii) few reduced silver deposits elsewhere on the chromosomes or on the slides, (iii) generally unaltered chromosome morphology after silver treatment, and (iv) relative permanence of Permounted preparations. The method works equally well on chromosomes made from cell cultures and from solid tissues of live specimens.     

不同染色技术和双色荧光原位杂交技术对宽翅菘蓝 （Isatis violascens Bunge）的细胞遗传学分析

为了解十字花科菘蓝属植物宽翅菘蓝(宽翅菘蓝,Isatis violascens Bunge)的染色体结构,本文利用45SrDNA和5SrDNA双色荧光原位杂交、银染技术和CMA3对宽翅菘蓝进行分子细胞遗传学研究。45SrDNA和5SrDNA荧光原位杂交结果显示宽翅菘蓝染色体上有1对45SrDNA信号和1对5SrDNA信号;银染结果显示其中期染色体有1对银染点;CMA3染色结果发现宽翅菘蓝中期染色体存在1对CMA3信号。     

红翅皱膝蝗减数分裂染色体的螺旋与轴结构

用低渗处理和苯酚品红染色,在经过卡诺液(甲醇3∶冰醋酸1)固定和未经固定的红翅皱膝蝗减数分裂染色体上都看到了螺旋结构。观察和测量结果表明,每条染色单体都是由430nm左右的染色线螺旋形成的。由染色线到染色体的压缩率为4∶1。低渗处理后固定的材料经过银染,则显示了染色体轴结构。同样,未经低渗处理直接固定的材料银染时也出现了轴结构。银染的轴结构位于每个染色单体的中央,并贯穿整个染色单体。在光镜下,这个轴并不是直径均一的棒状结构,而似乎是由许多大小相近的颗粒相连而成。本文对染色体结构的有关模型、骨架和轴结构的真实性以及轴和螺旋的关系等问题进行了讨论。     

Silver stained core-like structures in chinese hamster metaphase Chromosomes

Chinese hamster metaphase chromosomes, subjected to prolonged hypotonic pretreatment and subsequently stained with ammoniacal silver, contained a darkly-stained core-like structure in each chromatid, surrounded by a halo of dispersed chromatin which was pale yellow to brown in color. The core was variable in its appearance, ranging from a continuous linear configuration to a spiral structure or a discontinuous, particulate structure. Within the centromeric regions, the cores frequently appeared more intensely stained than elsewhere in the chromosome. The nucleolus organizers also stained darkly and appeared to be attached to the core-like structures. It remains to be determined whether the cores represent a real component of metaphase chromosome structure, or whether they are artifacts resulting from abnormal chromatin aggregation arising at the time of chromosome preparation.     

Identification of nucleolus organizer regions (NORs) in normal and neoplastic human cells by the silver-staining technique.

Silver nitrate has been used to demonstrate the chromosomal location of ribosomal cistrons in nine tissue-culture lines derived from human tumors of various pathological origins. Control individuals have a particular modal number (range 7--10) of D- and G-group chromosomes stained with silver. In the controls, 96.2% of the D- and G-group chromosomes that have a stalk show silver staining, while no relationship can be seen in acrocentric chromosomes without stalks. The tumor cells, whose modal chromosome numbers range from 42 to 68, possess variable numbers of acrocentrics (11--18). The number of chromosomes stained with silver, however, remained at control levels (range, 6--9). These data indicate that, in humans, silver staining may not identify all NORs that contain structural ribosomal genes.     

不同染色技术和双色荧光原位杂交技术对宽翅菘蓝（Isatis violascens Bunge）的细胞遗传学分析

为了解十字花科菘蓝属植物宽翅菘蓝（宽翅菘蓝,Isatis violascens Bunge）的染色体结构,本文利用45SrDNA和5SrDNA双色荧光原位杂交、银染技术和CMA3对宽翅菘蓝进行分子细胞遗传学研究。45SrDNA和5SrDNA荧光原位杂交结果显示宽翅菘蓝染色体上有1对45SrDNA信号和1对5SrDNA信号;银染结果显示其中期染色体有1对银染点;CMA3染色结果发现宽翅菘蓝中期染色体存在1对CMA3信号。     

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.     

Conservation of nucleolar structure in polytene tissues of Ceratitis capitata (Diptera: Tephritidae)

Nucleolar structure was studied in mitotic and three polytene tissues of the Mediterranean fruit fly, Ceratitis capitata using in situ hybridization with a tritium-labelled rDNA probe and silver staining. In mitotic metaphase chromosomes nucleolar organiser regions were localised in the short arms of both sex chromosomes. In polytene nuclei of trichogen cells, salivary glands and fat body rDNA was detected within nucleoli. Nucleoli in these tissues have a similar structure with rDNA labelling concentrated in a central core. Silver staining resulted in very heavy staining of polytene nucleoli and interphase nucleoli in diploid cells. Silver staining of nucleolar organisers in metaphase chromosomes is weak or absent although the X chromosome has numerous dark silver bands in other locations. The results suggest that nucleolar structure is conserved in polytene tissues contrasting with the variability of autosomal banding patterns and sex chromosome structure. They also indicate that silver staining is not necessarily specific for nucleolar regions.     

Differential characterization of holocentric chromosomes in triatomines (Heteroptera, Triatominae) using different staining techniques and fluorescent in situ hybridization

A comparative study of holocentric chromosomes in the triatomine species Panstrongylus megistus, Rhodnius pallescens and Triatoma infestans was carried out in order to characterize heterochromatin, rDNA active sites and nucleolar proteins. Cytological preparations of seminiferous tubules were stained by silver impregnation, C banding, fluorochromes cma3/da and dapi/da, and fluorescent in situ hybridization (FISH) with Drosophila melanogaster 28S rDNA probe. Our results showed interesting aspects of the organization of chromatin and chromosomes in the meiotic cells of these insects. In R. pallescens, sex chromosomes (X, Y) were distinct from autosomes, when submitted to silver impregnation, C banding, CMA3 staining, and FISH, confirming that these chromosomes bear nucleolar organizer regions (NORs). In P. megistus, two of the three sex chromosomes were CMA3/DAPI-; at early meiotic prophase and at diakinesis, silver impregnation corresponded with FISH signals, indicating that in this species, two chromosomes (probably a sex chromosome and an autosome) bear NORs. In T. infestans, silver nitrate and FISH also stained corresponding areas on meiotic chromosomes. Our data suggest that in triatomines, in general, the number and location of NORs are species-specific. These regions may be considered important chromosome markers for comparative studies to improve the understanding of evolutionary mechanisms in these hematophagous insects.