Quantitative ultrastructural study of nucleolus-organizing regions at some stages of the cell cycle (G0 period, G2 period, mitosis)

The quantitative characteristics of chromosomal nucleolus-organizing regions (NORs) and some other nucleolar components were studied on ultra-thin sections of pig embryo kidney cells (PK cells). It was shown that: 1) nucleoli-per-cell volumes were 3 times smaller in the G0 period than in the G2 period; 2) the number of fibrillar centers (FCs) per cell in the G0 period, the G2 period, and at metaphase was equal to 7, 33.7, and 8, respectively; 3) mean volumes of individual FCs in the G0 period (0.033 +/- 0.005 micron3), G2 period (0.014 +/- 0.001 micron3), and at metaphase (0.025 +/- 0.002 micron3) were significantly different; 4) the total volumes of FCs calculated per haploid set of chromosomes were practically the same in the G0 (0.105 micron3) and G2 (0.107 micron3) periods, but were twice as large as those at metaphase (0.04-0.05 micron3). These data show that partial activation and inactivation of ribosomal genes in interphase PK cells are not accompanied by a considerable change in the total volume of FCs and may be due to the fragmentation and fusion of individual FCs. Complete inactivation of ribosomal genes in mitosis results in a decrease of total volumes of FCs per cell; 5) in G0 and G2 periods the total volume of the dense fibrillar component per nucleolus is practically proportional to the nucleolus volume (r = 0.99); 6) in the G2 period, the nucleolus volume is also proportional to the number of FCs (r = 0.99; 7) the volume of the dense fibrillar component within individual fibrillar complexes is not a constant one.(ABSTRACT TRUNCATED AT 250 WORDS)     

Morphometric study of nucleolus-organizing regions of chromosomes from swine embryo kidney cells during Go-, G2-period and mitosis

Quantitative characteristics of nucleolus-organizing regions of chromosomes (NORs, or fibrillar centers, FCs) and some other nucleolar components have been studied with the aid of complete series of ultrathin sections of PK-cells. It has been found that: 1) the number of FCs per cell in the G0-period, in the G2-period and at metaphase is equal to 7.0, 33.7 and 8.0, respectively; 2) volumes of individual FCs in the G0-period (0.033 micron 3), G2-period (0.014 micron 3) and at metaphase (0.025 micron 3) are different; 3) the total volume of FCs, calculated for a haploid set of chromosomes, do not differ in the G0 (0.105 micron 3) and G2 (0.107 micron 3) periods, but exceed twice the FCs volume at metaphase (0.04-0.05 micron 3). These data show that the activation and inactivation of ribosomal genes in interphase PK-cells are not accompanied by a change in the total volumes of FCs and are probably connected with the "fragmentation" and fusion of FCs. Complete inactivation of ribosomal genes at mitosis leads to a decrease in the total volumes of FCs; 4) the nucleolus volume is proportional to the volume of the dense fibrillar RNP-component; in the G2-period the nucleolus volume also correlates with the number of FCs (r = 0.99); 5) the volume of the dense fibrillar component within individual fibrillar complexes--the structures corresponding to one nucleolus-organizing region--is not constant. This is an indirect evidence for the differences in the functional activity of NORs of different chromosomes.     

Nucleolar distribution of proteins B23 and nucleolin in mouse preimplantation embryos as visualized by immunoelectron microscopy

The ultrastructural distribution of proteins B23 and nucleolin in the nucleolus of mouse embryos from the zygote to the early blastocyst has been analyzed by means of specific antibodies and immunocytochemistry using colloidal gold complexes as markers. In parallel, silver staining of nucleoli was carried out on ultrathin sections. Our results show that the compact prenucleolar bodies at 1- and 2-cell stage as well as the compact residual fibrillar masses observed up to the morula stage, are labelled with the two antibodies. These masses, however, are not stained with silver up to the 4-cell stage. In well-developed nucleoli, the two antibodies co-localize in the dense fibrillar component (DFC) and the granular component (GC) while fibrillar centers (FCs) are devoid of label. On the contrary, silver staining occurs in the FCs and DFC but not in the GC. Our observations suggest that there is no direct relationship between the occurrence of silver staining and the distribution of protein B23 or nucleolin. Moreover, neither the localization of the two above proteins nor silver staining are unequivocally related to the nucleolar activity.     

A comparative study of the main components of the nucleolus in different populations of rat trophoblast cells during differentiation. I. The nucleoli of the trophoblast cells in the labyrinth section of the placenta

The nucleolus undergoes some steps of structural transformation during differentiation of the labyrinth trophoblast cells. Primarily (on day 13 of gestation) the nucleolar components become rather disjoined. The nucleolus is composed of a loose net of strands of granulofibrillar and dense fibrillar components bearing fibrillar centers (FCs). Strands are separated by large lacunae. This rare-occurring type of nucleoli is replaced on the next (14th) day by the nucleolonemal type and later--by the compact nucleolar type. FCs with dense fibrillar component strands become extended into the masses of granulofibrillar component. Such transformations of nucleolar structure seem to be an expression of a fast-proceeding differentiation of the labyrinth trophoblast cells.     

Ultrastructural changes in nucleoli and fibrillar centers under the effect of local ultraviolet microbeam irradiation of interphase culture cells

As shown previously, ultraviolet (uv) microbeam irradiation of one of the two mature nucleoli within an interphase cell nucleus causes significant diminution and inactivation of the irradiated nucleolus and compensatory growth and activation of the nonirradiated one. In the present work we describe the results of an ultrastructural study of this phenomenon. The changes in the nucleoli were examined by means of complete series of ultrathin sections obtained from seven irradiated pig kidney cells. The compensatory hypertrophy of the nonirradiated nucleoli is shown to be accompanied by a nearly twofold increase in the number of fibrillar centers (FCs) and by a decrease in their linear dimensions compared with the control cells of the same ploidy. In the degraded nucleoli the number of FCs decreases, but their dimensions increase. Ultraviolet microbeam irradiation causes dramatic diminution of the dense fibrillar component within the irradiated nucleoli as well. The nucleolar capacity for compensatory hypertrophy indicates that in addition to active ribosomal genes, mature nucleoli also contain "silent" genes capable of being activated under extreme conditions to sustain the required level of rRNA synthesis. It is assumed that activation of latent ribosomal genes is accompanied by FC "fragmentation" without a considerable increase in their total volume per cell.     

A comparative study of the main components of the nucleolus in different populations of rat trophoblast cells during differentiation. II. The nucleoli of the trophospongium cells, the glycogen cells and the secondary giant cells

A comparative study was performed of the arrangement of different nucleolar components during differentiation of trophoblast cell populations in the junctional zone of placenta (glycogen cells and trophospongium) and in the secondary giant cells. Each cell type is characterized by specific interrelation of nucleolar components. Some glycogen cells show signs of segregation of nucleolar components: strands of nucleolar components with fibrillar centers (FCs) are displaced to the periphery of the nucleolus and contact with the perinucleolar chromatin. Large reticular nucleoli in trophospongium cells contain many FCs which are gathered into several "chains" by strands of dense fibrillar component. Such a "chain" has also been found in nucleoli of secondary giant cells, with greater number of FCs in each "chain". Relationship between the arrangement of nucleolar components and the level of cell differentiation is discussed.     

ULTRASTRUCTURAL LOCALIZATION OF ARGYROPHILIC PROTEINS IN NUCLEOLI OF ZEA MAYS BY TWO SILVER STAINING TECHNIQUES

Ag staining was applied on interphasic nucleoli of Zea mays root cells 120h after germination. We applied the two-step Ag-NOR staining technique to small root fragments and the one-step technique to sections of Lowicryl-embedded tissue. The small-sized silver grains were mainly located in the dense fibrillar component (DFC). The unstained fibrillar centers (FCs) differed in their proteinic contents from the NOR (which is positively silver stained) and were not the interphasic NOR counterpart.     

洋葱细胞核仁内DNA的结构变化及排布过程(英文)

以洋葱 (AlliumcepaL .)细胞为研究材料 ,应用DNA细胞化学特异染色方法 (NAMA_Ur)及常规电子显微镜技术 ,观察了洋葱细胞核仁FC(纤维中心 )内DNA的超微结构 ,发现FC内DNA存在着一个介于集缩到解集缩之间的变化过程 ,并揭示了DNA在核仁内的连续排布过程 ,即核仁外DNA经过核仁通道进入到FC后 ,继续沿FC的边缘或DFC(致密纤维成分 )与FC的交界处环绕FC而排布 ,再经FC之间的核仁通道 ,延伸到另外的FC区域     

The Structural Transformation of Nucleolar DNA and Its Arrangement in Nucleolus of Allium cepa Cells

By using the DNA specific cytochemical staining method (NAMA-Ur) and conventional electron microscopic technique, the authors examined the configuration of intranucleolar DNA in Allium cepa L. cells and found that nucleolar DNA within the fibrillar center (FC) underwent a structural transformation process from condensed to extended state. The authors' observations also displayed a continuous arrangement process of nucleolar DNA, i.e., the extranucleolar DNA entered FC through the nucleolar organizer region (NOR) channel, then extended to the periphery of FC or to the border between FC and dense fibrillar component (DFC), and distributed along the periphery of FC. Thence, by passing through the NOR channel between FCs, the nucleolar DNA continued to transfer to other FCs and arranged in the same above-mentioned forms.     

Subnucleolar distribution and organization of Vicia faba L. rDNA in situ

The distribution and organization of nucleolar DNA in Vicia faba L. was analyzed by specific cytochemical staining using NAMA-Ur. The results showed that nucleolar DNA was distributed in the FCs and at the FC/DFC junctions. Statistical analysis showed that the rRNA genes occupied about one-third of the total dense fibrillar component region. The rDNA was condensed in some regions and uncondensed in others. Nucleolus-associated chromatin extended from outside the nucleolus to the periphery of the FCs via nucleolar channels, suggesting a possible origin for nucleolar DNA.     

The three-dimensional ultrastructure of interphasic and metaphasic nucleolar argyrophilic components studied with high-voltage electron microscopy in thick sections

The three-dimensional structure of the nucleolar argyrophilic components was studied by recording stereo-pairs of tilted thick sections--0.5-2 microns thick--observed with 200 and 300 kV high-voltage electron microscopy (HVEM). Using a very specific silver staining method, the argyrophilic components were stained with a high contrast relatively to the unstained background, thus allowing their study with a high resolution within thick sections. This study was performed on compact nucleoli (of HL60 and K562 cells), on reticulated nucleoli (of human breast cancerous cells) and on metaphasic nucleolar organizer regions (NORs). In compact nucleoli argyrophilic components show a 'knotted rope-like' structure in which knots are constituted of one central fibrillar centre surrounded at some distance by loops of the dense fibrillar component and in which the rope is constituted of dense fibrillar component. In reticulated nucleoli silver deposits are confined to the surface of the nucleolonema as several strands twisted at the periphery of the fibrillar component. During metaphase some NORs get a characteristic crescent-shaped structure disposed at the periphery of some chromosomes.     

Changes in the number and size of fibrillar centers in nucleolus inactivation during erythropoiesis

The size and number of fibrillar centers (FCs) was shown to be proportional to or correlate with the ploidy of the cell, respectively. In the active nucleoli of erythroblasts, the numbers of FCs exceeds several-fold that of nucleoli organizing regions (NORs). In the course of maturation, the number of FCs becomes 3-10 times lower than that of NORs. The total size of FCs decreases three-fold during differentiation, although the size of individual FCs increases. Inactivation of ribosomal genes in the process of erythropoiesis seems to be accompanied by fusion of individual FCs and compaction of their tissue.