Whole mount electron microscopy of the nucleolus in salivary gland cells of Drosophila melanogaster.

The nucleolus of Drosophila melanogaster salivary gland cells, examined by whole mount electron microscopy, consists of a fibrillar core region and a peripheral region containing both fibres and granules. These regions appear to correspond to the fibrillar and granular components, respectively, seen in thin sections. Most of the nucleoli were attached to the chromocenter region of the polytene chromosomes, containing the nucleolar organizer. Bundles of relatively straight chromatin fibres, 13 nm in diameter, extended from the chromocenter into the core region of the nucleolus, however it was not possible to trace the path of these chromatin fibres through the nucleolus since they were obscured within the mass of nucleolar fibres. The nucleolar fibres in both the core and peripheral regions were irregular and knobby, with a diameter of about 15 nm. In the core region, the fibres appeared to be of considerable length and were characteristically clustered together to form small interconnected masses. The fibres in the peripheral region were relatively short and some appeared to blend with amorphous, poorly-defined pools of material. Electron dense granules 15-20 nm in diameter were also associated with this amorphous substance. It is hypothesized that the formation and subsequent packaging of the 28s rRNA may be represented by a morphological transition of the peripheral fibres, via an amorphous pool-like intermediate stage, into the nucleolar granules. The results of this study indicate that whole mount electron microscopy may be a useful alternative to thin sectioning in high resolution studies of the nucleolus.     

Intranuclear microfilament bundles in the ependymal cells of the third ventricle of the rat

Summary Intranuclear microfilament bundles were observed in ependymal cells of the third ventricle of the rat. They appeared as single, cylindricallyshaped fibrillar bands up to 4.9 m in length. In cross sections of bundles, the microfilaments exhibited an apparently regular arrangement. They were separated by a distance of 4 to 5 nm, measuring approximately 11 nm from centre to centre. One bundle consisted of 55 to 88 microfilaments. The intranuclear bundles terminated at the inner membrane of the nucleus. They exhibited close spatial relationship to perinuclear chromatin, chromatin centres, intrachromatin granules and fibrillar structures. The average ratio of nuclear sections with and without bundles was 115.Research fellow of the Alexander von Humboldt FoundationThis research was partly carried out at the Department of Histology and Embryology, Academy of Medicine at Poznan, Poland, and was supported in part by a grant from the Polish Academy of Science     

Simultaneous high resolution localization of Ag-NOR proteins and nucleoproteins in interphasic and mitotic nuclei

Summary Silver stainable proteins of the Nucleolar Organizer Regions (Ag-NOR proteins) of human breast cancer tissues have been localized at the electron microscopical level with a new method which combines a simple and reproducible one step Ag-NOR staining method combined with an acetylation procedure. This new method allows the fine identification of nucleolar components, particularly those which are stained by silver.In order to determine the cytochemical nature of the components associated with Ag-NOR proteins, the EDTA regressive preferential staining procedure for ribonucleoproteins has been applied to sections. By this means the precise localization of the Ag-NOR proteins was studied simultaneously with that of ribonucleoprotein within interphasic nucleoli and mitotic chromosomes.In interphasic nucleoli, stainable Ag-NOR proteins were localized in fibrillar centres and part of the dense fibrillar component. No silver deposits were seen on perichromatin or interchromatin fibrils and granules.In metaphasic nuclei, Ag-NOR proteins were only found on roundish fibrillar ribonucleoprotein structures, which could correspond to secondary constrictions. No silver deposits were seen on the well defined ribonucleoprotein sheet surrounding the chromosomes.In telophasic nuclei, Ag-NOR proteins were seen on the central part of roundish ribonucleoprotein fibrillar structures integrated in decondensing chromosomes. These structures have been interpreted as the nucleolar organizer regions around which rRNA synthesis resumes.In interphasic and mitotic nuclei, Ag-NOR proteins were never found within condensed chromatin but always in association with ribonucleoprotein components.The new method proposed here appears to be a useful tool for the simultaneous study of the localization of ribonucleoprotein and Ag-NOR proteins during the cell cycle.     

Temperature-induced Balbiani rings in Chironomus thummi

The formation of a new telomeric Balbiani ring in the right arm of chromosome III (T-BR III) has been induced in Chironomus thummi larvae by applying a wide range of temperature treatments (33 °–39 ° C). In this paper we present some kinetic and functional characteristics of this structure. T-BR III incorporates tritiated uridine, and during its formation accumulation of acidic proteins takes place. However, induction and maintenance of this puff structure appear to be insensitive to Actinomycin treatment. An additional T-BR can be induced in chromosome I by employing the most drastic temperature treatments (37 °–39 ° C). We also report the existence of a group of puffs active after heat treatments in Chironomus polytene chromosomes which could be homologous with the T-puffs of Drosophila.     

Chromatin structure in somatic nucleus of ciliate <Emphasis Type="Italic">Didinium nasutum</Emphasis>

The structural organization of macronuclear chromatin of the ciliate Didinium nasutum was studied. The macronuclear genome of D. nasutum is represented by DNA molecules of subchromosomal size. At interphase, macronuclear chromatin is organized into chromatin of 100–200-nm clumps. Some of these clumps form short, thick fibers that consist of several chromatin clumps. Using the differential staining of nucleic acids on ultrathin sections, we revealed perichromatin fibers and granules on the surface of many chromatin clumps. A 3D model of the spatial distribution of chromatin clumps in the macronucleus was built based on serial ultrathin sections and peculiar features of chromatin spatial organization were studied.     

Structural organization of chromatin in nucleolar organizer regions of nucleoli with a nucleolonema-like and compact ribonucleoprotein distribution

We have studied the relationship between the structural organization of intranucleolar chromatin and fibrillar nucleolar structures, fibrillar centers, and RNP fibrillar component, which are the interphase counterpart of metaphase nucleolar organizer regions (NORs), in regenerating rat hepatocytes and in a human tumor cell line (TG cells). These two cell types were characterized by a nucleolonema-like and compact nucleolar RNP distribution, respectively. We found that, in sections selectively stained for DNA, the intranucleolar chromatin composed of extended, nonnucleosomal DNA filaments formed roundish agglomerates with a spatial distribution which was superimposable on that of the fibrillar centers and the RNP fibrillar component around them and on sites of the silver reaction in samples selectively stained for Ag-NOR proteins. The agglomerates of extended nonnucleosomal DNA filaments were small and numerous in regenerating hepatocyte nucleoli, in which the RNP components had a nucleolonema-like distribution, whereas they were large and few in TG cell nucleoli, in which the RNP components showed a compact organization. Since the pattern of ribosomal RNA synthesis and processing was similar in the two cell types, a model was proposed in which the difference in size and shape of the agglomerates of extended DNA might be responsible for the different structural organization of the RNP components.     

Ultrastructural Changes of the Nucleolus During Cell Cycle in Triticum aestivum

The ultrastructural changes of the nticleolus during cell cycle in common wheat (Triticum aestivum L. ) were studied by an "en bloc" silver-staining method. It was observed that in interphase, the nucleolus was heavily stained, within which fibrillar centres, dense fibrillar component, granular component and nucleolar vacuoles could be identified. A large quantity of argentine fine granules were distributed in the condensed chromatin. Dur-ing prophase, along with the disintegration of the nucleolus and condensation of the chromatin, the larger heavily-stained granules gradually appeared at the periphery of the chromatin. At late prophase, the materials derived from the nucleolus were spread and deposited on the surface of the chromosomes. The silver-stained, larger granules, deriving from the disintegrated nucleolus, accumulated at the periphery of the metaphase chromosomes and formed an uneven and discontinuous "sheath"-like structure. This "sheath"-like structure was also observed at anaphase. In telophase, the silver-stained nucleolar materials were progressively separated from the "sheath' and fused with each other to form prenucleolar bodies, and at last, participating in the formation of new nucleoli. The results showed that the nucleolar materials were transferred directly to the surface of the chromosomes and formed a discontinuous coat, but not incorporated into the interior of the chromosomes. The silverstained granules inside the chromosomes were neither related to the nucleolus nor to the materials from the disintegrated nucleolus.     

Electron-microscopical evidence that ribosomal chromatin of human circulating lymphocytes is devoid of histones

We have studied the distribution of histones in the nucleolus of human circulating lymphocytes in situ, using thin sections, either treated with antibodies against the core histones revealed by colloidal gold, or stained with the acrolein-silver methenamine technique for basic proteins. Gold particles were not found in the fibrillar centre, nor were silver-stained structures visible in this nucleolar component. Since the fibrillar centre contains the bulk of the ribosomal chromatin which is in a completely extended, non-nucleosomal configuration, our results indicate that this chromatin is devoid of histones.     

Cytochemical variations in the nucleolus during spermiogenesis in man and monkey

Summary The fine structure, nature and fate of the components of the nucleolus were studied in young (steps 1, 2), intermediate (steps 3, 4, 5) and mature spermatids (steps 6, 7, 8) of man and monkey, by use of several cytochemical techniques (alcoholic PTA; sodium tungstate; EDTA; HAPTA; nuclease-gold complexes; NOR silver staining). As controls, comparative ultrastructural and cytochemical observations of the nucleolus in spermatids and Sertoli cells were made in the same sections of seminiferous tubules. In the young spermatids of the two species studied, the nucleolar masses exhibited identical features. Segregation of the nucleolar components took place in the nuclei of step 1 spermatids. No typical fibrillar center was observed. In spermatids at steps 1 and 2, the nucleolar masses appeared to be made up of two fibrillar components of equal density, one spherule-shaped, the other forming cords, both surrounded by clusters of 15–20 nm-diameter granules. Alcoholic PTA and sodium tungstate yielded a selective positive contrast of the two fibrillar components whereas EDTA and RNase-gold reacted with the peripheral granular material. Treatment with RNase-gold and DNase-gold complexes resulted in preferential labeling at the periphery of the fibrillar components. After NOR silver staining, numerous small silver grains were localized over the fibrillar cords, suggesting the persistence of specific acidic non-histone proteins. On the contrary, the spherule was never stained. In intermediate spermatids, when the nucleolar components were dissociated, scattered clusters of granules stained by EDTA and HAPTA remained in the entire nucleoplasm. Nucleolar disintegration was accompanied by dispersion of argyrophilic material. In mature spermatids granular material revealed by PTA and silver staining methods was found in the nuclear pockets bounded by the redundant nuclear envelope.     

The karyosphere during late oogenesis in Rana ridibunda.

The organization of the nucleus in the oocytes of Rana ridibunda was examined during late diplotene at the light and electron microscopic level. At this stage the chromosomes are relatively condensed and assembled in the centre of the nucleus, constituting a karyosphere. The chromosomes here are associated with the central "protein sphere" (15--20 microns in diameter), obviously at their telomeres. Numerous nucleoli are accumulated around the chromosomes, forming a karyosphere capsule and contain segregated fibrillar and granular components; structures resembling perinucleolar chromatin and fibrillar bodies (spherules) are associated with the nucleoli. Granules 30 to 40 nm in diameter are seen to surround the fibrillar spherules. "Nucleolus-like bodies" consisting of granules 10 to 15 nm in diameter which are embedded in finely fibrillar material are often associated in contact with the chromosomes. The central sphere is an accumulation of annular structures similar to those of the pore complexes of the nuclear envelope. These structures are bound to the chromosome material, the "nucleolus-like bodies" and the fibrillar bodies. A participation of "nucleolus-like bodies" in the formation of the central sphere is suggested. A possible role of the nuclear protein matrix in the construction of the karyosphere elements is discussed.     

Fine structural organization of a non-reticulate plant cell nucleus

We studied the fine structural organization of the meristematic nucleus in roots of Lycopesicon esculentum (tomato) using ultracytochemical and immunocytochemical approaches. The nucleus has a non-reticulate (i.e. low DNA content) structure whose supramolecular organization differs in some respects from that in reticulate nuclei, principally in the organization of the chromocentres associated with the nuclear envelope, with which centromeric structures appear to be associated. The main difference at the nucleolar level is found in the fibrillar centres, which have a low amount of DNA labelling and in which inclusions of condensed chromatin are present only very rarely. The distribution of nucleolar DNA amongst the nucleolar compartments is similar to that in reticulate nucleoli as demonstrated using an anti-DNA monoclonal antibody. Tomato nuclei have nucleolus-associated bodies or karyosomes, like other plant species with a low DNA content and non-reticulate nuclear organization. The nuclear ribonucleoprotein structures in the inter- and perichromatin regions, namely inter- and perichromatin fibrils and granules, show similar ultrastructural and cytochemical characteristics in both types of nuclei.Abbreviations NAC nucleolus associated chromatin - CES centromeric structures - NOR nucleolar organizing region - NAB nucleolus associated body - IG interchromatin granules - RNP ribonucleoprotein - Mab monoclonal antibody by M.F. Trendelenburg     

Study of the positional relationship of nucleolar chromatin and nucleolar compartments in somatic nuclei OPF the ciliate Didinium nasutum

We showed earlier that nucleoli in interphase ciliates Didinium nasutum, appearing on single ultrathin sections as individual structures, actually are parts of more complex network-like structures in which fibrillar component is located on periphery, and granular--in the central part of a nucleolus. It is known, that nucleolar organizers in D. nasutum are represented by chromatin bodies connected with nucleoli. In this work we used 3D reconstruction on the basis of serial ultrathin sections to study localization of chromatin bodies which by morphological criteria might correspond to nucleolar organizers. Our data showed, that all such chromatin bodies settled down outside of nucleoli, near the periphery of fibrillar component. Even those chromatin bodies which on single sections looked completely surrounded by fibrillar nucleolar component, actually settled down in fibrillar component cavities open to nucleoplasm. Analysis of distribution of nucleolar chromatin bodies allowed us to conclude that activity in different parts of interphase complex network-like nucleoli of D. nasutum is approximately the same.     

3-dimensional organization of the nucleolus and the nucleolus-organizing regions in differentiated cells. I. Ring-shaped nucleoli in the endotheliocytes, smooth-muscle cells and fibroblasts in the mouse

The method of ultra-thin serial sections was used to study the three-dimensional structure and to perform the quantitative analysis of ring-shaped nucleoli of kidney and liver endotheliocytes, smooth muscle cells of kidney arterioles and fibroblasts of mice. Spatial models of ring-shaped nucleoli with one fibrillar centre are given. For the quantitative analysis the following parameters were measured: the number and volumes of nucleoli, fibrillar centers, RNP-containing structures, the vacuolar system and the RNP-index (the latter is a ratio of RNP-part and fibrillar center volumes). Nucleoli of the same type of cells, occasionally in the same nucleus, were found to differ sharply in their fibrillar center shape. Differences in the mean volume values of nucleoli, fibrillar centers and the RNP-part between some cell populations are sufficiently well pronounced. Within the same population ring-shaped nucleoli have, as a rule, specific volume values of nucleoli, RNP and fibrillar centers. The comparison of quantitative data obtained on different cell types showed that the mean RNP-index values were the most stable parameter. The structural relation between fibrillar centers, intra- and perinucleolar chromatin and lacunar region is shown. The structural organization of intranucleolar chromatin and rRNA in the nucleolar body and in fibrillar centers is discussed.