Ultrastructural localization of DNA and RNA in Allium porrum interphase cells by means of nuclease-gold complexes

Summary Nucleic acids have been localized inAllium porrum interphase meristematic cells by means of labelling with nuclease-gold complexes, a technique which provides high resolution and improved specificity. DNase-gold labelling was observed over dense chromatin and to a lesser extent over dispersed chromatin. Nucleolar labelling was restricted to the dense fibrillar component, very few particles being located over the fibrillar centres. Labelling by the RNase-gold complex was present over both the cytoplasm and the nucleoplasm. Cytoplasm labelling was intense over the rough endoplasmic reticulum but absent over vacuoles. In the nucleoplasm many gold particles were located at the border between the condensed and the dispersed chromatin. Nucleolar labelling was intense over the granular zones but many gold particles were also seen over the dense fibrillar component. Fibrillar centres showed, however, no labelling with the RNase-gold complex. These results are consistent with previous autoradiographic and cytochemical observations carried out on the same plant material.     

Detection of sugar-binding sites in the fibrillar and the granular components of the nucleolus: An experimental study in cultured mammalian cells

The intranucleolar distribution of sugar-binding sites (i.e., lectin-like molecules) was analyzed in segregated nucleoli of actinomycin D-treated HeLa cells. The detection of sugar-binding sites was performed by incubation either of permeabilized nuclei in the presence of fluorescein-labeled neoglycoproteins or of ultrathin sections cut through in situ-fixed nuclei in the presence of gold-labeled neoglycoproteins. In the former case, the fluorescent nucleolar components were identified by comparison with the nucleolar components of similarly treated cells observed in electron microscopy. For the first time, this study reveals the presence of sugar-binding sites in both the fibrillar and the granular components of the nucleolus. In view of the data already reported on the biochemical composition of the nucleolus, some of our results led us to conclude that the nucleolar sugar-binding sites are lectin-like proteins. These proteins could be associated with preribosomes since the nucleolus is the site of both synthesis and stockage of ribosomal precursors. Some results from this study, however, show that the possibility of a relationship between some lectins and a structural component cannot be excluded.     

多头绒泡菌银染核仁周期的电镜研究

以同步化培养的多头绒泡菌（Physarum poldycephalum Schw.)原生质团为材料,应用整体银染技术,电镜下研究了核仁在细胞周期中的超微结构变化。结果变化：核仁成熟时比较大,位于细胞核中央,核仁内可区分出纤维中心、密集纤维成分和颗粒成分等。前期时,核仁向边缘移动,前期末在近核膜处解体,解体的核仁物质主要呈团块状散开。中期时,解体的核仁物质位于细胞核中央染色体区域的周围,染色体上没有特异的银染区域,染色体周边也看不到银染的“鞘”状结构,但在染色体中可见一些散在的银染大颗粒。末期时,核仁物质与染色体一起到达两极,在子细胞核中与正在解集缩的染色质共存一起,以后核仁物质逐渐汇合并与染色质分开。大约在有丝分裂结束120min后,在细胞核中形成一候 中央位置的大核仁,结果提示,低等真核生物的核仁结构和周期变化与高等真核生物的不完全相同。     

Electron Microscopic Studies on the Silver-stained Nucleolar Cycle of Physarum polycephalum

The dynamic changes of nucleolar ultrastructure in the cell cycle of Physarum polycephalum Schw. were studied by an en bloc silver-staining method. The results showed that the nucleolus was large in size and situated in the center of the nucleus in late G2-phase, and the fibrillar centers, dense fibrillar components and granular components could be observed in the nucleolus. During prophase, the nucleolus moved towards the periphery of the nucleus and in late prophase disintegrated near the nuclear envelope. In metaphase, the disintegrated nucleolar components were dispersed in masses and located at the periphery of the chromosomal region of the nucleus. No specifically silver-stained area and argentophilic protein sheath were observed on the chromosomes, but there were some big dispersed silver particles within the chromosomes. During telophase the nucleolar components moved towards the two poles along with the chromosomes and co-existed with the decondensing chromatin in daughter nuclei. The nucleolar components then gradually converged with one another and separated from the chromatin. A big nucleolus was formed in the nucleus about 120 min after the completion of mitosis.     

Ultrastructural Distribution of DNA within Plant Meristematic Cell Nucleoli during Activation and the Subsequent Inactivation by a Cold Stress

We have investigated the precise location of DNA within the meristematic cell nucleolus ofZea maysroot cells andPisum sativumcotyledonary buds, in the course of their activation and induced inactivation following a subsequent treatment at low temperature. For this purpose, we combined the acetylation method, providing an excellent distinction between the various nucleolar components, with thein situterminal deoxynucleotidyl transferase-immunogold technique, a highly sensitive method for detecting DNA at the ultrastructural level. In addition to the presence of DNA in the condensed chromatin associated with the nucleolus, we demonstrated that a significant label was detected in the nucleolus of quiescent cells in both plant models. Evident labels were also found in the dense fibrillar component of actived nucleoli. Whereas in inactivated nucleoli no significant label was observed within the dense fibrillar component, an intense label was seen over the large heterogeneous fibrillar centres only during inactivation. The granular component was never significantly labelled. These results appear to indicate that the DNA present in the dense fibrillar component of activated nucleoli withdraws from this structure during its inactivation and becomes incorporated in the large fibrillar centres. These observations suggest that in plant cells inactivation of rRNA genes is clearly accompanied by changes in the conformation of ribosomal chromatin.     

Detection of sugar-binding proteins in membrane-depleted nuclei

Nuclear sugar-binding proteins were detected in membrane-depleted nuclei isolated from hamster BHK cells and mouse L 1210 leukemia cells by means of fluorescein-labelled neoglycoproteins. In fluorescence microscopy, the fluorescence was seen throughout the nucleus but was generally brighter over the nucleoli than over the rest of the nucleus. Flow cytofluorometry analysis demonstrated the presence of nuclear sugar-binding proteins for synthetic glycoproteins associated with different sugar residues. Among the nine neoglycoproteins used, four neoglycoproteins (namely alpha-rhamnosylated, alpha-glucosylated, N-acetyl-beta-glucosaminylated and alpha-mannosylated-6P-serum albumin) strongly labelled nuclei. Various controls strongly argue for the specificity of the nuclear labelling. The possibility that some of the sugar-binding proteins might correspond to endogenous nuclear lectins is considered.     

Localization of Nopp140 within mammalian cells during interphase and mitosis

We investigated distribution of the nucleolar phosphoprotein Nopp140 within mammalian cells, using immunofluorescence confocal microscopy and immunoelectron microscopy. During interphase, three-dimensional image reconstructions of confocal sections revealed that nucleolar labelling appeared as several tiny spheres organized in necklaces. Moreover, after an immunogold labelling procedure, gold particles were detected not only over the dense fibrillar component but also over the fibrillar centres of nucleoli in untreated and actinomycin D-treated cells. Labelling was also consistently present in Cajal bodies. After pulse-chase experiments with BrUTP, colocalization was more prominent after a 10- to 15-min chase than after a 5-min chase. During mitosis, confocal analysis indicated that Nopp140 organization was lost. The protein dispersed between and around the chromosomes in prophase. From prometaphase to telophase, it was also detected in numerous cytoplasmic nucleolus-derived foci. During telophase, it reappeared in the reforming nucleoli of daughter nuclei. This strongly suggests that Nopp140 could be a component implicated in the early steps of pre-rRNA processing.     

Localization of chromatin in "persistent" nucleoli in okadaic acid treated HeLa cells.

In okadaic acid treated HeLa cells, the chromosomes sometimes condense without being accompanied by nuclear envelope breakdown. These cells show "persistent" nucleoli. Within these "persistent" nucleoli the intranucleolar chromatin condenses and can be observed in the region of the dense nucleolar component (DNC) of the nucleoli. Other nucleolar components, namely the fibrillar centre (FC) and the granular component (GC) remain unchanged. These observations strongly speak for the localization of nucleolar chromatin (ribosomal cistrons) within the dense nucleolar component of the interphase nucleolus.     

Distribution of nucleolar proteins B23 and nucleolin during mouse spermatogenesis

The intracellular distribution of nucleolar phosphoproteins B23 and nucleolin was studied during mouse spermatogenesis, a process that is characterized by a progressive reduction of nucleolar activity. Biochemical analyses of isolated germ cell fractions were performed in parallel with the in situ ultrastructural immunolocalization of these two proteins by means of specific antibodies and colloidal gold markers, and by silver staining. RNA blot experiments showed that mRNA for nucleolin progressively decreased during spermatogenesis whereas mRNA for B23 increased in amount during early spermatogenic stages. Immunoblotting confirmed that both proteins were present during early spermatogenesis up to the round spermatid stage and absent from mature sperm. Immunoelectron microscopy revealed that in spermatogonia, leptotene and pachtyene spermatocytes, and in Golgi phase spermatids, B23 and nucleolin were localized in the dense fibrillar component and granular component of the nucleolus but not in the fibrillar centers. In the dense fibrillar residue of the cap phase spermatids, labeling with anti-nucleolin but not with anti-B23 was observed. During nucleolar inactivation, neither of the two polypeptides was dispersed to the nucleoplasm. Silver salts stained the fibrillar centers and dense fibrillar component but not the granular component of the nucleolus. Our results suggest that there is no direct relationship between nucleolar activity and the occurrence of B23 and nucleolin or silver staining. Moreover, we confirm that silver staining and the presence of B23 or nucleolin are not directly related to each other.by M. Trendelenburg     

In situ hybridization at the electron microscope level: an improved method for precise localization of ribosomal DNA and RNA

In situ hybridization using biotinylated rDNA probes and secondary antibody coupled to gold particles was developed on ultrathin sections of Lowicryl-embedded Ehrlich tumor cells for precise localization of ribosomal RNA (rRNA) and ribosomal DNA (rDNA). For the detection of rDNA, an immunocytochemical approach involving an antibody against single-stranded DNA was used in order to determine the more efficient denaturation procedure. Using this technique, rDNA can be visualized in the fibrillar centers of nucleoli, especially in their peripheral regions at the proximity of both the dense fibrils and the nucleolar interstices as well as within the latter. rDNA was occasionally detected in some clumps of dense nucleolus-associated chromatin. Besides the presence of rRNA in the ribosome-rich cytoplasmic areas and in the dense fibrillar component and the granular component of the nucleolus, rRNA was also found in the fibrillar center areas close to the boundary region to the dense fibrillar component. These results are discussed in the light of the present knowledge on the functional organization of the nucleolus.     

The fine structure of nuclei as revealed by electron microscopy

Summary The process of nucleolus formation has been studied by electron microscopy in spermatogonia of new-born, 15-day-old mice. One of two heteropycnotic sex chromosomes is concerned with nucleolus formation in the type A spermatogonia. The evidence for such formation has been presented with regard to behaviour and fine structure of both sex chromosome and nucleolus, Nucleolar material appears at one of two heteropycnotic sex chromosomes which are closely attached to the nuclear envelope. The two sex chromosomes approach each other, and subsequently one of them migrates into the central part of the nucleoplasm, being related to the nucleolar material which develops to show a nucleolar configuration. The sex chromosomes are homogeneously electron dense during the nucleolus formation, but assume a vesicular form at the middle stage of its development. The nucleolus is mostly of fibrillar and amorphous components at early stages of its development, but the granular components increases in amount as development proceeds. The final, mature nucleolus is composed of irregularly twisted nucleolonemata consisting of granular components, separated from fibrillar and amorphous areas. The compactly dense sex chromosome remains closely connected with the mature nucleolus.     

Relative position of nucleolar chromatin and nucleolar components in ciliate <Emphasis Type="Italic">Didinium nasutum</Emphasis> somatic nuclei

According to our computer modeling data obtained earlier, nucleoli in interphase ciliates Didinium nasutum are complex netlike structures, in which the trabeculumor lamella-shaped fibrillar component is located on the periphery, and the granular component in the central part of the nucleolus. Chromatin bodies connected with nucleoli act as the nucleolar organizers in D. nasutum. In the present work, the arrangement of all chromatin bodies, which could correspond to nucleolar organizers by morphological criteria, is studied by means of a 3D-reconstruction. It is shown that all of these chromatin bodies are localized outside the nucleoli, on the fibrillar component’s periphery. Even those chromatin bodies which appeared to be completely surrounded by the fibrillar nucleolar component on single ultrathin sections are actually settled down in nucleolus cavities open to the nucleoplasm. This proves that the RNA processing in D. nasutum nucleoli is directed toward the center of nucleoli, where the granular component is located. The analysis of the nucleolar chromatin distribution made it possible to conclude that different parts of the complex interfase netlike nucleoli of D. nasutum have approximately the same activity.     

TEM cytochemical study of the localization of phospholipids in interphase chromatin in rat hepatocytes.

The electron microscopy cytochemical detection of phospholipids in well-defined areas in the interphase nuclei of hepatocytes has been obtained by the acid haematein test, modified for electron microscopy and by the phospholipase A2-colloidal gold method. The specificity of both methods were controlled by enzymatic digestion with phospholipase. The main intra-nuclear localization of phospholipids is at the border between the condensed and dispersed chromatin, where non-ribosomal RNA is also revealed by RNase-gold labelling. Phospholipids are detected, too, over the clusters of interchromatin granules and in the fibrillar component of the nucleolus.     

TEM cytochemical study of the localization of phospholipids in interphase chromatin in rat hepatocytes

Summary The electron microscopy cytochemical detection of phospholipids in well-defined areas in the interphase nuclei of hepatocytes has been obtained by the acid haematein test, modified for electron microscopy and by the phospholipase A2-colloidal gold method. The specificity of both methods were controlled by enzymatic digestion with phospholipase. The main intra-nuclear localization of phospholipids is at the border between the condensed and dispersed chromatin, where non-ribosomal RNA is also revealed by RNase-gold labelling. Phospholipids are detected, too, over the clusters of interchromatin granules and in the fibrillar component of the nucleolus.