Cytophotometric study of nuclear proteins during gametogenesis in Ascaris lumbricoides.

Reduction in the number of nucleoli/nucleus and increase in their size were usually observed in rat liver after partial hepatectomy. These changes of nucleoli were greatest 16–18 h after the operation, when RNA biosynthesis in the nucleoli is reported to be highest. Approx. 50% of the nuclei had one enlarged nucleolus at this time but after the increase in nuclear DNA synthesis less than 15% of the nuclei had one nucleolus, as in normal liver. Before the next peak of nuclear DNA synthesis, nucleolar changes appeared again, though less conspicuously.The enlarged nucleoli of regenerating liver were separated from smaller ones by discontinuous sucrose gradient centrifugation and the contents of nucleic acid and ribosomal cistrons in different-sized nucleoli were measured. The large nucleoli in regenerating liver were found to have increased DNA content, whereas smaller ones had the normal content. The total number of ribosomal cistrons in the enlarged nucleoli from regenerating liver was also increased roughly in proportion to the DNA content. No significant difference was found between the percentages of ribosomal cistrons in whole nuclear DNAs from regenerating and normal liver. Small but reproducible [³H]TdR incorporation into nucleolar DNA was observed and this was similar in normal liver and regenerating liver 12 h after partial hepatectomy. Therefore, the nucleolar changes in regenerating liver were not accompanied by any particular DNA synthesis in the nucleolus itself. These results suggest that in the nuclei of regenerating liver nucleolar chromatins may be redistributed and assembled into large nucleoli, rather than that any amplification of ribosomal cistrons occurs.     

Differential changes in nucleolar size and ribosomal RNA synthesis during diapause break by prolonged chilling in Bombyx eggs

The activity of ribosomal RNA (rRNA) genes as judged by nucleolar size and rRNA synthesis has been shown to depend upon the phase of diapause in the eggs of Bombyx mori. In the present study, we found that nucleolar size in diapausing eggs was enlarged at a very early stage during cold treatment, a procedure necessary for the termination of diapause. In contrast, the intrinsic capacity of ribosomal RNA synthesis in the chilled eggs, as examined at 25°C by radioactive precursor incorporation into rRNA, increased much later, in parallel with the break of diapause. The early phase of cold treatment is the period when the eggs undergo some important changes (the so-called diapause development), preparing for diapause termination. Thus we infer that the above mentioned increase in nucleolar size may be one of the features of diapause development.     

Ultrastructural changes in vitro of rat liver nucleoli in response to polyamines

Summary Structural alterations of the nucleoli of rat liver cells were noted when these nuclei were isolated with spermidine or spermine rather than magnesium. When 5–10 mM spermidine or spermine were used to isolate the nuclei, the nucleoli were a) larger, b) contained numerous and sometimes large lacunae, and c) were less aggregated and had prominent chromatin caps. These chromatin caps gave the nucleolus a ring-shaped appearance in the light microscope. These findings, coupled with physiological data that indicate that polyamines enhance nucleolar RNA polymerase activity (Russell et al., 1971), suggest that spermidine and spermine may be involved in the control of ribosomal RNA synthesis. To our knowledge, this is the first instance of the direct stimulation of ribosomal RNA synthesis during nuclear isolation.Supported by USPHS Grant NS-07934.     

Zellwachstum und RNS-Synthese im Ei-Nährzellverband von Ophryotrocha puerilis

Summary During its growth phase, the oocyte is associated with a single highly polyploid nurse cell. Although the nurse cell contains high amounts of cytoplasmic ribonucleic acid, no RNA seems to be transferred to the oocyte. Autoradiographs prepared after pulse labelling with ³H-uridine indicate that the nuclei of both cell types are actively engaged in RNA synthesis during the whole period of oogenesis. Chromosomal RNA synthesis is most intense in oogonia before onset of the growth period. It still proceeds, although at a lower rate, after termination of oocyte growth when all RNA is lost from the nucleoli. Nucleolar RNA synthesis, on the other hand, is strictly correlated with the growth phase proper. Grain counts on chromatin and nucleoli of both egg cells and nurse cells at all stages of oogenesis indicate that nucleolar and chromosomal RNA synthesis are independent of each other to a large extent. It is thought that the type of RNA synthesized within the nucleolus is essentially ribosomal while the chromosomes are primarily engaged in the formation of messenger RNA.     

Multiple nucleoli and enhanced nucleolar activity in the nurse cells of the insect ovary

Origin and function of the nucleolar apparatus in nurse cell nuclei of Calliphora erythrocephala have been investigated by cytological and autoradiographic methods in some inbred lines of laboratory blowflies with well paired polytene chromosomes in the nurse cell nuclei. Besides the nucleolus at chromosome VI large numbers of multiple free nucleoli develop in the highly polyploidized nurse cells during oocyte growth. The nucleoli incorporate H³-uridine in a considerable amount producing a homogeneous and RNase-sensitive label even after short time incubation. Their capacity of RNA synthesis is independent of their spatial relationships to other nuclear components. DNA particles in the nucleoli could be identified by the Feulgen reaction and by fluorescence staining with N,N'-diethylpseudoisocya-ninchloride, which also demonstrates the existence of own templates for autonomous RNA synthesis. There are indications that the nucleolus' own DNA is produced by gene amplification beyond the level of endomitotic polyploidization in the nurse cell nuclei. A quantitative estimation of grain density in the autoradiograms shows a rigorous shift of rRNA synthesis: at least 72% of all newly synthesized macromolecular RNA in nurse cell nuclei as contrasted to 13 % of nucleolar RNA synthesis in bristle forming cells with a similar degree of polyploidy. It seems that the nurse cell nuclei of Calliphora in addition to polyploidization increase their template capacity for synthesizing rRNA in a similar way as has repeatedly been demonstrated for Amphibia. Cytological and physiological peculiarities of the nurse cells have been discussed from the viewpoint of their functional similarity to the oocyte nucleus.     

Occurrence of amitotic division of trophoblast cell nuclei in blastocysts of the western spotted skunk (Spilogale putorius latifrons)

A cytogenetic examination of spreaded cells of diapausing and early activated blastocysts obtained from 7 female western spotted skunks was performed. Mitosis was not observed in 1626 cells obtained from 9 diapausing blastocysts; however, 12 (1.5%) figures of diploid mitosis were seen in 851 cells from 5 early activated embryos. Diameter of the cell nuclei varied from 4 to 29 microm during diapause, and from 5 to 40 microm in activated blastocyst, and the heterogeneity in nuclear size was significantly different between diapausing and activated embryos (P<0.01). About 80% of nuclei from diapausing blastocysts measured 9 to 16 microm, whereas a similar percentage of nuclei from activated blastocysts ranged from 15 to 27 microm. Many enlarged nuclei exhibited morphological features characteristic of mammalian polytene (i.e. endopolyploid with polytenic organization of chromosomes) trophoblast cells. The number of silver stained nucleoli in all the nuclei did not exceed 2, which corresponds to the number of nucleolus organizers in the diploid karyotype in this species of skunk and suggests the polytene organization of chromosomes in enlarged nuclei. About 10% of large interphase nuclei were observed to undergo amitosis, i.e. direct division by constriction. The resulting nuclear fragments in diapausing blastocysts usually had normal morphology and active nucleoli. In activated embryos, nearly 15% of amitotically divided nuclei appeared to be dividing into fragments of unequal size, one of which had normal cell nuclear morphology and extremely large silver positive nucleoli, and the other fragment exhibited signs of cell death. We interpret these data as indicating that 1) amitotic division of trophoblast endopolyploid cell nuclei in the skunk blastocysts may generate new trophoblast cells which contribute to increased cell number during both diapause and activation stages, and 2) activation of blastocysts after diapause is related to the production of trophoblast cells with enhanced synthetic capabilities.     

Development of the large nucleolus in the oocytes of the copepod Acanthocyclops vernalis: an electron microscope study

A central feature of oogenesis in the copepod crustacean, Acanthocyclops vernalis, is the development of a very large nucleolus in the oocytes. This nucleolus appears to be the only source of rRNA for the oocyte, as no helper cells are present. Previous work has suggested that ribosomal DNA sequences other than those found at the morphological nucleolar organizers are participating in the elaboration of this nucleolus. It has been hypothesized that chromatin diminution, which occurs during early embryonic development, may involve the loss of these rDNA sequences, which are needed only for the production of ribosomes during oogenesis. The present study examines the development of the large oocyte nucleolus at the electron microscopic level. Nucleologenesis in A. vernalis was found to proceed through 5 stages. During the first 3 stages nucleolar morphology resembled that described in other organisms. In the last 2, however, nucleolar morphology changed radically and the nucleolus was seen to increase greatly in size while breaking up into multiple subunits. The subunits initially resemble active nucleoli, although in the last stage, synthesis appears to stop, as the nucleolus was found to consist only of dense areas containing ribosome-like particles. These observations are consistent with the hypothesis that diminuted DNA contains ribosomal RNA genes.     

Cytochemical and ultrastructural studies of ribonucleoprotein containing structures in oocytes of Acheta domesticus

Summary Two distinct types of ribonucleoprotein containing structures are found in oocytes of the house cricket, Acheta domesticus, a large secondary or accessory nucleolus and many small primary nucleoli. The secondary nucleolus increases in size during oocyte development and is similar in appearance to the nucleolus of somatic cells. The primary nucleoli are intimately associated with a large, extrachromosomal DNA containing body. The DNA body is no longer visible in nuclei of late diplotene stage cells when the primary nucleoli are dispersed within the nucleoplasm. Both types of nucleoli contain cytochemically detectable RNA and acid protein, little or no DNA and basic protein, and particulate structures similar to but smaller than cytoplasmic ribosomes.The authors acknowledge the technical assistance of Miss Celeste Malinoski and Mrs. Marcia Andrews. This work was supported by a U.S.P.H.S. grant, number GM-16440-01 and grants number L-16 and J-1 from the Health Research Services Foundation.     

Nucleoli formation under inhibited RNA synthesis

Formation and fusion of nucleoli after mitosis were studied in cultures of Chinese hamster cells and meristematic cells of Allium cepa and A. fistulosum under blocked RNA synthesis. To identify precisely which cells had passed through mitosis under actinomycin D blockade, cell cultures with micronuclei (induced by colchicine treatment), and binuclear Allium cells (induced by caffeine treatment), were used. It was found that in cells which have passed through mitosis after inhibition of RNA synthesis, the formation and fusion of nucleoli proceed more slowly than in cells not treated with actinomycin D; however, nucleoli appear and coalesce. Thus, telophase reconstruction of the nucleolus does not require simultaneous RNA synthesis and occurs at the expense of RNA that has been synthesized prior to mitosis.     

Nucleolar function of the dense crescent in the yeast nucleus : A biochemical and ultrastructural study

A fraction rich in dense crescent material, as judged by electron microscopy, has been isolated from yeast nuclei. Double-labelling experiments with ¹⁴C-uracil and ³H-Me-methionine show that nearly all of the 37S and 28S ribosomal precursor RNA is confined to this dense crescent fraction. The presence of both 37S and 28S ribosomal precursors in the dense crescent fraction strongly suggests that both biosynthesis and processing of the ribosomal precursors take place in the dense crescent. The biochemical and electron microscopic data represent strong evidence that the dense crescent in yeast has to be regarded as a nucleolus in both morphological and biochemical sense. Apparently the yeast cell resembles the higher eukaryotes with regard to the organization within a nucleolus of the synthesis of ribosomal RNA via large precursor molecules.     

A chromosome rearrangement in Neurospora that produces segmental aneuploid progeny containing only part of the nucleolus organizer

In translocation T(ILVL)OY321 of Neurospora crassa a distal portion of the nucleolus organizer chromosome, including ribosomal DNA sequences and the nucleolus satellite, is interchanged with a long terminal segment of IL. When OY321 is crossed by Normal sequence, one-fourth of the meiotic products are segmental aneuploids that contain two copies of the long IL segment and that are deficient for the distal portion of the organizer. Each such product forms a nucleolus and is viable. The complementary aneuploid products are deficient for the IL segment and are therefore inviable. — In crosses of OY321xOY321, each product is capable of making two nucleoli; nucleoli formed by the separated nucleolus organizer parts usually fuse, but most 8-spored asci contain some nuclei in which two separate nucleoli can be seen. One nucleolus is then terminal on its chromosome while the second is interstitial and somewhat smaller. — In crosses of OY321 x Normal, half of the meiotic products are capable of making two nucleoli. However, only about 15% of 8-spored asci have one or more nuclei containing separate nucleoli. At pachytene and later in prophase I, the single fusion nucleolus is associated with three bivalent chromosome segments. Each nucleus of every ascus contains at least one nucleolus, even in asci where some nuclei display two nucleoli. — Crosses of Aneuploid x Normal are usually semibarren, producing a reduced number of ascospores, some of which are inviable. Some aneuploid cultures become fully fertile by reverting to a quasinormal sequence lacking a satellite. In some crosses of Aneuploid x Normal, individual asci may show at prophase I either complete loss, partial loss, or pycnosis of the translocated IL segment. This observation of pycnosis suggests chromosome inactivation. — Growth from aneuploid ascospores is initially slow, but can accelerate to the wild-type rate.     

EFFECTS OF BENZAMIDE ON EMBRYONIC DEVELOPMENT OF THE HOUSEFLY

This paper deals with the effects of benzamide, a chromosomal RNA inhibitor, on embryonic development of the housefly Musca domestica nebulo. Eggs exposed to benzamide immediately after oviposition continued to develop until the blastema stage, but further development was arrested. Formation of cell boundaries and nucleoli failed to occur and the nuclei at the posterior pole did not differentiate into pole cells. This suggests that synthesis of new RNA is needed for development beyond the blastema stage. Treatment of eggs at different stages of development showed that as development progressed embryos became less sensitive to the drug. Introduction of benzamide into eggs during the pre-blastema period caused irreversible arrest of development, whereas, treatment during post-blastema stages resulted in reversible inhibition of development. The cortical cytoplasm thus appears to induce a significant change in the cleavage nuclei, which alters their sensitivity to the drug.     

Nucleolus-like bodies in micronuclei of cultured Xenopus cells

Two of the 36 chromosomes in Xenopus laevis are known to carry nucleolar organizer loci. Partitioning of the chromosomes of cultured, early-passage Xenopus cells among variable numbers of micronuclei could be induced by extended colcemid treatment. A large, obvious nucleolus occurred in a maximum of 4 micronuclei per colcemid-induced tetraploid cell. The large, deeply-stained nucleoli incorporated [³H]uridine and appeared by electron microscopy to have typical nucleolar morphology with fibrillar and granular areas disposed in nucleolonema. In situ hybridization to radioactive ribosomal RNA (rRNA) resulted in heavy labelling of nucleoli in no more than 4 micronuclei per cell. The other micronuclei generally contained small bodies (blobs) which stained for RNA and protein as well as with ammoniacal silver. In the electron microscope, these appeared as round, dense bodies resembling nucleoli segregated by actinomycin D treatment. Nucleoplasmic RNA synthesis occurred in all micronuclei regardless of whether they contained definitive nucleoli. These observations suggest that micronuclei which formed large, typical, RNA-synthesizing nucleoli contained nucleolar organizer chromosomes, while the other micronuclei, which contained nucleolus-like “blobs” probably lacked nucleolar organizer loci. It is possible that the nucleolus-like bodies may have been aggregates of previously synthesized nucleolar RNA and protein trapped in micronuclei after mitosis.     

Intranucleolar localization of the RNA polymerase A activity in isolated nuclei of regenerating rat liver

Ultrastructural autoradiography was used to visualize RNA polymerase A activity in parenchymal cell nuclei isolated from normal and regenerating (3, 24, 36 and 48 h after partial hepatectomy) rat liver. High resolution autoradiography showed that the activity of RNA polymerase A which was not inhibited by α-amanitin in a concentration of 0.8 μg/ml, was restricted to the nucleolus. Both the distribution pattern and number of grains were similar in control liver and regenerating liver 3 h after hepatectomy. Twentyfour, 36, and 48 h after hepatectomy nucleoli were enlarged and labeling was distinctly increased. In all experimental groups the activity of RNA polymerase A was located within fibrillar components of the nucleolus. The association of enzyme activity with this component was especially distinct in later stages (36 and 48 h) of liver regeneration. These results suggest that the fibrillar component of the nucleolus contains the active template for ribosomal RNA (rRNA) synthesis in rat liver cell nuclei.     

Discrete foci containing RNase A are found in nucleoli of HeLa cells aged in culture

We have studied by means of ultrastructural immunocytochemistry the localization of RNase A in nuclei of HeLa cells in control conditions and following cell ageing in culture. We have found that roundish, electron dense foci, which contain a significant amount of RNase A, can be detected within nucleoli of aged cells. These bodies also contain RNA and lack ribosomal S3 proteins, and may represent either simple storage sites or areas where RNA degradation takes place.Key words: nucleolus, RNase, electron microscopy, immunocytochemistry.     

RNA Synthesis in the Shoot Apex of Polytrichum formosum Hedw.

RNA metabolism in the cells of the gametophyte shoot apex ofPolytrichum formosum was investigated using both microspectrophotometricand autoradiographic methods along with an accurate measurementof surfaces and volumes of nuclei, nucleoli, free cytoplasmand vacuolar systems. On a per cell basis, the amount of RNAand the rate of RNA synthesis were shown to be highest in theapical cell. On the other hand, both RNA concentration and rateof synthesis for a unit quantity of cytoplasm were found tobe higher in leaf initials and in the cells of young leavesthan in theapical cell, the segments and the segmental derivatives.For the various types of cells in the shoot apex it was establishedthat the more voluminous the nucleolus, the higher the RNA syntheticrate per cell. These results were correlated with the data previouslyobtained on the mitotic cycles in Polytrichum. It is concludedthat in the apical cell, notwithstanding its differentiatedfeatures, RNA metabolism must be considered on the whole tobe very active. These various data are compared with those obtainedon angiosperm shoot apices.