Cellular organization in the synganglion of the mite Macrocheles muscaedomesticae (Acarina: Macrochelidae)

Summary A large DNA containing body is found in oocytes of the house cricket, Acheta domesticus. Little or no RNA synthesis is associated with the DNA body during the leptotene, zygotene, and pachytene stages of meiotic prophase I. During the early diplotene stage of development, large masses of nucleolar material begin to accumulate at the periphery of the DNA body. The onset of RNA synthesis correlates with a change in the histochemically detectable histone proteins associated with the DNA body. In ovaries of animals injected with uridine-H³, most of the label accumulates in ribosomal RNA. Autoradiographic studies show that the cytoplasm of late diplotene stage cells accumulates uridine label to a greater extent than does the cytoplasm of early diplotene stage cells. Increased transport of nucleolar material through the nuclear envelope of late diplotene stage cells accounts for the increased cytoplasmic labeling.This investigation was supported by PHS Research Grant No. GM 16440 from the Institute of General Medical Sciences, and by Grants No. L-16 and J-1 from the Health Research and Services Foundation.The authors gratefully acknowledge the technical assistance of Mrs. Marcia Andrews and Miss Celeste Malinoski.     

LOCALIZATION OF RIBOSOMAL DNA WITHIN OOCYTES OF THE HOUSE CRICKET, ACHETA DOMESTICUS (ORTHOPTERA: GRYLLIDAE)

A large DNA-containing body is present in addition to the chromosomes in oocytes of the house cricket Acheta domesticus. Large masses of nucleolar material accumulate at the periphery of the DNA body during the diplotene stage of meiotic prophase I. RNA-DNA hybridization analysis demonstrates that the genes which code for 18S and 28S ribosomal RNA are amplified in the ovary. In situ hybridization indicates that the amplified genes are localized within the DNA body of early prophase cells. As the cells proceed through diplotene the DNA which hybridizes with ribosomal RNA is gradually incorporated into the developing nucleolar mass.     

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.     

Nucleolar DNA in oocytes of crickets: representatives of the subfamilies Oecanthinae and Gryllotalpinae (Orthoptera: Gryllidae)

A large extrachromosomal mass of Feulgen positive material, the DNA body, has been visualized in early prophase oocytes of crickets (Orthoptera: Gryllidae) representative of the closely related subfamilies Gryllinae and Nemobiinae. A similar structure is present in oocytes of representatives of two subfamilies of crickets (subfamilies Oecanthinae and Gryllotalpinae) which taxonomically and phylogenetically are quite separate from those mentioned previously. In situ hybridization demonstrates that the body contains amplified copies of genes coding for ribosomal RNA. Unlike the DNA body in early diplotene oocytes of representatives of the subfamily Gryllinae, which is closely associated with the developing nucleolar apparatus, the DNA body in oocytes of the Oecanthinae and Gryllotalpinae cannot be demonstrated during diplotene. In the Oecanthinae, the nucleolar apparatus of early diplotene stage oocytes is composed of four to seven separate structures, the ribonucleoprotein of which has a characteristically lamellated appearance. During late diplotene, these nucleoli give rise to many smaller structures which are distributed throughout the germinal vesicle. In early diplotene stage oocytes of Scapteriscus acletus (Subfamily: Gryllotalpinae), the nucleolar apparatus consists of a single compact mass of ribonucleoprotein. In contrast to the oocytes of all other crickets that have been studied, the nucleolus of S. acletus remains single throughout diplotene. In situ hybridization analysis indicates that the amplified genes coding for rRNA which are localized in the DNA body of early prophase oocytes become incorporated into this compact nucleolar mass. Differences in nucleolar structure appear to reflect differences in the organization of amplified genes coding for rRNA.     

Synthesis and characterization of amplified DNA in oocytes of the house cricket,Acheta domesticus (Orthoptera: Gryllidae)

At a time in the life cycle when a large proportion of the oocytes of Acheta incorporate ³H-thymidine into an extrachromosomal DNA body, synthesis of a satellite or minor band DNA, the density of which is greater than main band DNA, is readily detected. Synthesis of the satellite DNA is not detectable in tissues, the cells of which do not have a DNA body, or in ovaries in which synthesis of extrachromosomal DNA by the oocytes is completed. The DNA body contains the amplified genes which code for ribosomal RNA. However, less than 1 percent of the satellite DNA, all of which appears to be amplified in the oocyte, is complementary to ribosomal 18S and 28S RNA. In situ hybridization demonstrates that non-ribosomal elements, like the ribosomal elements of the satellite DNA, are localized in the DNA body.Abbreviations used rRNA ribosomal RNA, includes 18S and 28S RNA - rDNA gene sequences complementary to rRNA - cRNA complementary RNA synthesized in vitro     

Multiple synaptinemal complexes at the region of gene amplification in Acheta

Ovaries of Acheta domesticus (house cricket) were fixed for electron microscopy at two stages of development: (1) ovaries containing mainly oocytes at interphase and early prophase of meiosis, and (2) ovaries with oocytes mainly at pachytene and diplotene. The E.M. study was accompanied by three types of light microscopy controls consisting mainly of cytochemical tests. Every oocyte contains a DNA body which at pachytene and diplotene acquires the appearance of a puff. In the light microscope two zones can be distinguished inside the body: (1) an inner core of DNA and (2) and outer shell of RNA. In the E. M. the inner core consists of a fibrillar material and the outer shell is composed of areas of high electron opacity consisting mainly of tightly packed particles and fibrils. At these stages synaptinemal complexes are seldom seen associated with the DNA body but are present throughout the nucleus as part of the paired chromosomes. The complexes are present as single units. — In the oocytes at interphase and early prophase of meiosis, where the DNA body is active in DNA replication, the body appears in the light microscope as a large Feulgen positive sphere containing Feulgen negative areas. In the E. M. at these stages the DNA body consists of: (a) the two components found at pachytene, (b) a third electron dense component which is more homogeneous than the other two, and (c) of large assemblies of synaptinemal complexes originating from several centers. The most significant features of the axial complexes are: (1) the circular packing of the complexes, (2) their occurrence in packages of 300 to 400 units and (3) the fact that not all of the DNA body forms complexes but only a part of it.Biochemical experiments (Lima-de-Faria, Birnstiel and Jaworska, 1969) have demonstrated the amplification of ribosomal cistrons in the DNA body of Acheta. The simplest explanation is that the multiple complexes are formed either between the extra gene copies of the two homologues, or between the extra copies of each chromosome as well. There seems to be a correlation between the presence of multiple axial complex formation and gene amplification in Acheta but the exact relation between the two phenomena demands further study.Dedicated to Dr. Sally Hughes-Schrader on the occasion of the seventyfifth birthday on the twentyfifth of January 1970.     

Nucleolar organization in oocytes of gryllid crickets: subfamilies Gryllinae and Nemobiinae

A cytological and cytochemical survey was made of nucleolar changes during oocyte development in several different species of crickets (Gryllidae) representing the subfamilies Gryllinae and Nemobiinae. A large mass of extrachromosomal DNA is characteristic of the pachytene stage nuclei of all species examined. Nucleolar material accumulates at the periphery of the DNA body as the cells proceed into the diplotene stage of development. As the oocytes proceed through diplotene, the nucleoli reorganize into many small masses which eventually disperse in the nucleoplasm. These changes reflect both an increase in number and in size of the nucleolar material during the diplotene stage and the mode by which dispersal of nucleolar material is accomplished. These differences probably reflect differences in the organization of extrachromosomal nucleolar DNA.     

Ovarian nests in cultured females of the Siberian sturgeon Acipenser baerii (Chondrostei,Acipenseriformes)

Ovaries of Acipenser baerii are of an alimentary type and probably are meroistic. They contain ovarian nests, individual follicles, inner germinal ovarian epithelium, and fat tissue. Nests comprise cystoblasts, germline cysts, numerous early previtellogenic oocytes, and somatic cells. Cysts are composed of cystocytes, which are connected by intercellular bridges and are in the pachytene stage of the first meiotic prophase. They contain bivalents, finely granular, medium electron dense material, and nucleoli in the nucleoplasm. Many cystocytes degenerate. Oocytes differ in size and structure. Most oocytes are in the pachytene and early diplotene stages and are referred to as the PACH oocytes. Oocytes in more advanced diplotene stage are referred to as the DIP oocytes. Nuclei in the PACH oocytes contain bivalents and irregularly shaped accumulation of DNA (DNA‐body), most probably corresponding to the rDNA‐body. The DNA‐body is composed of loose, fine granular material, and comprises multiple nucleoli. At peripheries, it is fragmented into blocks that remain in contact with the inner nuclear membrane. In the ooplasm, there is the rough endoplasmic reticulum, Golgi complexes, free ribosomes, complexes of mitochondria with cement, fine fibrillar material containing granules, and lipid droplets. The organelles and material of nuclear origin form a distinct accumulation (a granular ooplasm) in the vicinity of the nucleus. Some of the PACH oocytes are surrounded by flat somatic cells. There are lampbrush chromosomes and multiple nucleoli present (early diplotene stage) in the nucleoplasm. These PACH oocytes and neighboring somatic cells have initiated the formation of ovarian follicles. The remaining PACH oocytes transform to the DIP oocytes. The DIP oocytes contain lampbrush chromosomes and a DNA‐body is absent in nuclei. Multiple nucleoli are numerous in the nucleoplasm and granular ooplasm is present at the vegetal region of the oocyte.     

Karyometric and cytophotometric study of hepatocyte nuclei of frogs exposed to cold and prolonged starvation

Summary Prolonged starvation of Rana pipiens at room temperature results in a decrease in the volume of the hepatocyte nuclei from that of recently fed individuals. A converse increase in the volume of the liver nuclei over the normal was noted in frogs exposed to low temperature for 10 days. The present work was conducted in an effort to determine which nuclear fraction is responsible for the observed changes in nuclear size.The amount of DNA, RNA and protein-bound sulfhydryl groups per nucleus was measured cytophotometrically and was found to be independent of changes in nuclear size. Total nuclear protein content, on the other hand, was found to vary in proportion to nuclear volume. It was concluded that the variation in nuclear size resulting from starvation and cold-treatment is due to differences in non-chromosomal protein content and cannot be attributed to changes in ploidy.Dedicated to Prof. Berta Scharrer in honor of her 60th Birthday. — Supported by U.S. Public Health Service Grant HD-1499-04 to Dr. Cowden.Work completed while a Postdoctoral Trainee under U.S. Public Health Training Grant to the Department of Pathology, University of Florida, NIH-GM-1142-03.Supported by a Career Development Award from the National Institute of Child Health and Human Development, K 3-HD-6176-04.     

An autoradiographic and cytophotometric study of oogenesis in a pulmonate snail,Planorbarius corneus

Summary The spatial and temporal patterns of macromolecular syntheses in oocytes and somatic auxiliary cells of the snail Planorbarius corneus have been investigated by autoradiography and cytophotometry. Oogenesis has been divided into three stages, comprising early meiosis up to diplotene (stage I), previtellogenetic growth phase (stage II), and vitellogenesis (stage III). No DNA synthesis was found in any oocyte stage. In stage-I oocytes, only nucleoli were found labelled with ³H-uridine. Oocyte nuclei of stage II and III actively synthesize RNA in nucleoli and chromosomes. The most intense incorporation of uridine in chromatin probably occurs during the previtellogenesis — vitellogenesis transition period during which cytological findings suggest well developed lampbrush chromosomes. RNA synthesis in amphinucleoli of stage-III oocytes is restricted to basophilic nucleolar parts, whereas acidophilic parts (protein bodies) neither synthesize nor store RNA. During vitellogenesis oocytes incorporate amino acids into yolk platelet proteins. Radioactive proteins are found in yolk platelet precursors 5 h after injection of the tracer and in yolk platelets 3 h thereafter. The labelling pattern suggests that oocytes synthesize certain hitherto unidentified yolk components. No evidence for the participation of follicle cells in synthesis and transport of vitellogenic proteins has been obtained from autoradiography. Cytological findings suggest an important role for these cells in oogenesis. They are highly active in RNA and protein synthesis. Cellular differentiation is accompanied by polyploidization of the nuclei which attain a highest DNA content of 256 c. Polyploidization probably occurs in incremental steps as indicated by complete endomitotic chromosomal cycles. Autoradiographs show that, during vitellogenesis, oocytes do not incorporate significant amounts of glucose, and only certain follicle cells were labelled with glucose, probably indicating the synthesis of glycogen.     

Fine mapping of the ribosomal RNA genes of HeLa cell mitochondrial DNA

A fine mapping study of the ribosomal RNA region of HeLa cell mitochondrial DNA has been carried out by using as an approach the protection by hybridized 12 S and 16 S rRNA of the complementary sequences in DNA against digestion with the single strand-specific Aspergillus nuclease S₁ or Escherichia coli exonuclease VII. No inserts have been detected in the main body of the 12 S and 16 S rRNA cistrons, in contrast to the situation described in the large mitochondrial ribosomal RNA gene of some strains of yeast and of Neurospora crassa. Furthermore, it has been possible to assign more precisely than previously the positions of the 5′ and 3′-ends of the 12 S rRNA and 16 S rRNA genes in the HpaII restriction map of HeLa cell mitochondrial DNA.     

Gene amplification in oocytes with 8 germinal vesicles from the tailed frog Ascaphus truei Stejneger

In the last 3 oogonial mitoses in Ascaphus truei all daughter nuclei remain in the same cell. The oocyte is 8-nucleate at the start of meiotic prophase and remains so until late in oogenesis when 7 of the nuclei disappear. All 8 nuclei in a single oocyte resemble one another with respect to size and chromatin distribution at all stages of meiotic prophase. Much of the Feulgen-positive material in pachytene nuclei is concentrated into one region of the nucleus. — All of the 8 germinal vesicles of yolky oocytes have a full set of lampbrush diplotene bivalents. Germinal vesicles from oocytes of up to 0.8 mm diameter have less than 100 nucleoli, some of which are multiple nucleoli in the sense that they have more than one core region. Each of the 8 nuclei in oocytes from one animal had about the same volume of nucleolar material. — Two values have been obtained for the amount of DNA in a diploid nucleus from Ascaphus. A biochemical estimate utilizing erythrocyte nuclei and the diphenylamine reaction yielded a value of 7.1 pg per nucleus. Microphotometry of erythrocyte nuclei stained with Feulgen's reagent gave a value of 8.2 pg per nucleus. — Microphotometric measurements of Feulgen-stained nuclei at various stages of meiotic prophase up to diplotene indicate that each nucleus synthesizes up to 5 pg of extrachromosomal DNA during and immediately after pachytene. This DNA is considered to be nucleolar. Autoradiography of nuclei from oocytes which had been incubated for 6h in ³H thymidine showed silver grains over pachytene and early diplotene nuclei only. In pachytene nuclei the silver grains overlaid that part of the nucleus where Feulgen-positive material was most concentrated. Most of the chromosomal material was unlabelled. — The significance of the 8-nucleate condition in Ascaphus oocytes is discussed, and the amount of nucleolar DNA synthesized at pachytene and of nucleolar material present in germinal vesicles is compared with corresponding situations in other amphibians.     

Characterization of cloned rat ribosomal DNA fragments

Summary Two Charon 4A lambda bacteriophage clones were characterized which contain all and part of the 18S ribosomal DNA of the rat. One clone contained two Eco RI fragments which include the whole 18S ribosomal RNA region and part of 28S ribosomal RNA region. The other clone contained an Eco RI fragment which covers part of 18S ribosomal RNA region. There were differences between the two clones in the non-transcribed spacer regions suggesting that there is heterogeneity in the non-transcribed spacer regions of rat ribosomal genes. The restriction map of the cloned mouse ribosomal DNA. Eco RI, Hind III, Pst I, and Bam HI sites in 18S ribosomal RNA region were in the same places in mouse and rat DNA but the restriction sites in the 5-spacer regions were different.     

Relationships between species ofLeymus,Psathyrostachys, andHordeum (Poaceae,Triticeae) inferred from Southern hybridization of genomic and cloned DNA probes

We have used total genomic DNA as a probe to size-fractionated restriction enzyme digests of genomic DNA from a range ofTriticeae species from the generaLeymus Hochst.,Psathyrostachys Nevski, andHordeum L., and hybrids betweenHordeum andLeymus to investigate their taxonomic relationships. Genomic Southern hybridization was found to be an effective and simple way to assess the distribution and diversity of essentially species-specific and common, repetitive DNA sequences, and is hence especially useful in evolutionary studies. The DNA sequences ofH. vulgare seem to diverge substantially from those ofH. brachyantherum, H. lechleri, H. procerum, andH. depressum. The genome ofThinopyron bessarabicum shows little homology to those of theLeymus species investigated, confirming thatT. bessarabicum is not an ancestral genome inLeymus. Although the genomes ofLeymus andPsathyrostachys share substantial proportions of DNA sequences, they include divergent repeated sequences as well. Hybridization with a ribosomal DNA probe (pTa 71) showed that the coding regions containing structural genes encoding the 18 S, 5.8 S, and 26 S ribosomal RNA were conserved among the species investigated, whereas the intergenic spacer region was more variable, presenting different sizes of restriction fragments and enabling a classification of the species. The rye heterochromatin probe pSc 119.2 hybridized to DNA fromH. lechleri andT. bessarabicum, but not to DNA from the other species investigated.     

Changes in rate of RNA synthesis and ribosomal gene number during oogenesis of Drosophila melanogaster.

A new method for separating Drosophila egg chambers into different developmental classes (Jacobs-Lorena and Crippa, 1977) made it possible to study changes in the rate of ribosomal RNA (rRNA), 5S RNA, and tRNA synthesis and the changes in ribosomal gene number during oogenesis. Synthesis of RNA was measured by [³H]uridine incorporation in vivo and subsequent analysis on sucrose gradients or gel electrophoresis. Specific radioactivity of nucleotide pools has also been determined. Ribosomal gene number has been measured by hybridization of egg chamber DNA to rRNA of high specific radioactivity. Our findings led us to conclude that in Drosophila melanogaster: (i) rRNA, 5S RNA, and tRNA are synthesized in all stages of oogenesis. (ii) In every stage, rRNA is the main RNA species synthesized. (iii) The rate of rRNA, 5S RNA, and tRNA synthesis increases greatly during oogenesis and is paralleled by a similar increase in ribosomal gene number resulting from the polyploidization of the nurse cell nuclei.     

Discharge and restitution of secretory material in the rat parotid gland in response to isoproterenol

Summary The sequence of morphological events occurring during discharge and restitution of secretory material in the rat parotid in response to isoproterenol administration has been studied using the electron microscope. With the dose used, discharge of secretory granules began within 5 min following injection and was complete by 40 mim. Intracellular accumulation of normal-appearing secretory material became evident at 6 hours, and restitution of resting quantities of secretory material was achieved between 12 and 18 hours after injection. Cellular events occurring during secretory discharge and restitution are discussed.This project was supported by Training Grant No. 5-Ti-GH-326 and by Predoctoral Research Grant No. 1-F1-GM-32, 528-01, National Institutes of Health. I wish to express my gratitude to Dr. Henry S. di Stefano under whose directorship this project was carried out.     

Hypothalamic neurosecretory activity in relation to the reproductive cycle in the common striped skunk (Mephitis mephitis nigra; order carnivora)

Summary The histological appearance of certain cell groups in the anterior hypothalamus was studied during various phases of the reproductive cycle of the common striped skunk (Mephitis mephitis nigra), a carnivore having a very restricted period of sexual activity. Pronounced changes occur in the amount of stainable neurosecretory material in cells of the supraoptic, paraventricular and anterior hypothalamic nuclei. Material staining with aldehyde fuchsin is stored (or inhibited from being released) in these cells during the sexually quiescent period in both the female and male skunk. The time of approaching sexual activity is characterized by the first signs of release of neurosecretory material from these hypothalamic cells and the peak of estrus and rut coincides with a minimal content of the material.Dedicated to Professor Berta V. Scharrer in honor of her 60th birthday.This study was supported by U.S.P.H.S. Training Grant 5 T 1-GM 102 and Research Grant BN-00840, from the National Institutes of Health. This represents a portion of a dissertation, written under the guidance of the late Professor Ernst Scharrer, and submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy at Yeshiva University, June, 1965. Preliminary reports of this work were presented at the 78th annual session of the American Association of Anatomists, Miami, Florida, and at the VIIIth International Congress of Anatomists, Wiesbaden, Germany, (Hagedoorn, 1965a, b). I thank Dr. H. W. Deane and Dr. J. Osinchak for their critical reading of this manuscipt.