RNA synthesis during early embryogenesis of mass cultured highly synchronized coleopteran embryos

Summary Bruchidius embryos are shown to be well suited for biochemical studies during early embryogenesis. Mass cultivation is easy, and highly synchronized embryos can be obtained in large numbers (10⁴–10⁵ eggs). A method for in vivo incubation is described which allows the labelling of newly synthesized RNA. The kinetics of³H-ruidine uptake, phosphorylation and incorporation into RNA are presented. By autoradiography, the distribution of newly synthesized RNA is shown. Thereby, stage-specific differences were found in the labelling pattern of vitellophage nuclei, of blastoderm nuclei and of the nuclei of pole cells. The labelling of the cytoplasm remains weak until cellular blastoderm is formed. During late blastoderm and at gastrulation this label increases markedly. Gel electrophoresis of isolated RNA shows that at cellular blastoderm formation most of the label occurs in a region between 18 S and 7 S. Later on, at the onset of gastrulation, the³H-uridine incorporation found in isolated RNA is raised about 10 fold and rRNA synthesis becomes prominent. In a chase experiment, the processing of precursor RNA molecules into shorter RNA species, especially into mature rRNA and 5S RNA, is shown. The advantages of theBruchidius embryo for the biochemical analysis of early RNA synthesis and the regulation of rRNA synthesis in insect embryos are discussed.Dedicated to Professor Dr. Dr. h. c. Bernhard Rensch at the occasion of his 80th birthday     

In vitro transcription by isolated nuclei of Rhynchosciara americana salivary glands

A method for the isolation of polytene nuclei from salivary glands cells of the Diptera Rhynchosciara americana is described. The stage-specific morphological pattern of the chromosome is maintained during the isolation. The isolated nuclei show two distinct RNA polymerase activities, namely I and II, characterized on the basis of ionic requirements and -amanitin sensitivity. Studies of the product under the incubation conditions show that the system allows the synthesis of high-molecular weight RNA, beside a low molecular weight peak which may comprise pre-4S and 5S RNAs.-Autoradiographic studies carried out in the presence or absence of the toxin -amanitin showed that micronucleoli contain products of RNA polymerase type I activity (ribosomal RNA) and that the DNA puffs are engaged in -amanitin sensitive RNA synthesis and thus are sites of polymerase type II activity.     

Changes in the amounts of nuclear RNA during interphase in Vicia faba

Variations in the amounts of nuclear RNA present during interphase in Vicia faba were studied by microphotometric, autoradiographic and chemical methods. In one series of experiments, nucleic acid estimations were carried out on root meristem nuclei isolated from cells which had been partially synchronized by treatment with 5-aminouracil at 20 and 25° C. In a second series, root meristem nuclei isolated from untreated plants growing at 4, 20 and 25° C, were separated into fractions, containing different interphase stages, by sucrose density gradient centrifugation. — The results from the two series suggest that at 4 and 20° C there is a net increase in the amount of nuclear RNA during interphase which parallels the net increase in DNA. At 25° C, however, there is less RNA per nucleus and this remains at the same level throughout interphase resulting in an average increase in the DNARNA ratio of 55%. — It is suggested that the balance between the synthesis and release of nuclear RNA may change not only within plants, at different stages of interphase, but also between plants according to the temperature at which they are grown.     

The Necessary Site for Initiation of RNA Synthesis in the 3′-Noncoding Region of Classical Swine Fever Virus Genome

Classical swine fever virus (CSFV) is the causative agent of swine fever, which represents an economically important disease in hogs. We previously made a prediction about the recognition sites of replication initiation of CSFV by using the information content method, and it was predicted that the 21 nucleotides located at the 3 end of the CSFV genome 3UTR were essential to CSFV replication. In this paper, we experimentally studied these 21 nucleotides by site-directed mutagenesis. It was found that the 3UTRs with the 21 nucleotides could initiate RNA synthesis, while the 3UTRs without the 21 nucleotides could not. The 21 nucleotides alone, without the rest of 3UTR, were able to initiate RNA synthesis, though with a slump. Most probably the 21 nucleotides were the necessary site for the CSFV genome replication initiation, and the elements required for sufficient RNA synthesis were in the other part of 3UTR. It was assumed that the CSFV replicase bound to the site and initiated the replication of the CSFV genome. In the 21 nucleotides, it was found that the mutation of position 216 and destruction of the 3 terminus in the 3UTR precluded initiation of RNA synthesis, where the mutation of position 212 did not affect the capacity for initiation of RNA synthesis but attenuated the synthesis of RNA. Among the four mutants of 3UTR at position 219, three proved inactive and one partly active in initiating RNA synthesis. Therefore, it could be concluded that T216 was the most important while T212 was the least important, and that G219 and C228 were also important for RNA synthesis.     

Cytometric analysis of growth-regulator-dependent transcription and cell-cycle progression in Petunia protoplast cultures

Acridine orange simultaneously stains DNA and RNA. Using flow cytometry, synthesis of these nucleic acids can be related throughout a culture time-course. This technique has been used with nuclei isolated from Petunia hybrida protoplasts during 48 h of culture. Nuclear RNA content has been evaluated with respect to DNA levels, namely the cell-cycle phase. Nuclear RNA synthesis was not dependent upon exogeneous hormones during the first 18 h of culture, but either auxin (2,4-dichlorophenoxyacetic acid, 2,4-D) or cytokinin (N⁶-benzyladenine) were necessary for entry into the S phase. Cytokinin alone could stimulate maximal RNA synthesis within each cell-cycle phase up to 24 h. In complete medium, DNA synthesis only began from a phase “G₁B” having substantial RNA, although a subnormal amount of RNA (in protoplasts cultivated only with 2,4-D) did not prevent protoplast entry into the S phase. However, both hormones were necessary for highest RNA levels and G₂ frequencies after 48 h. As in mammalian cells, the mean RNA level in plant 4C nuclei is double that of 2C nuclei. G₂ nuclei are larger than G₁ nuclei, but upon activation G₁ nuclei in fact diminsh in size. This study aimed to identify restriction points in the cell cycle as affected by growth regulators and the specific synthesis of nucleic acids. For example, the RNA levels induced by N⁶-benzyladenine, although similar to those in complete medium, were not sufficient to induce mitosis. Conversely, 2,4-D action was probably limited by low nucleotide synthesis in the absence of cytokinin.     

Activation of ribosomal and messenger RNA synthesis in excised Jerusalem artichoke tuber slices

RNA synthesis was studied in Jerusalem artichoke (Helianthus tuberosus L.) tuber slices immediately following excision and during the early period of aging in water. Incorporation of [³H]adenosine into RNA was detected as early as 20 min after excision. Measurement of the specific activities of RNA (cpm/g) and of ATP showed that RNA synthesis proceeded at a constant rate for the first several hours of aging and then increased moderately. [³H]adenosine was incorporated into polysomes throughout the aging period examined. Sucrose gradient fractionation of EDTA-dissociated polysomes showed that during the first 2 h of aging most of this incorporation was not into ribosome subunits but into presumed mRNA. Autoradiographic analysis of [³H]adenosine labelled nuclei showed that this was caused, at least in part, by a delay in the onset of rRNA synthesis synthesized during this time chromatographed as poly(A)-RNA on oligo(dT)-cellulose, indicating that a large part of the mRNA was not polyadenylated.     

Molecular weights,poly(A)-content,and partial separation of chick globin mRNAs

Poly(A)-containing 9S RNA from chick reticulocytes was electrophoresed on formamide-polyacrylamide gels. The molecular weight was determined to be 211 000±10 000 daltons. The RNA was separated into three different fractions with respect to molecular weight. These RNAs were translated in a wheat germ cell-free system. The lower molecular weight RNA directed up to 95% -chain synthesis, compared to 60% for the higher molecular weight RNA. This was accompanied by a relative increase for -chain synthesis with increasing molecular weight. It could also be shown by hybridization with labelled poly(U) that the average poly(A) length decreased from about 83 nucleotides for fraction I to 36 nucleotides for fraction III. Our results suggest that fractionation of avian 9 S globin mRNA by electrophoresis on formamide-polyacrylamide gels is dependent upon two parameters, namely differences in the lengths of the non-poly(A)-containing portion of the and mRNAs and differences in the poly(A) lengths.     

Quantitative aspects of RNA synthesis in normal and lithium-treated embryos ofXenopus laevis

Summary The treatment ofXenopus early embryos with lithium chloride produces exogastruale — embryos which fail to gastrulate normally and in which the rates of cell division are reduced. In the present study estimations of incorporations of (5-³H) uridine and the specific activities of the 5-ribonucleotide precursor pools showed that exogastrulae have higher rates of RNA synthesis per cell than control neurulae. Sub-cellular fractionations showed that a greater proportion of labelled RNA was retained in the nuclei of exogastrulae than of neurulae, while neurulae showed a greater incorporation into polysomes.     

Organellar DNA synthesis in permeabilized soybean cells

Summary Cultured cells of Glycine max (L.) Merr. v. Corsoy were permeabilized by treatment with L--lysophosphatidylcholine (LPC). The permeabilized cells were capable of uptake and incorporation of deoxynucleoside triphosphates into DNA. Incorporation of exogenous nucleotides into DNA was linear for at least 90 minutes and the initial rate of incorporation approached 50% of the theoretical in vivo rate of DNA synthesis. However, DNA synthesis in the permeabilized cells was unaffected by the potent DNA polymerase inhibitor, aphidicolin. Analysis of newly synthesized DNA by molecular hybridization revealed that only organellar DNA was synthesized by the permeabilized cells. The LPC treated cells were also permeable to a protein as large as DNase I. The permeabilized cells were capable of RNA and protein synthesis as indicated by incorporation of radiolabeled UTP and leucine, respectively, into acid-precipitable material.     

Analysis of the cell cycle in an arbuscular mycorrhizal fungus by flow cytometry and bromodeoxyuridine labelling

Summary The cell cycle of an arbuscular mycorrhizal fungus,Glomus versiforme, was determined by flow cytometric analysis of nuclei isolated from spores and mycorrhizal roots of leek, and by immunogold staining after bromodeoxyuridine (BrdU) uptake by DNA. The aims of our work were to establish: (i) whether there are changes in ploidy during fungal growth and morphogenesis, (ii) when and where the cell cycle is activated. Our results demonstrate that nuclei isolated from quiescent spores ofG. versiforme are arrested in the GO/G1 phase (99.2%), whereas fungal nuclei from mycorrhizal roots are in the synthetic (S) (10.1%) and G2/M phase (3.9%). Nuclei undergoing DNA synthesis were detected in situ after BrdU uptake. Labelled nuclei were observed in intercellular hyphae and in large arbuscular trunks. This paper demonstrates that colonization of an arbuscular mycorrhizal fungus is linked to activation of its cell cycle.Abbreviations AM fungi arbuscular mycorrhizal fungi - BrdU 5-bromo-2-deoxyuridine - PI propidium iodide - DAPI 4,6-diamidino-2-phenylindole     

Effect of phytohormones on nuclear RNA synthesis in germinating seeds ofTrigonella foenumgraeceum and its callus

Treatment ofTrigonella foenumgraeceum (fenugreek) seedlings with naphthalene acetic acid plus gibberellic acid enhanced the RNA synthesising capacity of nuclei isolated from the hypocotyl and cotyledonary regions. This increase was more pronounced in the nuclei from the hypocotyl region than from the cotyledonary region.In vitro addition of these phytohormones did not stimulate RNA synthesis by nuclei. The RNA synthesis by mitochondria was not affected by preincubating the seedlings with the hormones. The nuclei isolated from callus cultures of fenugreek hypocotyl treated with the hormone also showed increased RNA synthesis.     

Molecular cloning,characterization and expression of Mn-superoxide dismutase from the rubber tree (Hevea brasiliensis)

The gene and the RNA from Arabidopsis thaliana for the plastid-located glycerol-3-phosphate acyltransferase (GPAT; EC 2.3.1.15) and their encoded product have been studied. The gene (designated ATS1) was isolated by screening a DASH genomic library for cross-hybridization with a radiolabeled probe prepared from cDNA for GPAT from squash. cDNA clones representing the mRNA were isolated by screening a ZAPII cDNA library for hybridization with a radiolabeled probe prepared from a DNA fragment of ATS1. The nucleotide sequences of the gene and the cDNA were determined, and the 5 end of the RNA was mapped by primer extension. Sequences similar to the TATA box, polyadenylation sequences and intron-splicing sequences were found at the expected locations. The pre-mRNA was 3288 nucleotides long and contained 5 and 3-untranslated sequences of 57 and 442 nucleotides, respectively. The coding sequence of 1377 nucleotides was interrupted by 11 introns of 1412 nucleotides in total and the 3-untranslated sequence contained another intron of 94 nucleotides. The open-reading frame encoded a polypeptide of 459 amino acid residues, the amino acid sequence of which was highly homologous to those of precursors to plastid-located GPATs from squash and pea. The enzymatic activity of a gene product that was over-produced in Escherichia coli confirmed the indentity of the gene.Abbreviations ACP acyl carrier protein - GPAT glycerol-3-phosphate acyltransferase - IPTG isopropyl--thiogalactopyranoside.     

Novel sporophyte-like plants are regenerated from protoplasts fused between sporophytic and gametophytic protoplasts of<Emphasis Type="Italic"> Bryopsis plumosa</Emphasis>

Protoplasts of the marine coenocytic macrophyte Bryopsis plumosa (Hudson) C. Agardh. [Caulerpales] can easily be obtained by cutting gametophytes or sporophytes with sharp scissors. When a protoplast isolated from a gametophyte was fused with a protoplast isolated from a sporophyte of this alga, it germinated and developed into either one of two completely different forms. One plant form, named Type G, appeared quite similar to a gametophyte, and the other, named Type S, looked similar to a sporophyte. While the Type G plant contained many small nuclei of gametophyte origin together with a single giant nucleus of sporophyte origin, the Type S plant contained many large nuclei of uniform size. These large nuclei in the Type S plant had metamorphosed from the gametophytic nuclei, and were not formed through division of the giant nucleus of sporophyte origin. Fragments of the Type S plant, each having such a large nucleus, developed into creeping filaments that look very similar to sporophytes. While cell walls of gametophytes and Type G plants were stained by Congo-red, those of the thalli of regenerated Type S plants and sporophytes were not stained by the dye. This indicated that the large nuclei of the Type S plant did not express genes for xylan synthesis, which are characteristic of gametophytes. Two-dimensional gel electrophoretic analysis revealed that most of the proteins synthesized in the Type S plant were identical to those of sporophytes. These results strongly suggest that in the Type S plant, the gametophytic nuclei are transformed into sporophyte-like nuclei by an unknown factor(s) produced by the giant nucleus of sporophyte origin and that the transformed nuclei express the set of genes characteristic of sporophytes. Despite morphological similarity, however, the regenerated Type S plant could not produce zoospores, because its large nuclei did not divide normally. The transformed large nuclei of gametophyte origin still seemed to be in the haploid state.Abbreviations DAPI 4,6-Diamidino-2-phenylindole - DIC Differential interference contrast - IEF Isoelectric focusing - PES Provasolis enriched seawater     

Zur Lokalisation der α-Amanitin sensitiven RNA-Polymerase in Zellkernen von Acetabularia

Summary An isolation medium for nuclei of Acetabularia mediterranea is described. The medium offers the possibility to keep nuclei alive (verified by reimplantation) for at least 10 min and to obtain nuclei with radioactively labelled RNA.The influence of -amanitin on nucleolar and nucleoplasmatic RNA-synthesis is investigated autoradiographically. Amanitin inhibits the incorporation of uridine into the nucleoplasmatic RNA, whereas incorporation into the RNA of nucleoli is hardly or not at all influenced.We conclude that, in agreement with findings on animal cells, -amanitin inhibits at least one of the RNA-polymerases localized in the nucleoplasm but does not markedly influence the RNA-polymerase of the nucleoli.     

Replication of polyoma DNA in isolated nuclei. VII. Initiator RNA synthesis during nucleotide depletion.

Earlier experiments demonstrated that the Okazaki fragments synthesized during discontinuous polyoma DNA synthesis in isolated nuclei at their 5′ ends contained structural elements consisting of polyribonucleotides starting with ATP or GTP (Reichard et al., 1974). These structures could be released by digestion with pancreatic DNAase and were named initiator RNA. They consist of a large family of polyribonucleotides differing in base sequence but having a common size of about a decanucleotide. We now demonstrate that limitation of DNA synthesis by low concentrations of deoxyribonucleoside triphosphates in parallel limits the synthesis of initiator RNA. This is additional evidence for the primer function of initiator RNA. When ribonucleoside triphosphates other than ATP were deleted from the incubation medium only a small decrease of DNA and initiator RNA synthesis occurred. Under those conditions deoxyribonucleotides substituted for ribonucleotides and were incorporated internally into the primer. From this result as well as the insensitivity of initiator RNA synthesis to α-amanitin (Reichard &; Eliasson, 1979) we suggest that a mammalian counterpart to primase, the dnaG gene product of Escherichia coli(Rowen &; Kornberg, 1978a), catalyzes the synthesis of initiator RNA.     

The fine structure of isolated Acetabularia nuclei

Summary Acetabularia nuclei were isolated in solutions of sucrose and fixed, dehydrated and embedded for electron microscopy using a number of techniques. The dimensions of the nucleic changed during all the procedures used, but the addition of calcium to the fixative prevented swelling. The structure observed in isolated nuclei was in good agreement with that seen in nuclei in intact cells and amputated rhizoids. A layer of cytoplasm about 0.1 thick was found on the outside of even the cleanest nuclei — this layer probably gives the nucleus protection when it is isolated.     

An operational RNA code for amino acids and variations in critical nucleotide sequences in evolution

An operational RNA code relates specific amino acids to sequences/structures in RNA hairpin helices which reconstruct the seven-base-pair acceptor stems of transfer RNAs. These RNA oligonucleotides are aminoacylated by aminoacyl tRNA synthetases. The specificity and efficiency of aminoacylation are generally determined by three or four nucleotides which are near the site of amino acid attachment. These specificity-determining nucleotides include the so-called discriminator base and one or two base pairs within the first four base pairs of the helix. With three examples considered here, nucleotide sequence variations between the eubacterial E. coli tRNA acceptor stems and their human cytoplasmic and mitochondrial counterparts are shown to include changes of some of the nucleotides known to be essential for aminoacylation by the cognate E. coli enzymes. If the general locations of the specificity-determining nucleotides are the same in E. coli and human RNAs, these RNA sequence variations imply a similar covariation in sequences/structures of the E. coli and human tRNA synthetases. These covariations would reflect the integral relationship between the operational RNA code and the design and evolution of tRNA synthetases.Based on part of a presentation made at a workshop- Aminoacyl-tRNA Synthetases and the Evolution of the Genetic Code-held at Berkeley, CA, July 17–20, 1994