Rapidly-labelled RNA species isolated from cell suspensions ofDaucus carota

Summary Carrot cells in suspension culture were incubated during the log-phase of the culture transfer cycle for different periods with one of the following precursors of nucleic acid synthesis: [^32P]-orthophosphate, [5,6-³H]-uridine, and [2-¹⁴C]-uridine. Cells were gently broken by a short period of sonication, and the total RNA of the cells was extracted by a phenoldetergent method at pH 9.0. Subsequently, crude RNA was purified from contaminating substances like carbohydrates and nucleotides, and the pure RNA preparations were characterized by MAK-chromatography and constant velocity sedimentation in isokinetic sucrose gradients.Rapidly-labelled RNA-fractions were detected in the radioactive profiles obtained with both separation methods. These RNA-fractions showed a high specific incorporation rate, but almost no detectable UV-absorbance,i.e., they are RNA species with a high turnover rate and represent only a small part of the total RNA of the cell. With increasing periods of labelling and in a series of pulse-chase experiments high molecular weight RNA-fractions released by high-salt washing of MAK-columns exhibited a shift of the incorporated radioactivity from fractions with higher to those of lower molecular weights. Furthermore, in sucrose gradients a similar shift was observed for RNA-fractions with estimated sedimentation coefficients of 50 S, 40 S, 34 S and 22 S; the radioactivity was converted from these high to the low S-values of the 26 S and 18 S rRNAs, respectively. This parallel in the behaviour of the high molecular weight RNA-fractions from both separation methods indicates their putative role as precursors of rRNA-synthesis. Moreover, there is evidence that the high molecular weight RNA-fractions from the MAK-columns which were eluted after the 26 S rRNA consist not only of the precursors of rRNAs, but also of polydisperse RNA-fractions with S-values smaller than 18 S. These probably contain fractions of HnRNA and mRNA.     

Intracellular distribution of low molecular weight RNA in Chironomus tentans

Low molecular weight RNA species are described in isolated nuclear components and cytoplasm of salivary gland cells of Chironomus tentans. In addition to 4S and 5S RNA and RNA in the 4–5S range previously described, at least three other components in the range below 16S are present. RNA, the molecular weight of which was estimated to 2.3 x 10⁵ and designed 10S RNA, can be observed only in nucleoli; other RNA, the molecular weight of which was estimated to 1.3 x 10⁵ and designed 8S RNA, was detected in the chromosomes, the nuclear sap, and the cytoplasm but not in the nucleoli; and a third type of RNA, the molecular weight of which was estimated to 8.5 x 10⁴ and designed 7S RNA, was present in nucleoli, chromosomes, nuclear sap, and cytoplasm. The substituted benzimidazole, 5,6-dichloro-1 (β-D-ribofuranosyl)benzimidazole (DRB), which gives a differential inhibition of the labeling of heterodisperse, mainly high molecular weight RNA in the chromosomes, does not inhibit the labeling of 8S RNA. The relative amounts of label in 8S RNA and 4–5S RNA (including 4S RNA and 5S RNA) in different isolated chromosomes, are distributed in proportion to the chromosomal DNA contents. The 8S RNA as well as the 7S RNA show a relative accumulation in chromosomes and nuclear sap with prolonged incubation time and are in this respect similar to intranuclear low molecular weight RNA species described by previous workers. Our data suggest, however, that these two types of RNA may differ in an important aspect from the previously described types since they are also present in the cytoplasm.     

Characterization of RNA synthesis in mid-pachytene spermatocytes of the rat

In this paper the RNA synthesis in mid-pachytene spermatocytes of the rat has been studied. The results show that RNA synthesized by these cells is mostly high molecular weight RNA comparable to HnRNA of somatic cells. In comparison with the rapid metabolism of HnRNA in somatic cells, HnRNA in pachytene spermatocytes is stable and remains in the nucleus for a considerable time. About 30% of this HnRNA contains a poly(A) sequence, although no difference in the rate of metabolism between poly(A)+ and poly(A)− RNA was observed. Based on these results it is suggested that at least a part of the RNA which is synthesized by pachytene spermatocytes is stored in the cells and utilized later during spermatogenesis when the RNA synthesis of the spermatids ceases, but protein synthesis is still active for about 2 weeks.     

Localization of newly synthesized low molecular weight RNA in polytene chromosomes fromChironomus tentans

In salivary glands fromChironomus tentans incubatedin vitro the labeling in the polytene chromosomes of high molecular weight, heterogeneous RNA is selectively inhibited by a substituted benzimidazole (DRB) while low molecular weight RNA remains labelled. The main component of the latter fraction is RNA in the 4–5 S range which has many properties in common with transfer RNA or a precursor to transfer RNA. Inhibited glands display a changed autoradiographic labeling pattern in the chromosomes as compared to controls after administration of tritiated uridinein vitro. The majority of the bands which normally incorporate precursors are not labeled during DRB treatment. The investigation was focussed on chromosome I comprising 30% of the whole genome. Here usually five bands show strong precursor incorporation although all of them are not constantly labeled. A few other bands may also take up label after DRB treatment but less frequently. It is concluded that at least the majority of the bands which are strongly labeled during DRB treatment are likely to contain RNA with properties similar to transfer RNA.     

Nucleic acid synthesis and effect of glucose on its kinetics in cotyledons ofChenopodium rubrum l. during photoperiodic induction

In cotyledons ofChenopodium rubrum L. polydisperse RNA is synthesized in the region of the low molecular weight RNAs during photoperiodic induction. After short-time labelling the rate of 4s RNA synthesis was always higher in induced plants than in plants having obtained a light-break in the middle of the dark period. When glucose was added to the nutrient medium during the dark period of a single photoperiodic cycle the rate of nucleic acid (NA) synthesis was higher in non-induced plants than in induced ones at the termination of the dark period. In plants induced by two cycles in the absence of glucose the rate of NA synthesis at the termination of the second dark period was higher in induced than in non-induced plants. This difference is due to the differential kinetics of NA synthesis during darkness. In plants induced in the presence of glucose the peak of the rhythm in NA synthesis was advanced by 4 h relative to that found in plants induced in the absence of sugar. Thus, the termination of the dark period coincided with the negative slope of the oscillation in plants induced in the presence of glucose, while in plants having obtained a light-break NA synthesis decreased only slightly after having attained its peak. In plants induced in the absence of glucose the termination of the dark period coincided with the peak in the rhythm in NA synthesis. The rhythm in NA synthesis of the cotyledons during the dark period of an inductive cycle is out of phase with the rhythm in flower initiation.     

The location of 5S (ribosomal) RNA genes in Drosophila hydei

The location of the 5S ribosomal RNA cistrons in band 2-23B1,2 of the polytene (salivary gland) chromosomes of Drosophila hydei was indicated by in situ hybridization of tritiated low molecular weight RNA fractionated from total in vivo synthesized larval RNA or from in vitro synthesized salivary gland RNA and competition of the hybridization of this RNA by 5S RNA obtained from calf lens ribosomes. -- At the submicroscopic level, band 2-23B1,2 in salivary gland chromosomes shows a compact organization. The adjacent region, 23B2, is slightly puffed and displays typical RNP particles, some of which may be observed close to band 2-23B1,2.     

IN SITU DEMONSTRATION OF DNA HYBRIDIZING WITH CHROMOSOMAL AND NUCLEAR SAP RNA IN CHIRONOMUS TENTANS

Cytological hybridization combined with microdissection of Chironomus tentans salivary gland cells was used to locate DNA complementary to newly synthesized RNA from chromosomes and nuclear sap and from a single chromosomal puff, the Balbiani ring 2 (BR 2). Salivary glands were incubated with tritiated nucleosides. The labeled RNA was extracted from microdissected nuclei and hybridized to denatured squash preparations of salivary gland cells under conditions which primarily allow repeated sequences to interact. The bound RNA, resistant to ribonuclease treatment, was detected radioautographically. It was found that BR 2 RNA hybridizes specifically with the BR 2 region of chromosome IV. Nuclear sap RNA was fractionated into high and low molecular-weight RNA; the former hybridizes with the BR 2 region of chromosome IV, the latter in a diffuse distribution over the whole chromosome set. RNA from chromosome I hybridizes diffusely with all chromosomes. Nucleolar RNA hybridizes specifically with the nucleolar organizers, contained in chromosomes II and III. It is concluded that the BR 2 region of chromosome IV contains repeated DNA sequences and that nuclear sap contains BR 2 RNA.     

The activity of platelet activating factor-acetyl hydrolase (PAF-AH) in the salivary glands of Rhodnius prolixus

In this work, we investigated the activity of the platelet activating factor acetyl hydrolase (PAF-AH) in the salivary gland homogenates and saliva of Rhodnius prolixus. PAF-AH activity in the salivary gland homogenates was lower than in the saliva. Preliminary characterization of the enzyme demonstrated that it hydrolyzed the substrate 2-thio-PAF, was detectable just in 1 pair of salivary gland homogenates in 0.5 ml buffer, and was stable under different conditions. PMSF, TPCK, TLCK, pepstatin A and p-BPB all inhibited the PAF-AH activity. Enzyme specific activity in salivary gland homogenates diminished immediately after feeding of 5th-instar larvae, and increased before feeding by adult insects. 2-Thio-PAF induced platelet-aggregation that was inhibited by previous incubation of the substrate with salivary gland homogenates or saliva. The relevance of PAF-AH for providing Rhodnius with a feeding mechanism for facilitating the sucking of a high volume of blood meal in a short period is discussed.     

Nucleoprotein methylation in salivary gland chromosomes of Sciara coprophila: Correlation with DNA synthesis

Methylation and ethylation of chromosomal nucleoproteins have been demonstrated in the salivary glands of Sciara coprophila larvae. A difference in grain distribution pattern was observed between chromosomes incubated in ³H-methyl-methionine and ³H-ethyl-ethionine. Like DNA synthesis, methylation could only be demonstrated at certain developmental stages, and during some of these a close correlation was observed between labelling patterns following ³H-methyl-methionine and ³H-thymidine in separated gland pairs. No such correlation was observed with RNA synthesis. Ethylation of chromosomal non-histone protein could not be correlated with nucleic acid biosynthesis. Feeding ethionine during larval development produced similar nucleolar abnormalities to those previously described in rat liver nucleoli.     

Spezifische Aktivitätssteigerung eines Balbianiringes durch Mg2+ in isolierten Zellkernen von Chironomus

Mg²⁺ induces in isolated salivary gland nuclei of Chironomus thummi and Ch. tentans a specific enlargement of one Balbiani ring, whereas Na⁺ or K⁺ do not. Incorporation of ³H-uridin suggests that this specific enlargement is a sign of increased RNA synthesis of this chromosome region. Based on recent studies on the structure and function of Balbiani rings a model is proposed to explain the mechanism by which Mg²⁺ differentially influences chromosomal RNA synthesis.     

NUCLEOLAR-DERIVED RIBONUCLEIC ACID IN CHROMOSOMES, NUCLEAR SAP, AND CYTOPLASM OF CHIRONOMUS TENTANS SALIVARY GLAND CELLS

The distribution of monodisperse high molecular weight RNA (38, 30, 28, 23, and 18S RNA) was studied in the salivary gland cells of Chironomus tentans. RNA labeled in vitro and in vivo with tritiated cytidine and uridine was isolated from microdissected nucleoli, chromosomes, nuclear sap, and cytoplasm and analyzed by electrophoresis on agarose-acrylamide composite gels. As shown earlier, the nucleoli contain labeled 38, 30, and 23S RNA. In the chromosomes, labeled 18S RNA was found in addition to the 30 and 23S RNA previously reported. The nuclear sap contains labeled 30 and 18S RNA, and the cytoplasm labeled 28 and 18S RNA. On the basis of the present and earlier analyses, it was concluded that the chromosomal monodisperse high molecular weight RNA fractions (a) show a genuine chromosomal localization and are not due to unspecific contamination, (b) are not artefacts caused by in vitro conditions, but are present also in vivo, and (c) are very likely related to nucleolar and cytoplasmic (pre)ribosomal RNA. The 30 and 23S RNA components are likely to be precursors to 28 and 18S ribosomal RNA. The order of appearance of the monodisperse high molecular weight RNA fractions in the nucleus is in turn and order: (a) nucleolus, (b) chromosomes, and (c) nuclear sap. Since both 23 and 18S RNA are present in the chromosomes, the conversion to 18S RNA may take place there. On the other hand, 30S RNA is only found in the nucleus while 28S RNA can only be detected in the cytoplasm, suggesting that this conversion takes place in connection with the exit of the molecule from the nucleus.     

Effect of neuromediating and neuroblockading hormones on the RNA synthesis in the rat liver nucleus

It was shown that rRNA and HnRNA synthesis in rat liver nuclei does not change-within 30 min after intraperitoneal injection of acetylcholine (0.005 mg per 100 g of body weight) but decreases after injection of norepinephrine and epinephrine (0.05 mg per 100 g of body weight). The synthesis of rRNA (but not of HnRNA) increases after injection of hydrocortisone (2,5 mg per 100 g of body weight). The synthesis of HnRNA (but not of rRNA) increases after injection of ACTH1-24 (3 ME per 100 g of body weight) and oxytocin (1 ME per 100 g of body weight). The synthesis of rRNA decreases after injection of propranolol and atropine (0.5 mg per 100 g of body weight). At the same time, the synthesis of HnRNA does not change thereby. The inhibitory effect of propranolol and atropine was corrected by electrostimulation of hypothalamus. The content of cAMP and Ca2+ and the phosphorylation degree of nuclear proteins are increased after stimulation of hypothalamus. The phosphorylation of nuclear proteins is increased by 10(-8)-10(-6) M cAMP. The synthesis of RNA in liver nuclei is increased by 10(-6) M cAMP only after addition of cytosol. In this case the activity of RNA-polymerase II increases in a greater degree than that of RNA-polymerase I + III. It is assumed that the regulatory mechanisms of rRNA and HnRNA synthesis are different. The role of hypothalamus electrostimulation, neurotransmitters, hormones, and cAMP in the mechanisms of RNA synthesis in rat liver nuclei is discussed.     

The behaviour of heterogeneous nuclear ribonucleic acid in partially and completely denaturing conditions

It is shown that the heterogeneous nuclear RNA (HnRNA) synthesized in the presence of actinomycin and at low and high temperatures sediments in low-ionic-strength sucrose gradients between the rRNA components, similar to the unmethylated RNA synthesized under ;step-down' conditions. If the ionic strength is increased then the HnRNA sediments more rapidly than 28S rRNA, with a large proportion about the 45S precursor rRNA position. Initially this was thought to be due to aggregation of the HnRNA; however, centrifugation and electrophoresis in completely denaturing conditions suggest that the molecular weight of this species of RNA is very large The experiments reveal that HnRNA is conformationally unstable relative to the nucleolar RNA and that the slower sedimentation rate of HnRNA in 5mm-EDTA-Tris base-sucrose gradients reflects the greater expansion of the HnRNA relative to the nucleolar RNA. The implications of this finding are discussed.     

Cell-specific synthesis and glycosylation of secretory proteins in larval salivary glands of Chironomus thummi

Synthesis and glycosylation of larval salivary gland secretory proteins of Chironomus thummi were analyzed with respect to cell specific differences in the Balbiani ring (BR) pattern and glycoprotein composition of secretion formerly detected by histochemical staining procedures. In the secretion of a special cell type in salivary glands, which is characterized by the appearance of an additional BR, an additional polypeptide with a relative molecular weight (M_r) of 160 kD was found differing in its antigenic properties and tryptic fingerprint pattern from main cell secretion proteins. This so-called ssp-160 component is preferentially synthesized and glycosylated in the special cells. In the same cells, both the synthesis and glycosylation of all other major secretory proteins was found to be diminished or even repressed. In contrast to the conspicuous cell-specific differences at the level of protein synthesis, RNA analyses show the prominent synthesis of 75 S RNA in both main and special cells and gave no clear indication of the synthesis of a smaller RNA fraction as expected from the size of ssp-160 component. — These and further data on synthesis and properties of secretory proteins as well as expression of BR DNA are discussed with regard to the assumption that at least some of the eight major secretory polypeptides are coded for by BR DNA. The BR gene(s) might have originated by manifold duplications and modifications of short repetitive prototype DNA sequences, which are coordinatively expressed.On the occasion of the 60th anniversary of his birth-day we wish to dedicate this paper to Professor Wolfgang Beermann who was the first to detect, by the discovery of cell specific expression of BR 4 of Chironomus pallidivittatus salivary gland chromosomes and the concomitant occurrence of cell specific secretion granules, a causual relationship between the activity of a Balbiani ring and the appearance of a secretion component (Beermann, 1961)addressee for reprint requests     

THE ACTION OF α-AMANITIN ON RNA SYNTHESIS IN CHINESE HAMSTER OVARY CELLS : Ultrastructural and Biochemical Studies

α-Amanitin acts in vitro as a selective inhibitor of the nucleoplasmic form B RNA polymerases. Treatment of Chinese hamster ovary (CHO) cells with this drug leads principally to a severe fragmentation of the nucleoli. While the ultrastructural lesions induced by α-amanitin in CHO cells and in rat or mouse liver are quite similar, the results diverge concerning the effect on RNA synthesis. It has been shown that in rat or mouse liver α-amanitin blocks both extranucleolar and nucleolar RNA synthesis. Our autoradiographic and biochemical evidence indicates that in CHO cells high molecular weight extranucleolar RNA synthesis (HnRNA) is blocked by the α-amanitin treatment, whereas nucleolar RNA (preribosomal RNA) synthesis remains unaffected even several hours after the inhibition of extranucleolar RNA synthesis. Furthermore, the processing of this RNA as well as its transport to the cytoplasm seem only slightly affected by the treatment. Finally, under these conditions, the synthesis of the low molecular RNA species (4–5S) still occurs, though less actively. The results are interpreted as evidence for a selective impairment of HnRNA synthesis by α-amanitin in CHO cells.