Nucleolar and nucleoplasmic RNA polymerase activity in different regions of rat brain during postnatal development.

RNA polymerase activities of whole nuclei, of isolated and purified nucleoli and of the nucleoplasmic fractions obtained from cerebral hemispheres, cerebellum and brain stem of rat at different days of postnatal development have been determined. In the whole nuclei the fraction of RNA polymerase which is sensitive to alpha-amanitin, is strongly affected by salt concentration; at low ionic strength most of the activity is resistant to the drug while at high ionic strength the enzymatic activity shows a greater sensitivity to the drug. In isolated nucleoli RNA synthesis is not inhibited at all by alpha-amanitin. The biosynthesis of RNA, at low ionic strength, is inhibited by low doses of actinomycin D, whereas at high ionic strength it is remarkably inhibited only by higher doses of the drug. The sensitivity of the reaction to alpha-amanitin and actinomycin D provide good evidence that UTP or GTP incorporation into RNA in purified nuclei and nucleoli, is dependent on RNA polymerases acting on DNA template and is not dependent on homopolymer formation. These results show that in the whole brain nuclei at low ionic strength there is a preferential synthesis of rRNA, whereas at high ionic strength the synthesis of heterogenous RNA predominates. In isolated nucleoli the synthesis of RNA is restricted to rRNA.     

Synthesis of messenger RNA-like molecules in isolated myeloma nuclei.

Nuclei isolated from mouse myeloma cells grown in tissue culture are capable of synthesizing RNA for prolonged periods of time. Addition of cytoplasmic extracts to the system stimulates slightly the rate and prolongs the time of synthesis. As judges by sedimentation in SDS and in formamide gradients, the size of the RNA synthesized is heterogeneous from smaller than 10S to larger than 45S, thus resembling in vivo made RNA. The characteristics of some of the RNA are in keeping with those expected to be for mRNA. Fifty percent of the RNA synthesis is sensitive to alpha-amanitin. After an incubation of two hours in the absence of alpha-amanitin about 10 percent of the newly synthesized RNA is found outside of the nuclei; it sediments with a broad distribution at 18S. A considerable fraction of the RNA that is released from nuclei in vitro can promote the formation of polyribosomes, and contains molecules that are polyadenylated and "capped".     

Analysis of RNA synthesized in isolated nuclei of Ehrlich ascites tumor cells

The molecular size and poly-A content of RNA synthesized in isolated nuclei of Ehrlich ascites tumor cells were measured. KCl was found to be essential for synthesis of high molecular weight RNA: when 0.4 M KCl was added to the reaction mixture, the average molecular size of the RNA formed was 14S; without KCl the average molecular size was 5S. A significant amount of poly-A sequences was found in RNA synthesized in the presence of alpha-amanitin, suggesting that RNA polymerase I and/or III may synthesized some RNA containing poly-A in isolated nuclei.     

Effect of an exotoxin from Bacillus thuringiensis on Deoxyribonucleic acid-dependent ribonucleic acid polymerase in nuclei from adult Sarcophaga bullata. Unusual behaviour of eukaryotic polymerases to inhibitors

The DNA-dependent RNA polymerase activities in nuclei isolated from adult Sarcophaga bullata are unusual in their responses to metal ions, ionic strength and inhibitors. There is an activity that is sensitive both to rifamycin and to alpha-amanitin. The activity is less sensitive to Bacillus thuringiensis exotoxin than is larval polymerase, and low concentration of exotoxin provoke a slight stimulation.     

Transcription of specific genes in isolated nuclei from HeLa cells in vitro.

Isolated HeLa cell nuclei were employed to catalyze the synthesis of RNA in vitro. In the presence of low concentrations of alpha-amanitin (1 mug/ml), used to suppress the formation heterogeneous nRNA, these nuclei synthesize RNA very efficiently for extended periods of time (at least 60 min) at an elongation rate of about seven nucleotides per second. The product, analyzed on sucrose density gradients and polyacrylamide gels was found to exist of two predominant size classes. Synthesis of the 45-S ribosomal precursor was completely resistant even to high concentrations of alpha-amanitin (150 mug/ml) and hence was catalyzed by enzyme A (or I). A limited degree of processing of the 45-S precursor occurred in vitro. In addition, a second RNA class of low molecular weight (4-8 S) was synthesized by HeLa cell nuclei in the presence of 1 mug/ml alpha-amanitin in vitro. Analysis on 8% polyacrylamide gels resolved the RNA into four distinct components. Their synthesis was resistant to low (1 mug/ml) but clearly sensitive to high (150 mug/ml) concentrations of alpha-amanitin. Consequently the synthesis of all these small-molecular-weight RNA species is catalyzed by RNA polymerase C (or III). For the assessment of the initiation frequency of the individual classes of RNA, a new technique was developed independent of labelling the 5' end of the RNA molecule with the gamma-phosphate of the initiating nucleotide. It employs the double labelling of an RNA molecule with two different isotopes added sequentially at different stages of completion of the chain. From the incorporation ratio of the two isotopes into a particular class of RNA, conclusions can be drawn concerning their initiation frequency. The results obtained have shown a high reinitiation frequency for the small-molecular-weight RNA species at all stages of the incubation reaction. In contrast, reinitiation of the 45-S precursor RNA occurs only to a limited extent in isolated HeLa cell nuclei in vitro.     

Vaccinia virus RNA polymerase associated with nuclei of infected HeLa cells.

Though vaccinia virus DNA and RNA replication take place predominantly in the cytoplasm of an infected cell, virus formation requires the presence of a functional nucleus in a yet undefined manner. When the nuclei from cells infected for 3 h are isolated and purified, they are found to synthesize five times more RNA in vitro than do corresponding nuclei from noninfected cells. Fifty percent of the RNA synthesized in vitro by nuclei from infected cells is vaccinia specific, and this vaccinia RNA synthesis is resistant to alpha-amanitin concentrations up to 100 micrograms/ml. Furthermore, when the RNA polymerase activities of these nuclei are separated on DEAE-Sephadex columns, 56% of the total nuclear enzyme activity is found to be the vaccinia-specific RNA polymerase known to be alpha-amanitin resistant. The nucleus associated vaccinia RNA polymerase represents 18% of the total cellular vaccinia RNA polymerase. This synthesis of vaccinia RNA in the nucleus may explain the nuclear requirement for vaccinia virus maturation.     

Transcription in Isolated Wheat Nuclei: II. CHARACTERIZATION OF RNA SYNTHESIZED IN VITRO

Nuclei free of RNase activity were isolated from 3-hour-imbibed wheat (var. Yamhill) embryos by centrifugation through a discontinuous gradient of Percoll. The maximum rate of RNA synthesis observed in these nuclei was approximately 5 picomoles [(3)H]UTP per milligram DNA per minute. Two monovalent cation optima were found when measured in the presence of 15 millimolar MgCl(2) or 2 millimolar MnCl(2); 15 and 75 millimolar (NH(4))(2)SO(4). At the high monovalent cation optimum, the rate of RNA synthesis was linear for the first 10 to 15 minutes of incubation and still increasing after 3 hours. RNA synthesized in vitro (30-minute pulse followed by a 30-minute chase) showed distinct 18 and 26S RNA peaks comprising 13 and 17% of the total radioactivity, respectively. The over-all pattern of RNA synthesized in vitro was similar to the in vivo pattern. Approximately 40 to 50% of the RNA synthesized was inhibited by alpha-amanitin at 4 micrograms per milliliter. The newly synthesized 6 to 10S RNA appeared to be selectively inhibited by alpha-amanitin.     

The effects of oestradiol-17beta on the ribonucleic acid polymerases of immature rabbit uterus.

Measurements of the endogenous RNA polymerase activities of nuclei isolated from immature rabbit uteri have shown that prior treatment of the animals with oestradiol-17beta has a profound effect on the apparent activities of both RNA polymerases A and B. Within 1 h of hormone treatment, the activity of RNA polymerase A is increased and continues to rise until about 4h when it reaches a plateau and remains steady until at least 8h. The activity of RNA polymerase B increases sharply after oestradiol treatment reaching an early maximum at 30-45 min. Thereafter this activity declines until by 1-2h it approaches control values but a second increase in activity then occurs with a maximum at 3-4h. Treatment of the rabbits with alpha-amanitin before the administration of oestradiol inhibits the hormone-induced stimulation of RNA polymerase A activity in isolated nuclei but when the administration of alpha-amanitin is delayed until after the early rise of RNA polymerase B activity, the oestradiol-induced stimulation of RNA polymerase A is retained. Similar results have been obtained in experiments with cycloheximide suggesting that the stimulation of RNA polymerase A activity by oestradiol is dependent on the hormone-induced stimulation of RNA polymerase B and the subsequent synthesis of protein using the RNA product of the early increase in RNA polymerase B activity. Measurement of the activities of RNA polymerases A and B after isolation of the enzymes from immature rabbit uterine nuclei before and after oestradiol treatment failed to show any differences. Therefore it would appear that the changes in the observed activities of RNA polymerases A and B in isolated nuclei are consequences of changes in the structure and function of chromatin rather than the results of modifications in the RNA polymerases themselves.     

Adrenocorticotropic hormone stimulation of adrenal RNA polymerase I and III activities. Nucleotide incorporation into internal positions and 3' chain termini.

In the presence of 50 mM (NH4)2SO4 and low concentrations of alpha-amanitin (7.7 mug/ml), adrenal nuclei synthesize predominately rRNA as characterized by size and base composition. Approximately 10% of the RNA synthesized under these conditions sediments at 4-5 S; this RNA synthesizing activity is inhibited by high concentrations of alpha-amanitin (231 mug/ml) indicating the presence of RNA polymerase III activity. ACTH administration to guinea pigs results in a twofold increase in adrenal nuclear RNA polymerase I and III activities at 14 hr of hormone treatment. Analysis of the amount of radiolabeled nucleoside triphosphate incorporated in vitro into 3' chain termini and into internal nucleotide positions has been utilized to measure the number of RNA chains and the average chain length synthesized in vitro. Incorporation into 3' chain termini is not changed by ACTH; incorporation into internal nucleotides is doubled in parallel with the increase in RNA polymerase I activity. These results are not due to an altered Km of RNA polymerase I for the four nucleoside triphosphates, nor to differential R Nase or phosphatase activity. These studies suggest that the regulation of RNA polymerase I by ACTH is accomplished in part through an increase in the rate of RNA chain elongation.