Stimulation of incorporation of labelled precursors into the RNA of immature rat uterus is an early result of oestradiol-17beta action. However, the extent of the increased incorporation varies with the mode of administration of the labelled precursors and with the weight of the rat. At the age and weight range normally used response is maximal at ten times control incorporation, 4h after the administration of 0.3mug or more of oestradiol-17beta. Under these conditions the stimulation of incorporation into the acid-soluble fraction is only 2-2.5-fold. When the purified RNA is separated on polyacrylamide gels the major increase in incorporation of radioactive precursor is found in rRNA and 4S RNA; the formation of the former has been followed from the 45S precursor. Preceding these events by at least 30min, however, is an increase in the incorporation of precursor into RNA species of very high molecular weight, which remained in the first few slices of the gel. The possible significance of these findings is discussed. The increased synthesis of rRNA in response to oestradiol-17beta is more strongly inhibited by actinomycin D than the synthesis of other RNA species. Cycloheximide, depending on time of administration and dosage, inhibits either RNA synthesis or the maturation of rRNA.
ethanol ond ether and dried. It was hydrolysed to mononucleotides by digestion with 0-3N-KOH for 18 hr., using 1 ml. alkali/20 mg. powder. The alkaline digest was brought to pH 1 by adding 60 % HC104. DNA, protein and KC104 were centrifuged out and washed, and the supernatant fluid and washings adjusted to pH 4 with N-KOH. Radioactive phosphate supplied by the Atomic Energy Research Establishment, Harwell, as H3PO4 was submitted to 10 min. hydrolysis with N-HCI before use to destroy any traces of pyroor poly-phosphates.
1. The purification of a nuclease from rat-liver mitochondria is described. The mitochondria are rendered soluble by treatment with Triton X-100 and, after fractionation with ammonium sulphate and acetone, the active fraction is further purified by chromatography on DEAE-cellulose and Sephadex G-75 to give a purification of over 700-fold. 2. The purified enzyme was only very slightly contaminated with deoxyribonuclease II, phosphodiesterase and phosphomonoesterase. The individual activities of these enzymes did not exceed 0.1% of the activity of the liver nuclease. 3. The purified enzyme attacked RNA more rapidly than denatured DNA and hydrolysed native DNA more slowly than denatured DNA. 4. There is some evidence to suggest that the nucleolytic activity of the purified preparation towards native DNA, denatured DNA and RNA is associated with a single protein. 5. The enzyme is relatively labile but is stabilized in the presence of 20% (w/v) glycerol or 10mm-2-mercaptoethanol.
An early response to the administration of oestradiol-17beta to immature rats is the synthesis of uterine RNA of very high-molecular-weight. This RNA is shown to be heterogeneous nuclear RNA. Increased precursor incorporation into the heterogeneous nRNA is not confined to entities of precise molecular weight but appears to involve much of the size range of the species. These findings are discussed with respect to the mode of action of oestradiol.
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.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.