The postnatal methylation of transfer ribonucleic acid in brain. Evidence for the methylation of precursor transfer ribonucleic acid.

Incubation of 3-day-old rat brain with L-[methyl-3H]methionine resulted in the rapid labeling of low-molecular-weight cytoplasmic RNA. Electrophoresis in 15% polyacrylamide gels provided evidence for the methylation of precursor tRNA molecules, and high-performance liquid chromatography demonstrated N2-methylguanine to be the predominant methylated base formed during the first 2 min of labelling.     

Pathological features of the colonic tumours induced in rats by the administration of 1,2-dimethylhydrazine.

The parenteral administration of 1,2-dimethylhydrazine to rats caused the development of colonic neoplasms in about 90% of animals by 24--30 weeks of treatment. Usually there were multiple tumours with a mean of 2.7 per rat. The lesions have been classified histologically into adenomata (26% of all tumours) and carcinomata, the latter showing varying degrees of differentiation. No completely anaplastic tumours were seen, and there were none originating in connective tissue. The distributions of the different tumour types along the length of the colon varied. The more benign lesions were situated predominantly in the distal half of the colon, while the poorly differentiated adenocarcinomata were concentrated in the proximal third of the colon. There was good evidence to suggest that adenomata often progressed to frank malignancy in the distal colon. In the proximal part, however, it appeared that tumours frequently developed de novo as poorly differentiated carcinomata. Perhaps regional variations in the kinetic organisation of the normal colonic mucosa somehow influence the nature of the neoplastic change induced by DMH, thus accounting for the differences in tumor distribution. After 24 weeks of DMH treatment there was only a small increase in the mean number of tumours per rat.     

Effects of estradiol on uterine ribonucleic acid metabolism. Assessment of transfer ribonucleic acid methylation.

Immature rats treated with estradiol for selected periods of time demonstrated both increased methylation of uterine transfer ribonucleic acid (tRNA) and methylase activities. Whereas the former parameter was assessed by incubating whole uteri with [methyl-14C]methionine and measuring the incorporation of isotope into the tRNA, methylase activity was obtained by measuring the rate of incorporation of methyl groups from S-adenosyl[methyl-14C]methionine into heterologous tRNA (Escherichia coli B) in the presence of uterine cytosol preparations (100,000g supernatants). Although increased methylation of tRNA during the estrogen response was demonstrated, additional studies indicated that these results were largely attributable to an increased rate of synthesis of tRNA rather than gross changes in either the type or amount of methylated constituents present. Evidence in this regard included the inability of estrogen treatment of alter significantly the (a) resulting patterns of methyl-14C-methylated constituents of uterine tRNA, (b) the extent ot which [2-14C]guanine residues, incorporated into tRNA, become methylated, (c) the extent of methylation of precursor tRNA in the absence of tRNA synthesis, and (d) the types of methylase activities expressed in vitro.     

Release of aminoacyl transfer ribonucleic acid from transfer ribonucleic acid synthetase studied by rapid molecular sieve chromatography

Complex of Ile-tRNA^Ile and isoleucyl-tRNA synthetase (IRS) was isolated by rapid chromatography on a Bio-Gel P-100 column at 4°C. By incubating the complex in the presence of excess unacylated tRNA^Ile prior to chromatography, it is possible to qualitatively measure the rate of exchange of Ile-tRNA^Ile with tRNA^Ile on the enzyme. The rate of exchange is markedly accelerated by isoleucine and isoleucinyl-AMP, but not by ATP. These results confirm previously published findings that the rate of release of newly synthesized Ile-tRNA^Ile from IRS is very slow in the absence of isoleucine or isoleucyl-AMP, but that the release is greatly enhanced by these ligands. The rapid chromatography procedure thus provides a very direct and straightforward means for measuring the dynamics of a proteinnucleic acid interaction.     

Modification of transfer ribonucleic acid by an alkylating fragment from S-(1,2-dichlorovinyl)-L-cysteine

An alkylating fragment derived by enzymatic cleavage of [³⁵S]-(1,2-dichlorovinyl)-L-cysteine reacted, apparently covalently, with RNA isolated from $\text{E. coli}$, and from livers of the bovine calf, rat and rabbit. Transfer RNA was much more susceptible to alkylation than ribosomal RNA as revealed by gel filtration technique, and measurement of [³⁵S] substitution into nucleotides. Unfractionated $\text{E. coli}$ tRNA modified by such reaction accepted most amino acids to the same extent as control tRNA, although about 40% less acceptance was observed for L-histidine, L-serine and L-tyrosine. Study of ribosomal binding, however, indicated an impairment of codonanticodon interaction between synthetic polynucleotide messengers and amino acyl substituted, alkylated tRNA.     

The stability of rat liver ribonucleic acid in vivo after methylation with methyl methanesulphonate or dimethylnitrosamine

1. RNA was isolated from rat liver at selected times after the intraperitoneal injection of either [¹⁴C]methyl methanesulphonate (50mg/kg) or [¹⁴C]dimethylnitrosamine (2mg/kg). These doses were chosen to minimize effects due to toxicity. 2. Two methods of extraction and purification of RNA were used and an analysis of the radioactivity present was made by column chromatography of acid hydrolysates of the purified RNA. 3. The extent of methylation of guanine, the principal site of alkylation in rat liver RNA, was determined at times up to 14 days after injection. Although dimethylnitrosamine is a potent liver carcinogen and methyl methanesulphonate is not carcinogenic to rat liver, the rate of disappearance of 7-methylguanine from RNA was similar for both compounds, with a half-life of about 3.5 days. 4. An estimate of the biological half-life of rRNA was made by using [³H]orotic acid. A half-life of 5 days was obtained and this was not affected by injecting animals with unlabelled methyl methanesulphonate at the same dosage of 50mg/kg used in the studies of RNA methylation. 5. After administration of labelled orotic acid, reutilization of labelled RNA degradation products probably results in an overestimation of the biological half-life for rRNA. It is suggested that non-toxic doses of methylating agents such as methyl methanesulphonate and dimethylnitrosamine may prove to be a more effective way of accurately estimating the biological turnover of RNA species.