大鼠肝脏分离细胞核对新合成核糖核酸的甲基化作用。饥饿动物细胞核合成核糖核酸的特性。
Methylation of newly synthesized ribonucleic acid by isolated rat liver nuclei. Characterization of the ribonucleic acid synthesized by nuclei from starved animals.
作者信息
Rickwood D, Klemperer H G
出版信息
Biochem J. 1971 Aug;123(5):731-7. doi: 10.1042/bj1230731.
Abstract
- Nuclei from rat liver incubated with S-adenosyl[methyl-(14)C]methionine incorporated radioactivity into RNA and into lipid and protein. 2. All of the labelled RNA was extracted from the nuclei with trichloroacetic acid at 90 degrees C. 3. The [(14)C]methyl-group incorporation into the hot-trichloroacetic acid extract was 30% inhibited by the addition of actinomycin D (100mug/mg of DNA) or by the omission of CTP, GTP and UTP. 4. Assuming that the main substrate for this triphosphate-dependent methylation was newly synthesized precursor rRNA containing one methyl group/30 uridylate residues, it was calculated that approx. 60% of the [(14)C]UMP incorporated under similar conditions represented precursor rRNA synthesis. 5. In agreement with this, low concentrations of actinomycin D (approx. 1mug/mg of DNA) sufficient to abolish the triphosphate-dependent incorporation of [(14)C]methyl group inhibited 68% of the [(14)C]UMP incorporation. 6. The incorporation of [(14)C]UMP by nuclei from starved animals decreased progressively with increasing periods of starvation, whereas the triphosphate-dependent [(14)C]methyl-group incorporation was not further decreased after 1 day of starvation. 7. This suggests that precursor rRNA synthesis decreased within 1 day whereas other species of RNA were affected only after longer periods of starvation.
摘要
- 用S-腺苷基[甲基-(14)C]甲硫氨酸孵育的大鼠肝细胞核将放射性掺入RNA、脂质和蛋白质中。2. 所有标记的RNA在90℃下用三氯乙酸从细胞核中提取。3. 加入放线菌素D(100μg/mg DNA)或省略CTP、GTP和UTP可使热三氯乙酸提取物中[(14)C]甲基的掺入受到30%的抑制。4. 假设这种依赖三磷酸的甲基化的主要底物是新合成的含有一个甲基/30个尿苷酸残基的前体rRNA,经计算,在类似条件下掺入的[(14)C]UMP中约60%代表前体rRNA的合成。5. 与此一致的是,低浓度的放线菌素D(约1μg/mg DNA)足以消除[(14)C]甲基的三磷酸依赖掺入,抑制了68%的[(14)C]UMP掺入。6. 饥饿动物细胞核中[(14)C]UMP的掺入随着饥饿时间的延长而逐渐减少,而饥饿1天后,依赖三磷酸的[(14)C]甲基掺入不再进一步减少。7. 这表明前体rRNA的合成在1天内减少,而其他种类的RNA仅在饥饿更长时间后才受到影响。
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本文引用的文献
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