关于神经元、神经胶质细胞和肝细胞核中核糖核酸及同聚核糖核苷酸形成的研究。
Studies on ribonucleic acid and homopolyribonucleotide formation in neuronal, glial and liver nuclei.
作者信息
Kato T, Kurokawa M
出版信息
Biochem J. 1970 Feb;116(4):599-609. doi: 10.1042/bj1160599.
Abstract
- Various types of nuclear preparations, with different ratios of neuronal to glial nuclei, were isolated from guinea-pig cerebral grey matter and ox cerebral grey matter and white matter. Conditions appropriate for the separate assay of RNA and poly A formation were described. Comparative rates of RNA and poly A formation were studied in cerebral and liver nuclei. 2. RNA polymerase activity per nucleus is higher in neuronal nuclei than in glial nuclei. In liver nuclei, the activity is much lower than in cerebral nuclei. The physical relationship between RNA polymerase and deoxyribonucleoprotein seems to differ in neuronal, glial and liver nuclei. 3. Poly A polymerase activity in liver nuclei is selectively activated by Mn(2+) and inhibited by GTP, CTP and UTP. On a DNA basis, the activity in an aggregate enzyme is the same as in intact nuclei. Poly A polymerase activity per nucleus is much higher in liver nuclei than in neuronal nuclei. Glial nuclei show an intermediate activity. 4. It is suggested that, in neuronal nuclei, the synthesis of RNA is more prominent than that of poly A under conditions where both polymers are formed simultaneously. This contrasts with liver nuclei, where more poly A is made than RNA. 5. In neuronal nuclei, the rate of CTP incorporation is much higher than in glial and liver nuclei. This incorporation is most probably due to poly C synthesis.
摘要
- 从豚鼠脑灰质、牛脑灰质和白质中分离出了具有不同神经元核与胶质细胞核比例的各类核制剂。描述了适用于分别测定RNA和多聚腺苷酸形成的条件。研究了脑细胞核和肝细胞核中RNA和多聚腺苷酸形成的相对速率。2. 每个细胞核的RNA聚合酶活性在神经元核中高于胶质细胞核。在肝细胞核中,该活性远低于脑细胞核。RNA聚合酶与脱氧核糖核蛋白之间的物理关系在神经元核、胶质细胞核和肝细胞核中似乎有所不同。3. 肝细胞核中的多聚腺苷酸聚合酶活性被Mn(2+)选择性激活,并被GTP、CTP和UTP抑制。以DNA为基础,聚集酶中的活性与完整细胞核中的相同。每个肝细胞核的多聚腺苷酸聚合酶活性远高于神经元核。胶质细胞核表现出中等活性。4. 有人提出,在同时形成两种聚合物的条件下,在神经元核中RNA的合成比多聚腺苷酸的合成更突出。这与肝细胞核形成对比,在肝细胞核中多聚腺苷酸的合成多于RNA。5. 在神经元核中,CTP掺入的速率远高于胶质细胞核和肝细胞核。这种掺入很可能是由于多聚C的合成。
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