Kinetics of nucleoside incorporation into nuclear and cytoplasmic RNA.

R P PERRY
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引用次数: 97

Abstract

HeLa and conjunctiva tissue culture cells were incubated for various intervals with tritiated nucleosides and the incorporation into RNA was localized in different parts of the cell by means of autoradiography. In order to obtain quantitative measurements of incorporation from grain count data the influence of cell geometry on the absorption of the tritium beta ray was considered. Relative correction factors, E = g/g*, relating an idealized grain count in the absence of absorption, g, to the actual grain count, g*, were derived for the different cell compartments. For the average HeLa cell the factors for the nucleolus, n, non-nucleolar parts of the nucleus, N, and the cytoplasm, C, are in the ratio E(n)/E(N)/E(C)= 2.3/1.6/1.0. The kinetics of incorporation for cytidine and adenosine are similar. The n and N curves are characterized by a rapid rise and early saturation, whereas the C curves show an appreciable lag and no evidence of saturation for intervals as long as one generation time. Estimates of the relative amounts of RNA in each compartment were obtained from ultraviolet micro absorption measurements and used together with the kinetic data to calculate specific activities. For incubation periods of short duration the ratio of specific activities n/N for cytidine is approximately twice that for adenosine. Three hypotheses for the mechanism of ribonucleoside incorporation and RNA synthesis are discussed, and arguments favoring a transport of RNA or an RNA by-product from the nucleus and nucleolus to the cytoplasm are presented.

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核苷掺入细胞核和细胞质RNA的动力学。
将HeLa和结膜组织培养细胞与氚化核苷孵育不同时间间隔,并通过放射自显影法定位入RNA的细胞不同部位。为了从颗粒计数数据中获得掺入量的定量测量,考虑了细胞几何形状对氚射线吸收的影响。相对校正因子E = g/g*,将没有吸收的理想粒数g与实际粒数g*联系起来,推导出不同细胞区室的相对校正因子。对于一般的HeLa细胞,核仁n、细胞核非核仁部分n和细胞质C的因子为E(n)/E(n)/E(C)= 2.3/1.6/1.0。胞苷和腺苷的结合动力学是相似的。n和n曲线的特征是迅速上升和早期饱和,而C曲线则表现出明显的滞后,并且在长达一代时间的间隔内没有饱和的迹象。每个隔室中RNA的相对数量估计是通过紫外微吸收测量得到的,并与动力学数据一起用于计算特定活性。在孵育期较短的情况下,胞苷的比活性n/ n约为腺苷的两倍。讨论了核糖核苷结合和RNA合成机制的三种假设,并提出了支持RNA或RNA副产物从细胞核和核仁转运到细胞质的论点。
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