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蛋白质合成与哺乳动物细胞培养中细胞分裂周期的关系

RELATION OF PROTEIN SYNTHESIS TO THE DIVISION CYCLE IN MAMMALIAN CELL CULTURES.

作者信息

TAYLOR E W

出版信息

J Cell Biol. 1963 Oct;19(1):1-18. doi: 10.1083/jcb.19.1.1.

DOI:10.1083/jcb.19.1.1

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2106857/

Abstract

Protein synthesis in suspension cultures of human cells in logarithmic growth was inhibited with puromycin or chloramphenicol, and the growth rate and mitotic index were measured as a function of time. The mitotic index remained constant for about 1 hour after addition of inhibitor; this indicates that any protein synthesis necessary for mitosis is completed before the beginning of prophase. For rates of protein synthesis equal to or greater than 0.3 that of untreated cells, the index decreased over a 5- to-7-hour period and then remained constant. The final value of the index relative to that of the uninhibited control was approximately equal to the relative rate of protein synthesis. The period from the end of DNA synthesis to mitosis (G(2)) was increased by partial inhibition of protein synthesis. A mathematical model of the inhibition process has been formulated which predicts the shape of the mitotic index curves and the increase in the G(2) period. An interpretation of the model is that the rate-limiting step is the synthesis of an enzyme which catalyzes the formation of a compound necessary to initiate mitosis.

摘要

用嘌呤霉素或氯霉素抑制对数生长期人细胞悬浮培养物中的蛋白质合成，并测量生长速率和有丝分裂指数随时间的变化。加入抑制剂后，有丝分裂指数在约1小时内保持恒定；这表明有丝分裂所需的任何蛋白质合成在前期开始之前就已完成。对于蛋白质合成速率等于或大于未处理细胞的0.3倍的情况，该指数在5至7小时内下降，然后保持恒定。相对于未受抑制对照的指数最终值大致等于蛋白质合成的相对速率。DNA合成结束到有丝分裂（G2）的时期因蛋白质合成的部分抑制而延长。已经建立了抑制过程的数学模型，该模型预测有丝分裂指数曲线的形状以及G2期的延长。该模型的一种解释是，限速步骤是一种酶的合成，该酶催化启动有丝分裂所需化合物的形成。