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在同步分裂的梨形四膜虫中组蛋白与DNA的同步合成

Simultaneous synthesis of histone and DNA in synchronously dividing Tetrahymena pyriformis.

作者信息

Hardin J A, Einem G E, Lindsay D T

出版信息

J Cell Biol. 1967 Mar;32(3):709-17. doi: 10.1083/jcb.32.3.709.

DOI:10.1083/jcb.32.3.709

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2107265/

Abstract

Histone and DNA syntheses have been studied in synchronously dividing Tetrahymena pyriformis GL. During the heat treatment necessary to synchronize cultures of this amicronucleate protozoan, the DNA content of the already polyploid macronucleus increases. When the cells begin synchronous division, their DNA content is reduced in a stepwise process which is closely paralleled by reduction of macronuclear histone content. During cell division, the contents of DNA and histone decrease by slightly more than twofold, and in the subsequent S phase, DNA and histone increase simultaneously to 85% of the values expected if all chromosomes were to double. The first step in the process of reduction of DNA and histone contents is their decrease in excess of twofold, and this is accomplished by removal of extrusion bodies from the nuclei of dividing cells. The second step is a mechanism which allows, in effect, only 70% of the chromatin in the average nucleus to duplicate. Such partial duplication suggests that both histone and DNA syntheses in synchronous Tetrahymena depend upon a regulatory mechanism, the mediating elements of which are localized in only certain chromosomes.

摘要

已对同步分裂的梨形四膜虫GL中的组蛋白和DNA合成进行了研究。在同步化这种无小核原生动物培养物所需的热处理过程中，已经多倍体化的大核的DNA含量增加。当细胞开始同步分裂时，其DNA含量以逐步过程减少，这与大核组蛋白含量的减少密切平行。在细胞分裂期间，DNA和组蛋白的含量减少略超过两倍，并且在随后的S期，DNA和组蛋白同时增加到如果所有染色体都加倍时预期值的85%。DNA和组蛋白含量减少过程的第一步是它们减少超过两倍，这是通过从分裂细胞的细胞核中去除挤出体来实现的。第二步是一种机制，实际上它只允许平均细胞核中70%的染色质复制。这种部分复制表明，同步化的四膜虫中的组蛋白和DNA合成均依赖于一种调节机制，其介导元件仅定位在某些染色体中。