通过延长S期，仓鼠细胞中大部分G1期被消除。

Most of the G1 period in hamster cells is eliminated by lengthening the S period.

作者信息

Stancel G M, Prescott D M, Liskay R M

出版信息

Proc Natl Acad Sci U S A. 1981 Oct;78(10):6295-8. doi: 10.1073/pnas.78.10.6295.

DOI:10.1073/pnas.78.10.6295

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC349025/

Abstract

Two Chinese hamster cell lines, G1+-1 and CHO, have been grown in the presence of low concentrations of hydroxyurea to determine how a slowing DNA synthesis (i.e., a lengthening of the S period) affects the length of the G1 period. Hydroxyurea concentrations of approximately 10 microM do not alter the generation times of these cell lines but do cause increases in S with corresponding decreases in G1. In both cell lines, 10 microM hydroxyurea reduces G1 to an absolute value of 1 hr, which represents decreases of 70% (G1+-1) and 60% (CHO) from control values. Higher concentrations of hydroxyurea increase the generation times and lengths of S for both cell lines but do not reduce G1 below the minimum value of 1 hr. These observations indicate that the majority of G1 is expendable and most of G1 therefore cannot contain specific events required for the initiation of DNA synthesis. This result supports the hypothesis that G1 is a portion of the cell growth cycle but not of the chromosome cycle.

摘要

两种中国仓鼠细胞系，G1+-1和CHO，在低浓度羟基脲存在的情况下进行培养，以确定DNA合成减慢（即S期延长）如何影响G1期的长度。约10微摩尔的羟基脲浓度不会改变这些细胞系的代时，但会导致S期增加，同时G1期相应减少。在这两种细胞系中，10微摩尔的羟基脲将G1期缩短至1小时的绝对值，相对于对照值，G1+-1细胞系减少了70%，CHO细胞系减少了60%。更高浓度的羟基脲会增加两种细胞系的代时和S期长度，但不会使G1期缩短至低于1小时的最小值。这些观察结果表明，大部分G1期是可消耗的，因此G1期的大部分不可能包含启动DNA合成所需的特定事件。这一结果支持了以下假设：G1期是细胞生长周期的一部分，而非染色体周期的一部分。

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