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哺乳动物细胞的放射敏感性。I. 辐射诱导的分裂延迟的时间和剂量依赖性。

Radiosensivity of mammalian cells. I. Timing and dose-dependence of radiation-induced division delay.

作者信息

Walters R A, Petersen D F

出版信息

Biophys J. 1968 Dec;8(12):1475-86. doi: 10.1016/s0006-3495(68)86567-1.

DOI:10.1016/s0006-3495(68)86567-1
PMID:5753223
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1367449/
Abstract

The time of onset and duration of division delay induced by exposure to 250-kvp x-irradiation have been measured in several mammalian cell lines grown in suspension culture. Unique times of action (i.e. interval from irradiation to cessation of division) late in G(2) are characteristic for HeLa, L-5178Y, and Chinese hamster cells, and the time of action is independent of dose over the range 25-800 rads. The duration of delay was directly proportional to dose; all irradiated cells divided at least once and maintained their relative positions in the life cycle for periods exceeding one generation time. Neither random nor synchronous cultures exposed at varying times in the life cycle exhibited differences in radiation sensitivity measured either by onset or duration of the delay period. The time of action was experimentally indistinguishable from the point marking completion of protein synthesis essential for division, leading to speculation that division delay involves a translation defect.

摘要

在悬浮培养中生长的几种哺乳动物细胞系中,已测定了暴露于250千伏峰值X射线照射所诱导的分裂延迟的起始时间和持续时间。在G(2)晚期,HeLa细胞、L-5178Y细胞和中国仓鼠细胞具有独特的作用时间(即从照射到分裂停止的间隔时间),并且在25至800拉德的剂量范围内,作用时间与剂量无关。延迟持续时间与剂量成正比;所有受照射的细胞至少分裂一次,并在超过一个世代时间的周期内保持其在生命周期中的相对位置。无论是在生命周期的不同时间暴露的随机培养细胞还是同步培养细胞,在通过延迟期的起始或持续时间测量的辐射敏感性方面均未表现出差异。作用时间在实验上与标志着分裂所必需的蛋白质合成完成的点无法区分,这导致推测分裂延迟涉及翻译缺陷。

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