哺乳动物细胞的突变测量。四:射线诱变与化学诱变的比较。

T T Puck, R Johnson, P Webb, G Yohrling
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引用次数: 8

摘要

化学诱变剂与哺乳动物细胞的相互作用要比伽马辐照复杂得多,因为化学试剂与细胞和培养基成分的反应方式不同。然而,先前描述的用于伽玛辐射诱变分析的系统似乎适用于化学诱变。该方法包括测量细胞存活率,使用咖啡因抑制修复,分析有丝分裂指数变化,以及显微镜下有丝分裂染色体可见结构变化的定量。描述了各种化学诱变剂和非诱变剂在该系统中的行为,并与γ辐照的行为进行了比较。该方法简单,结果定量合理,但不如伽马辐照。该程序可用于环境监测、突变事件分析以及个人和流行病学检测。突变事件应分为原发性或继发性,这取决于它们是代表最初的基因组损伤,还是由原发性突变引起的基因组变化,然后是由于代谢作用引起的结构变化。虽然咖啡因对哺乳动物基因组有多种影响,但当在这里指定的条件下使用时,它似乎主要作为突变修复的抑制剂,因此提供了在生命周期G2阶段不同诱变剂对细胞的修复作用的测量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mutation measurement in mammalian cells. IV: Comparison of gamma-ray and chemical mutagenesis.

The interaction of chemical mutagens with mammalian cells is much more complex than that of gamma-irradiation because of the different ways in which chemical agents react with cell and medium components. Nevertheless, the system previously described for analysis of mutagenesis by gamma-radiation appears applicable to chemical mutagenesis. The approach involves measurement of cell survival, use of caffeine to inhibit repair, analysis of mitotic index changes, and quantitation of microscopically visible structural changes in mitotic chromosomes. The behavior of a variety of chemical mutagens and nonmutagens in this system is described and compared with that of gamma-irradiation. The procedure is simple and the results reasonably quantitative though less so than those of gamma-irradiation. The procedure can be used for environmental monitoring, analysis of mutational events, and individual and epidemiological testing. Mutational events should be classified as primary or secondary depending on whether they represent initial genomic insult, or genomic changes resulting from primary mutation followed by structural changes due to metabolic actions. While caffeine has multiple effects on the mammalian genome, when used under the conditions specified here it appears to act principally as an inhibitor of mutation repair, and so affords a measure of the role of repair in the action of different mutagens on cells in the G2 phase of the life cycle.

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