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引用次数: 7

摘要

咖啡因是一种环境因素,人们通常通过药物、饮料、食品等接触到咖啡因。在许多试验系统中,它已被证明具有诱变性。此外,在许多测试系统中,它也被证明可以改变电离辐射,紫外线和几种化学诱变剂的诱变反应。我们研究了咖啡因对γ辐射和4-硝基喹啉1-氧化物(4-NQO)诱导的酿酒酵母D7基因转化的影响。将固定相细胞暴露于100-600 Gy的60Co γ射线或0.15-0.3微米的4-NQO(30℃,1小时)中,然后将其镀在含咖啡因或不含咖啡因的合成完整或最小培养基上。结果表明,5和10 mM浓度的咖啡因显著降低了400和600 Gy γ辐射诱导的基因转换频率。在600 Gy时,咖啡因浓度为5 mM和10 mM时,分别减少约30%和50%。相比之下,当细胞被0.15、0.225和0.3微米的4-NQO处理后,在含有咖啡因的培养基上,咖啡因可以增加诱导的基因转换频率。5、10和15 mM咖啡因的增加分别是单独4-NQO的1.5倍、2倍和2.5倍。结果表明,辐照或4-NQO处理后的修复过程可以通过不同的途径进行修饰。
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Effect of caffeine on the genotoxic effects of gamma radiation and 4-NQO in diploid yeast.
Caffeine is an environmental agent to which people are commonly exposed through medicines, drinks, food items, etc. It has been shown to be mutagenic in a number of test systems. In addition, it has also been shown to modify the mutagenic response of ionizing radiation, UV, and several chemical mutagens in a number of test systems. We have studied the effect of caffeine on gamma radiation and 4-Nitroquinoline 1-oxide (4-NQO)-induced gene conversion in the yeast Saccharomyces cerevisiae D7. Stationary phase cells were either exposed to 100-600 Gy of 60Co gamma radiation or treated with 0.15-0.3 microM 4-NQO (30 degrees C, 1 hour), after which they were plated on synthetic complete or minimal media with or without caffeine. Caffeine concentrations ranged from 5 to 15 mM. The results indicated that caffeine at 5 and 10 mM decreased gamma radiation-induced gene conversion frequencies significantly at 400 and 600 Gy. At 600 Gy, the decrease was about 30% and 50% with caffeine concentrations of 5 and 10 mM, respectively. In contrast, caffeine was found to increase the induced gene conversion frequency when cells treated with 0.15, 0.225, and 0.3 microM 4-NQO were plated on media containing caffeine. The increase with 5, 10, and 15 mM caffeine was approximately 1.5, 2, and 2.5, respectively, times the value of 4-NQO alone. The results indicate that the posttreatment repair processes following gamma irradiation or 4-NQO treatment are modified via different pathways.
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