本文就基因芯片技术和比较蛋白质组学在微波、电磁场等电磁辐射领域中的应用及其研究进展进行综述。
The present paper reviews the research progress in application of gene chips and comparative proteomics in electromagnetic radiation such as microwave and electromagnetic fields.
高通量基因和蛋白表达分析技术的应用,将为电磁辐射生物学效应及其机制研究提供分子水平的依据和线索。
Application of high throughout techniques to analyzing gene and protein expression will facilitate research on the biological effect and mechanism of electromagnetic radiation on the molecular level.
该文就细胞毒性、基因毒性、外遗传毒性这三条基本途径,对电磁辐射引起生物学效应的可能机制作一概要综述。
This thesis summarized some possible mechanisms on the biological effects of electromagnetic radiation, according to cytotoxicity, genotoxicity, epigenetic toxicity.
UVB辐射可诱导机体产生活性氧自由基,从而引起细胞生物学改变,导致基因突变、致癌和细胞死亡。
UVB irradiation can induce the formation of reactive oxygen species (ROS), and induce the change of cell biology, gene mutation, carcinogenesis and cell death.
UVB辐射可诱导机体产生活性氧自由基,从而引起细胞生物学改变,导致基因突变、致癌和细胞死亡。
UVB irradiation can induce the formation of reactive oxygen species (ROS), and induce the change of cell biology, gene mutation, carcinogenesis and cell death.
应用推荐