Project description:Radiation induced DNA damage initiates a complex series of overlapping responses responsible for the maintenance of genome integrity. The data reports the expression analysis in response to DNA minor groove binding ligand with an emphasis on its ability to afford better protection in cells exposed to ionizing radiation. Four different types if samples were employed in analysis- Control i.e. untreated cells, 50µM ligand treated cells, 8.5Gy radiation treated cells, cells treated with 50µM ligand one hour prior to irradiation.
Project description:Radiation induced DNA damage initiates a complex series of overlapping responses responsible for the maintenance of genome integrity. The data reports the expression analysis in response to DNA minor groove binding ligand with an emphasis on its ability to afford better protection in cells exposed to ionizing radiation.
Project description:Radiation induced DNA damage initiates a complex series of overlapping responses responsible for the maintenance of genome integrity. The data reports the expression analysis in response to DNA minor groove binding ligand with an emphasis on its ability to afford better protection in cells exposed to ionizing radiation.
Project description:Radiation induced DNA damage initiates a complex series of overlapping responses responsible for the maintenance of genome integrity. The data reports the expression analysis in response to DNA minor groove binding ligand with an emphasis on its ability to afford better protection in cells exposed to ionizing radiation. Four different types if samples were employed in analysis- Control i.e. untreated cells, 50µM ligand treated cells, 2Gy radiation treated cells, cells treated with 50µM ligand one hour prior to 2 Gy irradiation.
Project description:Radiation-induced DNA damage initiates a complex series of overlapping responses responsible for the maintenance of genome integrity. This study reports the expression analysis in response to DNA minor groove binding ligand (DMA-5-(4-methylpiperazin-1-yl)-2-[2’-(3,4-dimethoxyphenyl)-5`-benzimidazolyl] benzimidazole, an analogue of Hoechst 33342), with an emphasis on its ability to afford better protection in cells exposed to ionizing radiation. Four different types of samples were employed in the analysis: Control (untreated) cells, 50µM ligand-treated cells, 8.5Gy radiation-treated cells, and cells treated with 50µM ligand one hour prior to irradiation.
Project description:Radiation-induced DNA damage initiates a complex series of overlapping responses responsible for the maintenance of genome integrity. This study reports the expression analysis in response to DNA minor groove binding ligand (DMA-5-(4-methylpiperazin-1-yl)-2-[2’-(3,4-dimethoxyphenyl)-5`-benzimidazolyl] benzimidazole, an analogue of Hoechst 33342), with an emphasis on its ability to afford better protection in cells exposed to ionizing radiation. Four different types of samples were employed in the analysis: Control (untreated) cells, 50µM ligand-treated cells, 2Gy radiation-treated cells, and cells treated with 50µM ligand one hour prior to 2Gy irradiation.
Project description:Radiation-induced DNA damage initiates a complex series of overlapping responses responsible for the maintenance of genome integrity. This study reports the expression analysis in response to DNA minor groove binding ligand (DMA-5-(4-methylpiperazin-1-yl)-2-[2’-(3,4-dimethoxyphenyl)-5`-benzimidazolyl] benzimidazole, an analogue of Hoechst 33342), with an emphasis on its ability to afford better protection in cells exposed to ionizing radiation.
Project description:Radiation-induced DNA damage initiates a complex series of overlapping responses responsible for the maintenance of genome integrity. This study reports the expression analysis in response to DNA minor groove binding ligand (DMA-5-(4-methylpiperazin-1-yl)-2-[2’-(3,4-dimethoxyphenyl)-5`-benzimidazolyl] benzimidazole, an analogue of Hoechst 33342), with an emphasis on its ability to afford better protection in cells exposed to ionizing radiation.