铅和硒对端粒长度、端粒酶及端粒结合蛋白的影响

以酿酒酵母细胞为实验材料 ,在分子水平上研究铅 (Pb)和硒 (Se)对端粒长度、端粒酶及端粒结合蛋白的影响。结果发现 :与对照组相比 ,添加 1mg/LPb的培养基中培养 10 0代后的酿酒酵母细胞中端粒DNA的平均长度缩短 ,端粒结合蛋白Rap1p含量减少 ,而且Rap1p蛋白的二级结构受到扰动、端粒酶活性降低、43%的细胞死亡。加 1mg/LSe培养 10 0代后的酿酒酵母细胞与对照组相比 ,细胞中端粒平均长度增加 ,Rap1p蛋白浓度和二级结构保持稳定 ,端粒酶活性增加 ,细胞正常存活。以上结果表明 ,Pb对酿酒酵母细胞端粒有损伤 ,而且其损伤在子代细胞中有累积效应 ;而Se对Pb损伤具有一定程度的修复保护作用 ,适量给机体补Se对抑制细胞损伤和衰老有一定作用。由于端粒的特殊结构特征 ,推断Pb和Se是通过作用于端粒酶及端粒结合蛋白而间接影响端粒长度的

Effects of Lead and Selenium on Telomere Binding Protein Rap1p, Telomerase and Telomeric DNA in Saccharomyces cerevisiae

The effects on S.cerevisiae telomere binding protein Rap1p, telomerase and telomeric DNA by the lead (Pb), the selenium (Se) and Pb Se were tested respectively in this study. Compared with the control S.cerevisiae after 100 generations, the mean telomere length shortened, Rap1p concentration was significantly lower and the secondary structure of Rap1p was disturbed, the telomerase activity was reduced in Pb treated cells. In Se treated cells, telomere length was significantly longer, and telomerase activity expressed higher. The concentration and secondary structure of Rap1p were similar to that of the control. Furthermore, the viability of Pb treated cells were significantly reduced while cells undergone other three treatments were similar and normal. These results suggest that Pb could damage Rap1p, reduce telomerase activity, resulting in the telomer length shortening and cell death. On the other hand, Se could protect and repair the damage in Rap1p and telomere caused by Pb to some extent.