机译:提高线粒体函数与酵母的热量限制和热量限制模拟物相关联
Division of Biotechnology College of Life Sciences and Biotechnology Korea University Seoul 136;
Division of Biotechnology College of Life Sciences and Biotechnology Korea University Seoul 136;
Division of Biotechnology College of Life Sciences and Biotechnology Korea University Seoul 136;
Department of Pharmacology College of Medicine Inha University Incheon 400-712 South Korea;
Department of Pharmacology College of Medicine Inha University Incheon 400-712 South Korea;
Division of Biotechnology College of Life Sciences and Biotechnology Korea University Seoul 136;
ATP; Caloric restriction; Caloric restriction mimetics; Mitochondrial membrane potential; Rapamycin; Reactive oxygen species;
机译:提高线粒体函数与酵母的热量限制和热量限制模拟物相关联
机译:通过发芽酵母中的热量限制确保寿命延长期间的全球基因表达特征
机译:通过调节酵母中的线粒体效率,破坏Snf3 / Rgt2葡萄糖传感器会降低Mth1 / Std1的寿命和热量限制效率
机译:运动和热量限制导致衰老过程中线粒体DNA修复的变化
机译:SIRT1以HSF1依赖的方式调节热冲击响应和热量限制的影响。
机译:通过化学仍然生活:有关热量限制和热量限制模拟物的更新作为促进健康和寿命的工具
机译:通过化学改善生活:热量限制(CR)和CR模拟改变基因组功能,促进健康和寿命的增加
机译:冷热条件下热量损失的组成和热量密度。