Enhancement of mitochondrial function correlates with the extension of lifespan by caloric restriction and caloric restriction mimetics in yeast

ChoiK.-M.; LeeH.-L.; KwonY.-Y.; KangM.-S.; LeeS.-K.; LeeC.-K.

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Enhancement of mitochondrial function correlates with the extension of lifespan by caloric restriction and caloric restriction mimetics in yeast

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

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Caloric restriction mimetics (CRMs) have been developed to mimic the effects of caloric restriction (CR). However, research reports for the effects of CRMs are often times inconsistent across different research groups. Therefore, in this study, we compared seven identified CRMs which extend the lifespans of various organisms including caffeine, curcumin, dapsone, metformin, rapamycin, resveratrol, and spermidine to CR for mitochondrial function in a single model, Saccharomyces cerevisiae. In this organism, rapamycin extended chronological lifespan (CLS), but other CRMs failed to extend CLS. Rapamycin enhanced mitochondrial function like CR did, but other CRMs did not. Both CR and rapamycin worked on mitochondrial function, but they worked at different windows of time during the chronological aging process.

机译：已经开发了热量限制性模拟物（CRM）以模仿热量限制（CR）的影响。然而，对CRM的影响的研究报告通常在不同的研究组中不一致。因此，在本研究中，我们将七个鉴定的CRM比较了延伸了各种生物的寿命，包括咖啡因，姜黄素，龙酮，二甲双胍，雷帕霉素，白藜芦醇和亚氨基胺在单一模型中的线粒体功能，酿酒酵母酿酒酵母。在这种生物体中，雷帕霉素延长时间寿命（CLS），但其他CRM未能延长CLS。雷帕霉素增强的线粒体功能如Cr所做，但其他CRM没有。 Cr和雷帕霉素都在线粒体功能上工作，但它们在时间顺序衰老过程中在不同的时间窗口工作。

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来源
《Biochemical and Biophysical Research Communications》 |2013年第1期|共7页
作者
ChoiK.-M.; LeeH.-L.; KwonY.-Y.; KangM.-S.; LeeS.-K.; LeeC.-K.;
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作者单位

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;

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正文语种 eng
中图分类生物化学;
关键词
ATP; Caloric restriction; Caloric restriction mimetics; Mitochondrial membrane potential; Rapamycin; Reactive oxygen species;

机译：ATP;卡路里限制;热量限制性模拟物;线粒体膜势;雷帕霉素;活性氧;

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1. Enhancement of mitochondrial function correlates with the extension of lifespan by caloric restriction and caloric restriction mimetics in yeast [J] . ChoiK.-M., LeeH.-L., KwonY.-Y., Biochemical and Biophysical Research Communications . 2013,第1期

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
2. Characterization of global gene expression during assurance of lifespan extension by caloric restriction in budding yeast [J] . ChoiK.-M., KwonY.-Y., LeeC.-K. Experimental Gerontology . 2013,第12期

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
3. Disruption of Snf3/Rgt2 glucose sensors decreases lifespan and caloric restriction effectiveness through Mth1/Std1 by adjusting mitochondrial efficiency in yeast [J] . Choi Kyung-Mi, Kwon Young-Yon, Lee Cheol-Koo FEBS letters. . 2015,第3期

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
4. Changes in the repair of mitochondrial DNA during ageing due to exercise and caloric restriction [C] . Zeng Zhengzhong, Wen Li, Wu Zhiyi Internaional convention on science, education and medicine in sport;2008 ICSEMIS . 2008

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
5. SIRT1 Regulation of the Heat Shock Response in an HSF1-Dependent Manner and the Impact of Caloric Restriction. [D] . Raynes, Rachel. 2013

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。
6. Still Living Better through Chemistry: An Update on Caloric Restriction and Caloric Restriction Mimetics as Tools to Promote Health and Lifespan [O] . Carla Almendáriz-Palacios, Darrell D. Mousseau, Christopher H. Eskiw, 2020

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
7. Better Living through Chemistry: Caloric Restriction (CR) and CR Mimetics Alter Genome Function to Promote Increased Health and Lifespan [O] . Zoe E. Gillespie, Joshua Pickering, Christopher H. Eskiw 2016

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
8. Composition and Caloric Density of Weight Loss During Caloric Restriction in the Cold. [R] . Iampietro, P. F., Mager, M., Goldman, R. F., 1961

机译：冷热条件下热量损失的组成和热量密度。

Enhancement of mitochondrial function correlates with the extension of lifespan by caloric restriction and caloric restriction mimetics in yeast

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