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Disruption of Snf3/Rgt2 glucose sensors decreases lifespan and caloric restriction effectiveness through Mth1/Std1 by adjusting mitochondrial efficiency in yeast
Kyung-Mi Choi, Young-Yon Kwon, Cheol‐Koo Lee
FEBS Letters · 2014 · ▲ 13 citations
Abstract
Down-regulation of intracellular nutrient signal pathways was proposed to be a primary mechanism of caloric restriction(definition) (CR)-mediated lifespan extension. However, the link between lifespan and glucose sensors in the plasma membrane was poorly understood in yeast. Herein, a mutant that lacked glucose sensors (snf3Δrgt2Δ) had impaired glucose fermentation, showed decreased chronological lifespan (CLS), and reduced CLS extension by CR. The mutant also had reduced mitochondrial efficiency, as inferred by increased mitochondrial superoxide and decreased ATP levels. Mth1 and Std1, which are downstream effectors of the Snf3/Rgt2 pathway, were required for viability through mitochondrial function but not fermentative metabolism.
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- 10.1016/j.febslet.2014.12.020
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- 2026-06-15 MST
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APA
Choi, K., Kwon, Y., & Lee, C. (2014). Disruption of Snf3/Rgt2 glucose sensors decreases lifespan and caloric restriction effectiveness through Mth1/Std1 by adjusting mitochondrial efficiency in yeast. <em>FEBS Letters</em>. https://doi.org/10.1016/j.febslet.2014.12.020
Vancouver
Choi K, Kwon Y, Lee C. Disruption of Snf3/Rgt2 glucose sensors decreases lifespan and caloric restriction effectiveness through Mth1/Std1 by adjusting mitochondrial efficiency in yeast. FEBS Letters. 2014. doi:10.1016/j.febslet.2014.12.020.
BibTeX
@article{kyungmi2014Disrup,
title = {Disruption of Snf3/Rgt2 glucose sensors decreases lifespan and caloric restriction effectiveness through Mth1/Std1 by adjusting mitochondrial efficiency in yeast},
author = {Kyung-Mi Choi and Young-Yon Kwon and Cheol‐Koo Lee},
journal = {FEBS Letters},
year = {2014},
doi = {10.1016/j.febslet.2014.12.020},
}
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