AI Article Synopsis
- Yeast physiology involves temporal regulation, particularly under nutrient-limited conditions, leading to respiratory oscillations (YROs) which function similarly to circadian rhythms but operate independently of the cell division cycle.* -
- YROs help yeast cells minimize energy use by delaying protein synthesis until they have enough resources, while also ensuring they maintain osmotic balance and protein quality.* -
- When nutrient stores are replenished, yeast cells boost ion export and activate specific cellular processes that enhance energy production and resource mobilization, suggesting that efficient metabolic management and dynamic ion transport are crucial for maintaining cell health and adapting to changes.*
Article Abstract
Yeast physiology is temporally regulated, this becomes apparent under nutrient-limited conditions and results in respiratory oscillations (YROs). YROs share features with circadian rhythms and interact with, but are independent of, the cell division cycle. Here, we show that YROs minimise energy expenditure by restricting protein synthesis until sufficient resources are stored, while maintaining osmotic homeostasis and protein quality control. Although nutrient supply is constant, cells sequester and store metabolic resources via increased transport, autophagy and biomolecular condensation. Replete stores trigger increased H export which stimulates TORC1 and liberates proteasomes, ribosomes, chaperones and metabolic enzymes from non-membrane bound compartments. This facilitates translational bursting, liquidation of storage carbohydrates, increased ATP turnover, and the export of osmolytes. We propose that dynamic regulation of ion transport and metabolic plasticity are required to maintain osmotic and protein homeostasis during remodelling of eukaryotic proteomes, and that bioenergetic constraints selected for temporal organisation that promotes oscillatory behaviour.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7499178 | PMC |
| http://dx.doi.org/10.1038/s41467-020-18330-x | DOI Listing |
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