Scaling gene expression for cell size control and senescence in Saccharomyces cerevisiae.

Yuping Chen, Bruce Futcher

Current genetics 2021 Feb

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Cells divide with appropriate frequency by coupling division to growth-that is, cells divide only when they have grown sufficiently large. This process is poorly understood, but has been studied using cell size mutants. In principle, mutations affecting cell size could affect the mean size ("set-point" mutants), or they could affect the variability of sizes ("homeostasis" mutants). In practice, almost all known size mutants affect set-point, with little effect on size homeostasis. One model for size-dependent division depends on a size-dependent gene expression program: Activators of cell division are over-expressed at larger and larger sizes, while inhibitors are under-expressed. At sufficiently large size, activators overcome inhibitors, and the cell divides. Amounts of activators and inhibitors determine the set-point, but the gene expression program (the rate at which expression changes with cell size) determines the breadth of the size distribution (homeostasis). In this model, set-point mutants identify cell cycle activators and inhibitors, while homeostasis mutants identify regulators that couple expression of activators and inhibitors to size. We consider recent results suggesting that increased cell size causes senescence, and suggest that at very large sizes, an excess of DNA binding proteins leads to size induced senescence.

Citation

Yuping Chen, Bruce Futcher. Scaling gene expression for cell size control and senescence in Saccharomyces cerevisiae. Current genetics. 2021 Feb;67(1):41-47