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The Nuclear-to-Cytoplasmic Ratio: Coupling DNA Content to Cell Size, Cell Cycle, and Biosynthetic Capacity

Shruthi Balachandra, Sharanya Sarkar, Amanda A. Amodeo

2022Annual Review of Genetics63 citationsDOIOpen Access PDF

Abstract

Though cell size varies between different cells and across species, the nuclear-to-cytoplasmic (N/C) ratio is largely maintained across species and within cell types. A cell maintains a relatively constant N/C ratio by coupling DNA content, nuclear size, and cell size. We explore how cells couple cell division and growth to DNA content. In some cases, cells use DNA as a molecular yardstick to control the availability of cell cycle regulators. In other cases, DNA sets a limit for biosynthetic capacity. Developmentally programmed variations in the N/C ratio for a given cell type suggest that a specific N/C ratio is required to respond to given physiological demands. Recent observations connecting decreased N/C ratios with cellular senescence indicate that maintaining the proper N/C ratio is essential for proper cellular functioning. Together, these findings suggest a causative, not simply correlative, role for the N/C ratio in regulating cell growth and cell cycle progression.

Topics & Concepts

BiologyCell cycleCytoplasmNuclear DNACellCell divisionCell biologyDNACell sizeCell growthDNA synthesisGeneticsGeneMitochondrial DNAGenomics and Chromatin DynamicsPhotosynthetic Processes and MechanismsDNA Repair Mechanisms
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