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G1/S restriction point coordinates phasic gene expression and cell differentiation

Brian DeVeale, Leqian Liu, Ryan M. Boileau, Jennifer Swindlehurst-Chan, Bryan Marsh, Jacob W. Freimer, Adam R. Abate, Robert Blelloch

2022Nature Communications20 citationsDOIOpen Access PDF

Abstract

Pluripotent embryonic stem cells have a unique cell cycle structure with a suppressed G1/S restriction point and little differential expression across the cell cycle phases. Here, we evaluate the link between G1/S restriction point activation, phasic gene expression, and cellular differentiation. Expression analysis reveals a gain in phasic gene expression across lineages between embryonic days E7.5 and E9.5. Genetic manipulation of the G1/S restriction point regulators miR-302 and P27 respectively accelerates or delays the onset of phasic gene expression in mouse embryos. Loss of miR-302-mediated p21 or p27 suppression expedites embryonic stem cell differentiation, while a constitutive Cyclin E mutant blocks it. Together, these findings uncover a causal relationship between emergence of the G1/S restriction point with a gain in phasic gene expression and cellular differentiation.

Topics & Concepts

Gene expressionGeneCellular differentiationPoint (geometry)Expression (computer science)BiologyRegulation of gene expressionGeneticsComputational biologyPoint mutationCell biologyComputer scienceMutationMathematicsGeometryProgramming languagePancreatic function and diabetesPluripotent Stem Cells ResearchSingle-cell and spatial transcriptomics