Revisiting the Relationship of the Mammalian G1 Phase to Cell Differentiation

## Abstract Mouse embryonic stem cells have an unlimited lifespan in cultures if they are prevented from differentiating. After differentiating, they produce cells which divide only a limited number of times. These changes seen in cultures parallel events that occur in the developing embryo, where

## Abstract Cell cycle progression is dependent upon the action of cyclins and their partners the cyclin dependent kinases (CDKs). Each cell cycle phase has its own characteristic cyclin‐CDK combination, cyclin D‐CDK4,6 and cyclin E‐CDK2 being responsible for progression through G~1~‐phase into S‐p

A mathematical model of regulation of the G1-S transition of the mammalian cell cycle has been formulated to organize available experimental molecular-level information in a systematic quantitative framework and to evaluate the ability of this manifestation of current knowledge to calculate correctl

The histone gene is a paradigm for transcriptional control at the G1/S phase transition point in the cell cycle. The histone gene promoter provides a blueprint for integration of regulatory signals which mediate responsiveness to factors controlling competency for cell cycle progression at the initi

The non-protein sulfhydryl (NPSH) content of cells moving into S from GI, plateau phase G1, and Go was measured. Chinese hamster ovary (CHO) cells accumulated in G1 by growth into plateau phase contain only onefourth the NPSH concentration of cycling C1 cells or GI cells accumulated by brief growth