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>Apparent heterogeneity in the response of quiescent swiss 3T3 cells to serum growth factors: Implications for the transition probability model and parallels with “cellular senescence” and “competence”
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Apparent heterogeneity in the response of quiescent swiss 3T3 cells to serum growth factors: Implications for the transition probability model and parallels with “cellular senescence” and “competence”
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机译:Apparent heterogeneity in the response of quiescent swiss 3T3 cells to serum growth factors: Implications for the transition probability model and parallels with “cellular senescence” and “competence”
AbstractWhen subconfluent, Swiss 3T3 cells made quiescent by serum deprivation are stimulated with low concentrations of serum (ca. 1), only a proportion of them (roughly 50) enter S phase despite daily replacement with fresh, low‐serum medium. The cells that fail to enter S phase are not incapable of doing so, since most of them initiate DNA synthesis after transfer to 10 serum. It would appear that individual cells vary in their growth factor requirements. Using time‐lapse cinemicroscopy a few of the cells that respond to low serum were seen to give rise to several generations of progeny, while the majority of cells failed to divide at all, or divided once at most. Despite this, differences between cells in growth factor requirements do not seem to be heritable in the long term, since attempts to enrich for responding cells by prolonged culture in 1 serum have been unsuccessful. Rather, it would appear that the capacity to respond to low serum is an unstable property lost after a few generations in low serum. The loss of responsiveness shows parallels with “cellular senescence” and could conceivably result from decay of the platelet‐derived growth factor‐induced state of “competence.” But regardless of why some cells respond to low serum while others do not, it is clear that the kinetics of entry into S phase after serum stimulation of quiescent 3T3 cells are not strictly first‐order, since the labelling index plateaus after roughly 3 days at values substantially below 100. As such, the kinetics, though not contradicting the transition probability model, cannot be taken to support it as was p
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