Long-term p21 and p53 trends regulate the frequency of mitosis events and cell cycle arrest

Abstract

Radiation exposure of healthy cells can halt cell cycle temporarily or permanently. In this work, two single cell datasets that monitored the time evolution of p21 and p53, one subjected to gamma irradiation and the other to x-ray irradiation, are analyzed to uncover the dynamics of this process. New insights into the biological mechanisms were found by decomposing the p53 and p21 signals into transient and oscillatory components. Through the use of dynamic time warping on the oscillatory components of the two signals, we found that p21 signaling lags behind its lead signal, p53, by about 3.5 hours with oscillation periods of around 6 hours. Additionally, through various quantification methods, we showed how p21 levels, and to a lesser extent p53 levels, dictate whether the cells are arrested in their cell cycle and how fast these cells divide depending on their long-term trend in these signals.

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Keywords

Citation

Tran, A. P. et al. (2021) Long-term p21 and p53 trends regulate the frequency of mitosis events and cell cycle arrest. bioRxiv

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Research Institute

Institute of Engineering Sciences (IES)