Cell cycle dynamics of redox state and lipid metabolism in S. cerevisiae, S. pombe and murine leukaemia cells
Terpstra, H. M.; Fulleborn, J. A.; Kamenz, J.; Heinemann, M.
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Coordination of metabolism, cell growth and cell division is essential to life. Recent single-cell measurements in S. cerevisiae have shown that metabolic processes and the cellular redox state are dynamic along the cell cycle. However, it is unknown whether similar metabolic oscillations also occur in other organisms. Until now, the dynamics of metabolism in other eukaryotes have predominantly been studied in cell cycle synchronised populations. Since cell cycle synchronisation methods can perturb metabolism, they may also introduce artefacts in the recorded dynamics. Here, we performed time-lapse microscopy analyses of exponentially growing single cells of the budding yeast S. cerevisiae, the fission yeast S. pombe and murine leukaemia L1210 cells. Measuring the NAD(P)H autofluorescence and the cell surface area growth rate in unsynchronised cells, we discovered oscillations along the cell cycle of the cellular redox state and lipid metabolism, respectively. Thus, our work shows that metabolism is dynamic along the cell cycle of these three evolutionarily distant eukaryotic organisms. This finding suggests that such metabolic oscillations could be a conserved characteristic among eukaryotes.
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