Hysteresis drives cell-cycle transitions in Xenopus laevis egg extracts.

نویسندگان

  • Wei Sha
  • Jonathan Moore
  • Katherine Chen
  • Antonio D Lassaletta
  • Chung-Seon Yi
  • John J Tyson
  • Jill C Sible
چکیده

Cells progressing through the cell cycle must commit irreversibly to mitosis without slipping back to interphase before properly segregating their chromosomes. A mathematical model of cell-cycle progression in cell-free egg extracts from frog predicts that irreversible transitions into and out of mitosis are driven by hysteresis in the molecular control system. Hysteresis refers to toggle-like switching behavior in a dynamical system. In the mathematical model, the toggle switch is created by positive feedback in the phosphorylation reactions controlling the activity of Cdc2, a protein kinase bound to its regulatory subunit, cyclin B. To determine whether hysteresis underlies entry into and exit from mitosis in cell-free egg extracts, we tested three predictions of the Novak-Tyson model. (i) The minimal concentration of cyclin B necessary to drive an interphase extract into mitosis is distinctly higher than the minimal concentration necessary to hold a mitotic extract in mitosis, evidence for hysteresis. (ii) Unreplicated DNA elevates the cyclin threshold for Cdc2 activation, indication that checkpoints operate by enlarging the hysteresis loop. (iii) A dramatic "slowing down" in the rate of Cdc2 activation is detected at concentrations of cyclin B marginally above the activation threshold. All three predictions were validated. These observations confirm hysteresis as the driving force for cell-cycle transitions into and out of mitosis.

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Experimental Evidence for Hysteresis in the Cell Cycles of Xenopus Laevis Egg Extracts

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عنوان ژورنال:
  • Proceedings of the National Academy of Sciences of the United States of America

دوره 100 3  شماره 

صفحات  -

تاریخ انتشار 2003