Multisite phosphoregulation of Cdc25 activity refines the mitotic entrance and exit switches
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Bela Novak | Maria Rosa Domingo-Sananes | B. Novák | K. Gould | L. Lu | M. Domingo-Sananes | M. Huzarska | Kathleen L Gould | Lucy X Lu | Malwina Huzarska
[1] R. Medema,et al. The decision to enter mitosis: feedback and redundancy in the mitotic entry network , 2009, The Journal of cell biology.
[2] P. Russell,et al. Stockpiling of Cdc25 during a DNA replication checkpoint arrest in Schizosaccharomyces pombe , 1996, Molecular and cellular biology.
[3] James E. Ferrell,et al. Bistability in cell signaling: How to make continuous processes discontinuous, and reversible processes irreversible. , 2001, Chaos.
[4] S. Moreno,et al. A role for the Cdc14-family phosphatase Flp1p at the end of the cell cycle in controlling the rapid degradation of the mitotic inducer Cdc25p in fission yeast , 2004, Journal of Cell Science.
[5] P. Jallepalli,et al. Vertebrate cells genetically deficient for Cdc14A or Cdc14B retain DNA damage checkpoint proficiency but are impaired in DNA repair , 2010, The Journal of cell biology.
[6] James E. Ferrell,et al. Systems-Level Dissection of the Cell-Cycle Oscillator: Bypassing Positive Feedback Produces Damped Oscillations , 2005, Cell.
[7] J. Yates,et al. The Clp1/Cdc14 phosphatase contributes to the robustness of cytokinesis by association with anillin-related Mid1 , 2008, The Journal of cell biology.
[8] Marc W. Kirschner,et al. Timing of Events in Mitosis , 2002, Current Biology.
[9] B. A. Ballif,et al. Dephosphorylation of F-BAR protein Cdc15 modulates its conformation and stimulates its scaffolding activity at the cell division site. , 2010, Molecular cell.
[10] James E. Ferrell,et al. Feedback regulation of opposing enzymes generates robust, all-or-none bistable responses , 2008, Current Biology.
[11] S. Moreno,et al. Flp1, a fission yeast orthologue of the s. cerevisiae CDC14 gene, is not required for cyclin degradation or rum1p stabilisation at the end of mitosis. , 2001, Journal of cell science.
[12] J. Tyson,et al. Numerical analysis of a comprehensive model of M-phase control in Xenopus oocyte extracts and intact embryos. , 1993, Journal of cell science.
[13] K. Gould,et al. The role of the Sid1p kinase and Cdc14p in regulating the onset of cytokinesis in fission yeast , 2000, The EMBO journal.
[14] A. Murray,et al. Dynamics of centromeres during metaphase-anaphase transition in fission yeast: Dis1 is implicated in force balance in metaphase bipolar spindle. , 1998, Molecular biology of the cell.
[15] Zhilin Qu,et al. Multisite phosphorylation and network dynamics of cyclin-dependent kinase signaling in the eukaryotic cell cycle. , 2004, Biophysical journal.
[16] Béla Novák,et al. Supplementary Fig. 1 , 2021 .
[17] B. Novák,et al. The size control of fission yeast revisited. , 1996, Journal of cell science.
[18] Eduardo Sontag,et al. Building a cell cycle oscillator: hysteresis and bistability in the activation of Cdc2 , 2003, Nature Cell Biology.
[19] James E. Ferrell,et al. Substrate Competition as a Source of Ultrasensitivity in the Inactivation of Wee1 , 2007, Cell.
[20] J. Ferrell,et al. Ultrasensitivity in the Regulation of Cdc25C by Cdk1. , 2011, Molecular cell.
[21] Angelika Amon,et al. Closing mitosis: the functions of the Cdc14 phosphatase and its regulation. , 2004, Annual review of genetics.
[22] P. Fantes. Control of cell size and cycle time in Schizosaccharomyces pombe. , 1977, Journal of cell science.
[23] B. Novák,et al. Different effects of redundant feedback loops on a bistable switch. , 2010, Chaos.
[24] David O. Morgan,et al. Cascades of multisite phosphorylation control Sic1 destruction at the onset of S phase , 2011, Nature.
[25] J. Tyson,et al. Design principles of biochemical oscillators , 2008, Nature Reviews Molecular Cell Biology.
[26] K. Gould,et al. Fission yeast Clp1p phosphatase affects G2/M transition and mitotic exit through Cdc25p inactivation , 2004, The EMBO journal.
[27] J. R. Pomerening,et al. Positive‐feedback loops in cell cycle progression , 2009, FEBS letters.
[28] Hiroyuki Osada,et al. M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[29] David O. Morgan,et al. Positive feedback sharpens the anaphase switch , 2008, Nature.
[30] Paul Russell,et al. Regulatory networks integrating cell cycle control with DNA damage checkpoints and double-strand break repair , 2011, Philosophical Transactions of the Royal Society B: Biological Sciences.
[31] John J Tyson,et al. System-level feedbacks make the anaphase switch irreversible , 2011, Proceedings of the National Academy of Sciences.
[32] Bernard Ducommun,et al. CDC25 phosphatases in cancer cells: key players? Good targets? , 2007, Nature Reviews Cancer.
[33] J. R. Paulson,et al. Chemical genetic analysis of the regulatory role of Cdc2p in the S. pombe septation initiation network , 2008, Journal of Cell Science.
[34] J. Yates,et al. Phospho-regulation of the Cdc14/Clp1 phosphatase delays late mitotic events in S. pombe. , 2006, Developmental cell.
[35] M. Tyers,et al. Fission yeast Clp1p phosphatase regulates G2/M transition and coordination of cytokinesis with cell cycle progression , 2001, Current Biology.