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M-Cdk Drives Transition Into Mitosis02:15

M-Cdk Drives Transition Into Mitosis

Checkpoints throughout the cell cycle serve as safeguards and gatekeepers, allowing the cell cycle to progress in favorable conditions and slow or halt it in problematic ones. This regulation is known as the cell cycle control system.
Cyclin-dependent kinases, or Cdks, work in concert with cyclins to control cell cycle transitions. M-Cdk, a complex of Cdk1 bound to M cyclin, is a well-known example of this coordinated control that drives the transition from the G2 to the M phase.
M cyclin...
Mitogens and the Cell Cycle02:38

Mitogens and the Cell Cycle

Mitogens and their receptors play a crucial role in controlling the progression of the cell cycle. However, the loss of mitogenic control over cell division leads to tumor formation. Therefore, mitogens and mitogen receptors play an important role in cancer research. For instance, the epidermal growth factor (EGF) - a type of mitogen and its transmembrane receptor (EGFR), decides the fate of the cell's proliferation. When EGF binds to EGFR, a member of the ErbB family of tyrosine kinase...
Separation of Sister Chromatids02:17

Separation of Sister Chromatids

At the transition from prophase to metaphase, there is a reduction in cohesion along the chromosomal arms, resulting in the resolution of sister chromatids. However, residual cohesin connections remain to hold the sister chromatids together until the transition from metaphase to anaphase. The residual connection prevents any premature separation of sister chromatids, blocking the risks of aneuploidy within the daughter cells.
At the onset of anaphase, separase, a proteolytic enzyme, is...
M-Cdk Drives Transition Into Mitosis02:15

M-Cdk Drives Transition Into Mitosis

Checkpoints throughout the cell cycle serve as safeguards and gatekeepers, allowing the cell cycle to progress in favorable conditions and slow or halt it in problematic ones. This regulation is known as the cell cycle control system.
Cyclin-dependent kinases, or Cdks, work in concert with cyclins to control cell cycle transitions. M-Cdk, a complex of Cdk1 bound to M cyclin, is a well-known example of this coordinated control that drives the transition from the G2 to the M phase.
M cyclin...
Mitogens and the Cell Cycle02:38

Mitogens and the Cell Cycle

Mitogens and their receptors play a crucial role in controlling the progression of the cell cycle. However, the loss of mitogenic control over cell division leads to tumor formation. Therefore, mitogens and mitogen receptors play an important role in cancer research. For instance, the epidermal growth factor (EGF) - a type of mitogen and its transmembrane receptor (EGFR), decides the fate of the cell's proliferation. When EGF binds to EGFR, a member of the ErbB family of tyrosine kinase...
Mitosis and Cytokinesis01:35

Mitosis and Cytokinesis

In eukaryotes, the cell division cycle is divided into distinct, coordinated cellular processes that include cell growth, DNA replication/chromosome duplication, chromosome distribution to daughter cells, and finally, cell division. The cell cycle is tightly regulated by its regulatory systems as well as extracellular signals that affect cell proliferation.
The processes of the cell cycle occur over approximately 24 hours (in typical human cells) and in two major distinguishable stages. The...

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Related Experiment Video

Updated: Jul 5, 2026

Combining Mitotic Cell Synchronization and High Resolution Confocal Microscopy to Study the Role of Multifunctional Cell Cycle Proteins During Mitosis
08:33

Combining Mitotic Cell Synchronization and High Resolution Confocal Microscopy to Study the Role of Multifunctional Cell Cycle Proteins During Mitosis

Published on: December 5, 2017

Triggering the all-or-nothing switch into mitosis.

P H O'Farrell1

  • 1Dept of Biochemistry and Biophysics, University of California, San Francisco, San Francisco, CA 94143-0448, USA. ofarrell@cgl.ucsf.edu

Trends in Cell Biology
|November 24, 2001
PubMed
Summary
This summary is machine-generated.

Cell cycle research reveals a key switch mechanism controlling entry into mitosis. This switch rapidly removes inhibitory phosphates from cyclin:Cdk1 complexes, committing the cell to division.

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Last Updated: Jul 5, 2026

Combining Mitotic Cell Synchronization and High Resolution Confocal Microscopy to Study the Role of Multifunctional Cell Cycle Proteins During Mitosis
08:33

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Published on: December 5, 2017

Live Cell Imaging to Assess the Dynamics of Metaphase Timing and Cell Fate Following Mitotic Spindle Perturbations
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Area of Science:

  • Cell Biology
  • Molecular Biology
  • Biochemistry

Background:

  • The cell cycle is tightly regulated to ensure proper cell division.
  • Entry into mitosis involves the activation of key regulatory kinases.
  • Multiple regulatory mechanisms modulate kinase activity, including phosphorylation and inhibitor binding.

Purpose of the Study:

  • To elucidate the primary regulatory mechanism controlling the G2 to mitosis transition.
  • To understand the switch-like process that commits cells to mitosis.

Main Methods:

  • Review of cell cycle investigations over the past decade.
  • Analysis of regulatory pathways modulating cyclin:Cdk1 complexes.
  • Focus on phosphorylation and dephosphorylation events.

Main Results:

  • A specific regulatory option, rather than a combination, governs the G2 to mitosis transition.
  • A switch-like mechanism integrates cellular status signals.
  • This switch involves the abrupt removal of inhibitory phosphates from preformed cyclin:Cdk1 complexes.

Conclusions:

  • The primary control for entering mitosis relies on a dephosphorylation switch.
  • This switch rapidly activates mitotic kinase by altering the balance of modifying reactions.
  • This mechanism ensures a decisive commitment to cell division.