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関連する概念動画

Negative Regulator Molecules01:23

Negative Regulator Molecules

35.3K
Positive regulators allow a cell to advance through cell cycle checkpoints. Negative regulators have an equally important role as they terminate a cell’s progression through the cell cycle—or pause it—until the cell meets specific criteria.
35.3K
The Cell Cycle Control System01:28

The Cell Cycle Control System

2.8K
The cell cycle regulation directs how a cell proceeds from one phase to the next and begins mitosis. The cell cycle control system includes intracellular regulatory molecules and external triggers. They provide "stop" or "advance" signals and operate at specific cell cycle stages termed checkpoints to ensure that a particular process is completed before the cell advances to the next phase.
Cyclins and cyclin-dependent kinases (Cdks) are the primary cell cycle regulators and...
2.8K
The Spindle Assembly Checkpoint02:19

The Spindle Assembly Checkpoint

3.1K
The spindle assembly checkpoint is a molecular surveillance mechanism ensuring the fidelity of chromosome segregation during anaphase. The checkpoint monitors the completion of all the prerequisite steps before chromosome segregation to determine whether the segregation process should proceed or be delayed.
Many proteins function together to control the spindle assembly checkpoint. Mutations affecting these proteins may allow cells to proceed into anaphase prematurely, resulting in the...
3.1K
Molecular Factors Affecting Cell Division01:27

Molecular Factors Affecting Cell Division

3.1K
Several external and internal factors influence the initiation and inhibition of cell division. For instance, the death of nearby cells or the release of human growth hormone (hGH) promotes cell division. In contrast, lack of hGH or crowding of cells can inhibit cell division.
Several proteins function as internal regulators to ensure each cell cycle stage is completed faithfully before proceeding to the next. Regulator molecules may act directly or influence the activity or production of other...
3.1K
Restarting Stalled Replication Forks02:37

Restarting Stalled Replication Forks

5.8K
DNA replication is initiated at sites containing predefined DNA sequences known as origins of replication. DNA is unwound at these sites by the minichromosome maintenance (MCM) helicase and other factors such as Cdc45 and the associated GINS complex.The unwound single strands are protected by replication protein A (RPA) until DNA polymerase starts synthesizing DNA at the 5’ end of the strand in the same direction as the replication fork. To prevent the replication fork from falling apart,...
5.8K
DNA Damage can Stall the Cell Cycle02:37

DNA Damage can Stall the Cell Cycle

9.1K
In response to DNA damage, cells can pause the cell cycle to assess and repair the breaks. However, the cell must check the DNA at certain critical stages during the cell cycle. If the cell cycle pauses before DNA replication, the cells will contain twice the amount of DNA. On the other hand, if cells arrest after DNA replication but before mitosis, they will contain four times the normal amount of DNA. With a host of specialized proteins at their disposal,cells must use the right protein at...
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Updated: Jun 27, 2025

Studying Cell Cycle-regulated Gene Expression by Two Complementary Cell Synchronization Protocols
12:02

Studying Cell Cycle-regulated Gene Expression by Two Complementary Cell Synchronization Protocols

Published on: June 6, 2017

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細胞サイクルの逆ブレーキ

Bart Westendorp1,2

  • 1Department of Biomolecular Health Sciences, Division Cell Biology, Metabolism and Cancer, Faculty of Veterinary Medicine, Utrecht University, Utrecht, Netherlands.

Science (New York, N.Y.)
|May 2, 2024
PubMed
まとめ
この要約は機械生成です。

ミトゲンシグナル伝達は 細胞が全ゲノムを複製するのを防ぎ 遺伝的安定性を確保します このプロセスは 細胞が分裂を準備した後で発生し 間違いを防ぎます

さらに関連する動画

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

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Analysis of Cell Cycle Position in Mammalian Cells
12:19

Analysis of Cell Cycle Position in Mammalian Cells

Published on: January 21, 2012

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関連する実験動画

Last Updated: Jun 27, 2025

Studying Cell Cycle-regulated Gene Expression by Two Complementary Cell Synchronization Protocols
12:02

Studying Cell Cycle-regulated Gene Expression by Two Complementary Cell Synchronization Protocols

Published on: June 6, 2017

27.3K
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

14.3K
Analysis of Cell Cycle Position in Mammalian Cells
12:19

Analysis of Cell Cycle Position in Mammalian Cells

Published on: January 21, 2012

60.4K

科学分野:

  • 細胞生物学
  • 遺伝学
  • 分子信号

背景:

  • 細胞循環の調節は 遺伝的不安定性を防ぐために 極めて重要です
  • 全ゲノム複製 (WGD) はアヌプロイド症と癌の主要な原因である.
  • 細胞増殖と生存を制御するミトジェニック信号伝達経路

研究 の 目的:

  • 全ゲノム複製を防止するミトゲンシグナル伝達の役割を調査する.
  • ミトゲンシグナルがWGDを制御するためにS相のエントリー前にまたは後に作用するかどうかを判断する.

主な方法:

  • 細胞培養モデルを用いて 遺伝子操作を施しました
  • 細胞サイクル進行とDNA含有量を監視するために生細胞画像を用いた.
  • 信号経路の活性化が バイオケミカルアッセイで分析されました

主要な成果:

  • ミトゲンシグナル伝達経路はWGDを積極的に抑制することが判明しました.
  • この抑制メカニズムは,S相のエントリーの下流で動作します.
  • ミトゲンシグナル伝達の障害は,WGDの発生を増加させた.

結論:

  • ミトゲンシグナリングはWGDを防ぐために重要なチェックポイントを提供します.
  • このチェックポイントは 細胞がDNA複製を開始した後で機能します
  • 堅固なミトゲンシグナル伝達を維持することは ゲノムの完全性にとって不可欠です