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Cells Coordinate Growth and Proliferation02:36

Cells Coordinate Growth and Proliferation

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Cell size is a significant factor impacting cellular design, function, and fitness. There exists some internal coordination by which cells double their masses before division, thus, achieving homeostasis. Coordination between cell growth and proliferation depends on the checkpoints in between cell cycle phases. Loss of coordination or failure in the checkpoint mechanism can drive the cell to uncontrolled growth and loss of cellular function. Like dividing cells that coordinate cellular growth,...
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Cell sizes vary widely among and within organisms. Bacterial cells range between 1-10 micrometers (μm)and are considerably smaller than most eukaryotic cells. The smallest bacteria are 0.1 μm in diameter—about a thousand times smaller than eukaryotic cells, which typically range from 10-100 μm.
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The concept of a cell started with microscopic observations of dead cork tissue by Robert Hooke in 1665. Hooke coined the term "cell" based on the resemblance of the small subdivisions in the cork to the rooms that monks inhabited, called cells. About ten years later, Antonie van Leeuwenhoek became the first person to observe the living and moving cells under a microscope. In the century that followed, the theory that cells represented the basic unit of life developed.
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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.
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Cellular needs and conditions vary from cell to cell and change within individual cells over time. For example, the required enzymes and energetic demands of stomach cells are different from those of fat storage cells, skin cells, blood cells, and nerve cells. Furthermore, a digestive cell works much harder to process and break down nutrients during the time that closely follows a meal compared with many hours after a meal. As these cellular demands and conditions vary, so do the amounts and...
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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.
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Updated: Jan 11, 2026

A Cell-Free Assay Using Xenopus laevis Embryo Extracts to Study Mechanisms of Nuclear Size Regulation
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一种营养物质如何控制细胞大小

Angela Montero1, Lydia W S Finley1

  • 1Memorial Sloan Kettering Cancer Center, New York, United States.

eLife
|November 19, 2025
PubMed
概括
此摘要是机器生成的。

细胞大小是由pyruvate的代谢命运决定的. 了解酸盐代谢是了解细胞生长和发育的关键.

关键词:
D. melanogaster. D. 黑色巨 (Melanogaster) 是一种有毒的植物.生物化学 生物化学细胞生物学 细胞生物学细胞生长细胞的生长.化学生物学 化学生物学遗传学 遗传学 遗传学 是一个肝细胞 肝细胞 肝细胞人类 人类 人类 人类 人类 人类 人类皮鲁酸盐的新陈代谢氧化还原状态 氧化还原状态翻译翻译翻译翻译翻译翻译

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科学领域:

  • 生物化学 生物化学
  • 细胞生物学 细胞生物学
  • 代谢调节 代谢调节 代谢调节

背景情况:

  • 细胞生长和增殖是生物学中的基本过程.
  • 细胞大小是影响细胞功能和生物体发育的关键参数.
  • 代谢途径在调节细胞过程中起着重要作用.

研究的目的:

  • 研究酸盐代谢在细胞大小决定中的作用.
  • 阐明将酸盐命运与细胞生长联系起来的分子机制.

主要方法:

  • 在模型生物中利用基因操纵改变pyruvate代谢途径.
  • 采用活细胞成像和生化分析来测量细胞大小和代谢流量.
  • 分析了与细胞周期和生长相关的基因表达特征.

主要成果:

  • 发现酸盐的特定代谢命运与细胞大小直接相关.
  • 抑制某些pyruvate代谢途径导致细胞大小增加.
  • 激活了替代的酸盐利用途径,导致细胞尺寸变小.

结论:

  • 酸盐的代谢过程是细胞大小的关键决定因素.
  • 准pyruvate代谢提供了控制细胞生长的潜在策略.
  • 这项研究为细胞大小的代谢调节提供了新的见解.