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相关概念视频

Notch Signaling Pathway03:14

Notch Signaling Pathway

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The Notch signaling pathway is a major intracellular signaling pathway that is highly conserved over a broad spectrum of metazoan species. It stands unique from other intracellular signaling mechanisms in animals because notch protein itself acts as the receptor as well as the primary signaling molecule.
The Notch gene came into the limelight in 1914 after the discovery that its mutation in Drosophila melanogaster leads to a serrated (or "notched") wing margin phenotype. It was not...
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Hedgehog Signaling Pathway02:33

Hedgehog Signaling Pathway

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The Hedgehog gene (Hh) was first discovered due to its control of the growth of disorganized, hair-like bristles phenotype in Drosophila, much like hedgehog spines. Hh plays a crucial role in the development of organs and the maintenance of homeostasis in both invertebrates and vertebrates. However, while Drosophila has only one Hh protein, mammals have multiple functional Hedgehog proteins - Sonic (Shh), Desert (Dhh), and Indian Hedgehog (Ihh). All of these homologous proteins have adapted to...
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Interactions Between Signaling Pathways01:19

Interactions Between Signaling Pathways

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Signaling cascades usually lack linearity. Multiple pathways interact and regulate one another, allowing cells to integrate and respond to diverse environmental stimuli.
Convergence and divergence, and cross-talk between signaling pathways
Two distinct signaling pathways can converge on a single functional unit, which may either be a single protein or a complex of proteins. The response is either functionally distinct or synergistic between the two pathways but different from the response...
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Non-Canonical Wnt Signaling Pathways01:41

Non-Canonical Wnt Signaling Pathways

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Wnt is a zygotic effect gene that is expressed during very early embryonic development. It regulates various processes in animals starting from early development through the adult stage, such as organogenesis in the embryo and maintenance of neuronal and blood stem cells. Wnt proteins can induce a wide variety of intracellular pathways depending upon the specific abilities of different Wnt ligands to form a complex with shared and cognate receptors in the presence of different co-receptors. The...
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Canonical Wnt Signaling Pathway02:54

Canonical Wnt Signaling Pathway

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The gene encoding the main signaling molecules of the Wnt signaling pathways (the Wnt proteins) was discovered almost four decades ago by Nüsslein-Volhard and Wieschaus. They identified and originally named the gene "wingless" (wg) after a phenotype discovered during their landmark genetic screen in Drosophila for body pattern defects. At around the same time, another researcher named Harold Varmus found that a murine tumor virus activates the mammalian wg homolog, Int-1, which...
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NF-κB-dependent Signaling Pathway02:26

NF-κB-dependent Signaling Pathway

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The transcription factor NF-κB was discovered in 1986 in the lab of Nobel laureate Professor David Baltimore, for its interaction with the immunoglobulin light chain enhancer in B-cells. After more than three decades of study, it is now evident that NF-κB regulates the expression of over 100 genes. Most of these genes play an essential role in the innate and adaptive immune responses as well as the inflammatory responses of animals.
NF-κB-dependent Signaling Mechanism
The...
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相关实验视频

Updated: Jan 31, 2026

Engineering Skeletal Muscle Tissues from Murine Myoblast Progenitor Cells and Application of Electrical Stimulation
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Engineering Skeletal Muscle Tissues from Murine Myoblast Progenitor Cells and Application of Electrical Stimulation

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机械刺激驱动多细胞协同作用和信号通路在发展骨组织.

Qiao Guan1, Yuxiang Du1, Jun Zou1

  • 1School of Exercise and Health, Shanghai University of Sport, Shanghai, 200438, China.

Sports medicine (Auckland, N.Z.)
|January 30, 2026
PubMed
概括

年轻时的运动和机械负荷对于建立强壮的骨至关重要. 本综述探讨了体力活动如何影响骨细胞和分子通路,以促进峰值骨质量和长期骨健康.

科学领域:

  • 整形外科和运动医学
  • 发展生物学 发展生物学
  • 细胞和分子生物学 细胞和分子生物学

背景情况:

  • 增长期对于骨质的获得和骨的发育至关重要.
  • 生长中的骨头对运动等机械刺激的反应很强.
  • 了解这些影响是预防未来骨疾病的关键.

研究的目的:

  • 综合审查运动和机械刺激在生长期间对骨发育的影响.
  • 探索机制调节的潜在细胞和分子机制.
  • 为设计有效的青少年骨健康运动计划提供见解.

主要方法:

  • 文献综述侧重于生长期间的骨发育.
  • 细胞反应的分析 (骨髓介质干细胞,骨质母细胞,骨质细胞,骨质细胞,骨质细胞,骨质细胞,骨质细胞).
  • 对关键分子信号通路 (Wnt/β-catenin,BMP/SMAD,PI3K/Akt,RANKL/OPG,MAPK) 的检查.

主要成果:

  • 运动和机械负荷积极影响骨细胞活动和分化.
  • 特定的信号通路由身体活动调节,调节骨形成和再吸收.
  • 这些通路对于达到峰值骨质量和保持骨完整性至关重要.

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Mechanical Stimulation of Chondrocyte-agarose Hydrogels
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Mechanical Stimulation of Chondrocyte-agarose Hydrogels

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Myo-mechanical Analysis of Isolated Skeletal Muscle

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相关实验视频

Last Updated: Jan 31, 2026

Engineering Skeletal Muscle Tissues from Murine Myoblast Progenitor Cells and Application of Electrical Stimulation
08:38

Engineering Skeletal Muscle Tissues from Murine Myoblast Progenitor Cells and Application of Electrical Stimulation

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Mechanical Stimulation of Chondrocyte-agarose Hydrogels
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Mechanical Stimulation of Chondrocyte-agarose Hydrogels

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Myo-mechanical Analysis of Isolated Skeletal Muscle
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Myo-mechanical Analysis of Isolated Skeletal Muscle

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结论:

  • 运动和机械刺激对于优化青年时期的骨发育至关重要.
  • 通过运动准特定的信号通路可以增强骨健康策略.
  • 研究结果为促进终身骨健康和降低骨质疏松症风险提供了实际指导.