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相关概念视频

Cadherins in Tissue Organization01:19

Cadherins in Tissue Organization

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The cadherins are a superfamily of cell adhesion molecules comprising over 180 variants, with specific tissues expressing a particular combination of cadherin types. Cadherins generally exhibit homophilic binding; i.e., cadherins on one cell bind to cadherins of the same or closely related type on another cell. Thus, cells of the same type have a specific affinity to bind to each other and sort themselves into clusters to form tissues.
Cell Sorting During Development
Cell sorting plays an...
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Tension Response at Adherens Junctions01:26

Tension Response at Adherens Junctions

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The adherens junctions that anchor cells together are multi-protein complexes that dynamically adapt to mechanical stimuli such as tensile forces and shear stress. Mechanosensory proteins in these junctions can sense such mechanical stimuli and undergo a shift in their conformation, resulting in an altered function — a process called mechanotransduction.
α-Catenin as a Mechanosensory Protein
The α-catenin of adherens junctions is an allosteric protein with three VH (vinculin...
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Structure of Cadherins01:25

Structure of Cadherins

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The cadherins were one of the first cell adhesion molecules discovered; the term “cadherins”   is based on their calcium-dependent adhering properties. The first cadherins discovered on the epithelial, neuronal, and placental cells were named E-cadherin, P-cadherin, and N-cadherin, respectively. These classical cadherins share sequence and structural similarities. Other cadherins, including those involved in cell signaling, are grouped into non-classical cadherins. This...
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Mechanism of Lamellipodia Formation01:31

Mechanism of Lamellipodia Formation

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Cells migrating in response to external stimuli form lamellipodia, which are thin membrane protrusions supported by a mesh of linked, branched, or unbranched actin filaments. These actin filaments interact with myosin motor proteins, creating the dynamic actomyosin complex within the cytoskeleton. Contractility, or the ability to generate contractile stress, is inherent to the actomyosin complex. It helps cells detect the stiffness of the surrounding ECM and exert contractile force for...
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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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Catenins01:23

Catenins

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Catenins are characterized by multiple binding domains and dynamic structures that allow them to function as linker proteins in cell junction complexes. All catenins, except α-catenin, contain a characteristic protein sequence called the armadillo repeat and are therefore also called armadillo proteins.
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Catenins bind to cell adhesion molecules such as cadherins and link them to different cytoskeletal proteins depending on the type of cell junction. At the...
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Using Confocal Analysis of Xenopus laevis to Investigate Modulators of Wnt and Shh Morphogen Gradients
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卡德林连接的形态原梯度使强壮的组织模式变得现实.

Tohru Ishitani1

  • 1Department of Homeostatic Regulation, Research Institute for Microbial Diseases, Osaka University, Suita, Osaka 565-0871, Japan; Center for Infectious Disease Education and Research (CiDER), Osaka University, Suita, Osaka 565-0871, Japan.

Current opinion in cell biology
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PubMed
概括
此摘要是机器生成的。

涉及卡德林的细胞竞争消除了不适合的细胞,纠正了对斑马鱼胚胎中可再生组织模式至关重要的杂的形态基梯度. 这种机制确保了发育的稳健性.

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科学领域:

  • 发展生物学 发展生物学
  • 细胞生物学 细胞生物学
  • 遗传学 是一个遗传学.

背景情况:

  • 形态原梯度对于在胚胎发育过程中建立组织模式和细胞命运至关重要.
  • 虽然形态基因梯度形成得到了充分的研究,但细胞通信在这些梯度改进中的作用仍然不清楚.

研究的目的:

  • 研究细胞通信在确保强大的形态基因梯度形成中的作用.
  • 阐明细胞竞争有助于精确组织模式的机制.

主要方法:

  • 利用斑马鱼胚胎研究形态原梯度动力学.
  • 研究了在调节Wnt信号传递方面,卡德林介导细胞相互作用的功能.
  • 分析了细胞竞争的过程及其对梯度噪声的影响.

主要成果:

  • 确定了具有异常Wnt信号的不适合细胞自发产生的,创造杂的形态变异梯度.
  • 证明了卡德林介导的细胞竞争消除了这些不适合的细胞.
  • 表明这种消除过程会纠正梯度噪声,从而导致可复制的组织模式.

结论:

  • 卡德林介导的细胞竞争是确保形态原梯度强度的关键机制.
  • 这个过程纠正发育噪声,支持准确的组织模式,并可能影响进化和疾病背景.