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相关概念视频

Renewal of Intestinal Stem Cells01:23

Renewal of Intestinal Stem Cells

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The intestinal epithelial lining rapidly renews every 4 to 5 days. The renewal is facilitated by intestinal stem cells (ISCs) located at the base of the crypt– a gland located at the bottom of each villus. ISCs divide asymmetrically to form new stem cells and progenitor daughter cells. The daughter cells are called transit-amplifying (TA) cells which move upwards along the crypt and either differentiate into absorptive cells– the enterocytes or secretory cells– including the...
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Histology of the Small Intestine01:27

Histology of the Small Intestine

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The small intestine exhibits a unique histological structure that significantly enhances its function in digestion and nutrient absorption. These structures include circular folds, villi, and various specialized cells that collectively facilitate the digestion of food.
The intestinal lining features transverse folds called circular folds, each housing fingerlike projections known as intestinal villi. These villi are covered by a layer of simple columnar epithelium, also referred to as...
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Role Of Notch Signalling In Intestinal Stem Cell Renewal01:12

Role Of Notch Signalling In Intestinal Stem Cell Renewal

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Notch signaling was first discovered in Drosophila melanogaster, where it is involved in cell lineage differentiation. Notch signaling regulates the maintenance and differentiation of intestinal stem cells or ISCs by controlling the expression of atonal homolog 1 or Atoh1. Atoh1 directs cells to differentiate into secretory cells.
Direct cell-to-cell contact is needed for the activation of Notch signaling. The signal is initiated when a notch ligand binds to a receptor on an adjacent cell, also...
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Role of Ephrin-Eph Signalling in Intestinal Stem Cell Renewal01:22

Role of Ephrin-Eph Signalling in Intestinal Stem Cell Renewal

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Erythropoietin-producing hepatocellular carcinoma receptor (Eph) and its ligand, Eph receptor-interacting protein (Ephrin) were first discovered in the human carcinoma cell line, hence the name. Ephrin-Eph interaction guides cells to reach their appropriate location in adult tissues. They also play an essential role in the immune system by helping in immune cell migration, adhesion, and activation. Based on their structure and function, Eph is divided into two classes — EphA and EphB.
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Adult Stem Cells01:33

Adult Stem Cells

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Stem cells are undifferentiated cells that divide and produce more stem cells or progenitor cells that differentiate into mature, specialized cell types. All the cells in the body are generated from stem cells in the early embryo, but small populations of stem cells are also present in many adult tissues including the bone marrow, brain, skin, and gut. These adult stem cells typically produce the various cell types found in that tissue—to replace cells that are damaged or to continuously...
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Gastrulation01:56

Gastrulation

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Gastrulation establishes the three primary tissues of an embryo: the ectoderm, mesoderm, and endoderm. This developmental process relies on a series of intricate cellular movements, which in humans transforms a flat, “bilaminar disc” composed of two cell sheets into a three-tiered structure. In the resulting embryo, the endoderm serves as the bottom layer, and stacked directly above it is the intermediate mesoderm, and then the uppermost ectoderm. Respectively, these tissue strata...
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相关实验视频

Updated: Feb 27, 2026

Mouse Fetal Whole Intestine Culture System for Ex Vivo Manipulation of Signaling Pathways and Three-dimensional Live Imaging of Villus Development
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在化之前,Lgr5+细胞调节小肠形态发生.

Lianzheng Zhao1, Yuchen Xie1, Wanlu Song1

  • 1The State Key Laboratory of Membrane Biology, Tsinghua-Peking Center for Life Sciences, School of Life Sciences, Tsinghua University, Beijing, 100084, China.

Cell regeneration (London, England)
|February 26, 2026
PubMed
概括
此摘要是机器生成的。

胚胎肠干细胞 (PVLCs) 在干细胞的区域差异和控制胚胎小肠发育通过刺信号. 这揭示了区域细胞差异是如何塑造器官形成的.

关键词:
Lgr5 + 单元格中的一个.胚胎的小肠 小肠刺的信号传递方式形态发生 形态发生 形态发生一个的茎.

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Improved Swiss-rolling Technique for Intestinal Tissue Preparation for Immunohistochemical and Immunofluorescent Analyses
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Induced Differentiation of M Cell-like Cells in Human Stem Cell-derived Ileal Enteroid Monolayers
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相关实验视频

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Mouse Fetal Whole Intestine Culture System for Ex Vivo Manipulation of Signaling Pathways and Three-dimensional Live Imaging of Villus Development
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Improved Swiss-rolling Technique for Intestinal Tissue Preparation for Immunohistochemical and Immunofluorescent Analyses
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Induced Differentiation of M Cell-like Cells in Human Stem Cell-derived Ileal Enteroid Monolayers
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科学领域:

  • 发育生物学是发展生物学.
  • 干细胞生物学 干细胞生物学
  • 胃肠道生物学 胃肠道生物学

背景情况:

  • Lgr5标志着成年肠道干细胞和胚胎干细胞/祖先细胞.
  • 胚胎Lgr5+细胞在化前 (PVLCs) 的作用和干细胞在很大程度上是未知的.
  • 了解PVLC对于理解早期肠道发育至关重要.

研究的目的:

  • 为了研究胚胎肠道Lgr5+细胞在化前 (PVLCs) 的干性质.
  • 确定PVLCs在胚胎小肠形态发生中的生理作用.
  • 探索区域异质性对PVLC功能和发展的影响.

主要方法:

  • 对胚胎小肠Lgr5+细胞干细胞的分析.
  • 诱导性细胞剥离实验以评估PVLC功能.
  • 基因淘汰研究调查参与形态发生的信号通路.
  • 从近端到远端小肠的区域特异性分析.

主要成果:

  • PVLCs表现出特定区域的干度,从近端到远端的胚胎小肠增加.
  • PVLCs调节胚胎小肠形态发生.
  • 这种调节通过依赖区域的方式通过 Hedgehog 信号发生.
  • 远端小肠形态发生更依赖于PVLC介导的"刺"信号.

结论:

  • 在化之前,PVLCs在胚胎小肠中具有独特的茎状性质和功能作用.
  • 区域细胞异质性是影响胚胎肠道形态发生的关键因素.
  • 由PVLCs介导的刺信号传递在调节肠道发育方面发挥着关键作用,特别是在远端区域.