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相关概念视频

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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In-vitro Mutagenesis01:16

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To learn more about the function of a gene, researchers can observe what happens when the gene is inactivated or “knocked out,” by creating genetically engineered knockout animals. Knockout mice have been particularly useful as models for human diseases such as cancer, Parkinson’s disease, and diabetes.
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Constitutive and Regulated Gene Expression01:27

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Gene expression in prokaryotes is governed by constitutive and regulated systems, allowing cells to balance the production of essential proteins with adaptive responses to environmental changes.Constitutive Gene ExpressionConstitutive, or housekeeping, genes are continuously expressed as they encode proteins vital for fundamental cellular processes. These include enzymes for glycolysis, ribosomal components for protein synthesis, and proteins involved in DNA replication. Their constant...
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Gene Regulation in Microbial Communities: Quorum Sensing01:28

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Quorum sensing is a mechanism of bacterial communication that enables coordinated gene expression in response to changes in population density. This facilitates collective behaviors that enhance survival, resource acquisition, and ecological adaptation. This process relies on small signaling molecules called autoinducers that accumulate as bacterial populations grow. When a critical threshold concentration of autoinducers is reached, bacterial cells collectively modify gene expression,...
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相关实验视频

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A Protocol for Multiple Gene Knockout in Mouse Small Intestinal Organoids Using a CRISPR-concatemer
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基因,肠道和微生物:解码宿主驱动的微生物调节,使用肠道特异性的条件淘汰.

Priyankar Dey1

  • 1Department of Biotechnology, Thapar Institute of Engineering and Technology, Patiala, Punjab, India.

Frontiers in immunology
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概括
此摘要是机器生成的。

宿主基因积极控制肠道微生物群. 肠特异性淘汰模型揭示了宿主基因如何通过屏障完整性,免疫防御和代谢信号调节微生物生态,影响健康和疾病.

关键词:
在这里,我们可以看到子子.主体-微生物相互作用.我们的肠道是肠道.淘汰赛 淘汰赛 是一个淘汰赛.微生物组是一个微生物组.

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相关实验视频

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科学领域:

  • 微生物学和遗传学 微生物学和遗传学
  • 主体与微生物的相互作用
  • 胃肠病学 胃肠病学

背景情况:

  • 肠道微生物群在宿主健康中起着至关重要的作用.
  • 了解宿主对肠道微生物群的遗传影响至关重要.
  • 现有的模型往往具有系统效应,限制了特定的遗传见解.

研究的目的:

  • 审查宿主基因在调节肠道微生物群组成和功能中的作用.
  • 要突出肠道特异性条件淘汰 (cKO) 模型的实用性.
  • 阐明控制肠道微生物生态的宿主驱动机制.

主要方法:

  • 现有文献的叙述性审查.
  • 分析使用肠特异性条件淘汰 (cKO) 模型的研究.
  • 检查Cre-loxP技术用于肠道细胞中精确的基因删除.

主要成果:

  • 主体基因通过屏障完整性,免疫防御和代谢信号来积极调节肠道微生物群.
  • 这些宿主通路的破坏会导致失生症和病原生物的增加.
  • 肠特异性cKO模型有效地将宿主遗传效应与系统影响隔离起来.

结论:

  • 主体遗传学是维持肠道微生物共生的核心.
  • 准宿主通路为肠道失生症和相关疾病提供了一个有前途的治疗策略.
  • 肠道功能是微生物群的积极调节者,而不是被动的环境.