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相关概念视频

Replicative Cell Senescence02:15

Replicative Cell Senescence

Replicative cell senescence is a property of cells that allows them to divide a finite number of times throughout the organism's lifespan while preventing excessive proliferation. Replicative senescence is associated with the gradual loss of the telomere — short, repetitive DNA sequences found at the end of the chromosomes. Telomeres are bound by a group of proteins to form a protective cap on the ends of chromosomes. Embryonic stem cells express telomerase — an enzyme that adds the telomeric...
Somatic to iPS Cell Reprogramming01:29

Somatic to iPS Cell Reprogramming

Reprogramming alters the gene expression in somatic cells, transforming them into induced pluripotent stem (iPS) cells over several generations. Scientists can reprogram cells by introducing genes for four transcription factors—Oct4, Sox2, Klf4, and c-Myc (OSKM) by viral or non-viral methods. These factors are also known as Yamanaka factors after Shinya Yamanaka, who first generated iPS cells using mouse skin cells. Yamanaka was awarded the Nobel Prize in Physiology or Medicine in 2012 for this...
iPS Cell Differentiation01:22

iPS Cell Differentiation

The ability of induced pluripotent stem cells or iPSCs to differentiate into most body cell types has stimulated repair and regenerative medicine research over the past few decades. iPSC-derived blood cells, hepatocytes, beta islet cells, cardiomyocytes, neurons, and other cell types can repair injuries or regenerate damaged tissue in diseases such as diabetes and neurodegenerative disorders.
Cellular Differentiation00:57

Cellular Differentiation

How does a complex organism such as a human develop from a single cell? It all starts from a single fertilized egg which gives rise to a vast array of cell types, such as nerve cells, muscle cells, and epithelial cells that characterize the adult? Throughout development and adulthood, cellular differentiation leads cells to assume their final morphology and physiology. Differentiation is the process by which unspecialized cells become specialized to carry out distinct functions.
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Cells of the Adaptive Immune Response01:23

Cells of the Adaptive Immune Response

The T and B lymphocytes of the adaptive immune system develop from common lymphoid progenitor cells in the bone marrow. These progenitors give rise to precursors that eventually develop into both T and B lymphocytes. As these precursors mature, they gain the ability to detect and respond to foreign antigens in the body, a process known as immunocompetence. Additionally, these precursors acquire self-tolerance, a process that ensures they do not react to self-antigens. This intricate system...
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相关实验视频

Updated: May 13, 2026

Preparation of Aplysia Sensory-motor Neuronal Cell Cultures
17:27

Preparation of Aplysia Sensory-motor Neuronal Cell Cultures

Published on: June 8, 2009

制造细胞记忆的过程

Devin R Burrill1, Pamela A Silver

  • 1Department of Systems Biology, Harvard Medical School, Boston, MA 02115, USA.

Cell
|January 21, 2010
PubMed
概括
此摘要是机器生成的。

细胞记忆,即对刺激的长时间反应,是由转录调节的. 这项研究探讨了自然和合成记忆网络,突出了医学和生物技术中的应用.

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Cultivate Primary Nasal Epithelial Cells from Children and Reprogram into Induced Pluripotent Stem Cells
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In Vivo Imaging of Neural Activity in Unanesthetized Drosophila Adult Flies
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相关实验视频

Last Updated: May 13, 2026

Preparation of Aplysia Sensory-motor Neuronal Cell Cultures
17:27

Preparation of Aplysia Sensory-motor Neuronal Cell Cultures

Published on: June 8, 2009

Cultivate Primary Nasal Epithelial Cells from Children and Reprogram into Induced Pluripotent Stem Cells
12:08

Cultivate Primary Nasal Epithelial Cells from Children and Reprogram into Induced Pluripotent Stem Cells

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In Vivo Imaging of Neural Activity in Unanesthetized Drosophila Adult Flies
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科学领域:

  • 分子生物学分子生物学
  • 系统生物学 系统生物学
  • 生物技术是生物技术.

背景情况:

  • 细胞记忆使生物能够根据过去的经验对刺激做出反应.
  • 转录调节在建立和维护细胞记忆中起着至关重要的作用.
  • 了解这些记忆网络是开发新生物技术应用的关键.

研究的目的:

  • 阐明转录调节在自然和合成细胞记忆网络中的作用.
  • 探索工程记忆网络在医学和工业生物技术中的潜在应用.

主要方法:

  • 审查和分析现有的关于记忆网络中转录调节的文献.
  • 了解合成内存网络设计的概念框架.
  • 讨论细胞记忆的潜在工程策略.

主要成果:

  • 转录调节是细胞记忆的基本机制.
  • 自然和合成网络都依赖于转录控制来保持记忆的持久性.
  • 工程记忆网络为治疗和工业创新提供了有前途的途径.

结论:

  • 转录调节是细胞记忆形成和维护的核心.
  • 合成生物学方法可以创建新的记忆功能.
  • 工程细胞记忆具有促进医学和生物技术进步的巨大潜力.