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相关概念视频

Epigenetic Regulation01:37

Epigenetic Regulation

3.7K
Epigenetic changes alter the physical structure of the DNA without changing the genetic sequence and often regulate whether genes are turned on or off. This regulation ensures that each cell produces only proteins necessary for its function. For example, proteins that promote bone growth are not produced in muscle cells. Epigenetic mechanisms play an essential role in healthy development. Conversely, precisely regulated epigenetic mechanisms are disrupted in diseases like cancer.
X-chromosome...
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Epigenetic Regulation01:46

Epigenetic Regulation

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Epigenetic mechanisms play an essential role in healthy development. Conversely, precisely regulated epigenetic mechanisms are disrupted in diseases like cancer.
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Regulation of Metabolism01:19

Regulation of Metabolism

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Cellular needs and conditions vary from cell to cell and change within individual cells over time. For example, the required enzymes and energetic demands of stomach cells are different from those of fat storage cells, skin cells, blood cells, and nerve cells. Furthermore, a digestive cell works much harder to process and break down nutrients during the time that closely follows a meal compared with many hours after a meal. As these cellular demands and conditions vary, so do the amounts and...
11.4K
Eukaryotic Compartmentalization01:37

Eukaryotic Compartmentalization

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One of the distinguishing features of eukaryotic cells is that they contain membrane-bound organelles, such as the nucleus and mitochondria, that carry out specialized functions. Since biological membranes are only selectively permeable to solutes, they help create a compartment with controlled conditions inside an organelle. These microenvironments are tailored to the organelle's specific functions and help isolate them from the surrounding cytosol.
For example, lysosomes in the animal...
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Eukaryotic Compartmentalizations01:46

Eukaryotic Compartmentalizations

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One of the distinguishing features of eukaryotic cells is that they contain membrane-bound organelles, such as the nucleus and mitochondria, that carry out specialized functions. Since biological membranes are only selectively permeable to solutes, they help create a compartment with controlled conditions inside an organelle. These microenvironments are tailored to the organelle's specific functions and help isolate them from the surrounding cytosol.
For example, lysosomes in the animal cells...
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Introduction to Metabolism01:30

Introduction to Metabolism

2.6K
Metabolism encompasses all biochemical reactions in a living organism, facilitating both the breakdown and synthesis of biomolecules. These metabolic processes are categorized into catabolic and anabolic pathways, which operate in a coordinated manner to ensure energy balance and cellular function.Catabolic Pathways and Energy ReleaseCatabolic pathways involve the breakdown of complex macromolecules such as carbohydrates, lipids, and proteins into smaller structures like monosaccharides, fatty...
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相关实验视频

Updated: Jan 18, 2026

Repressing Gene Transcription by Redirecting Cellular Machinery with Chemical Epigenetic Modifiers
10:28

Repressing Gene Transcription by Redirecting Cellular Machinery with Chemical Epigenetic Modifiers

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准细分化新陈代谢以调节表观遗传学.

Yun-Zi Mao1, Shi-Min Zhao1

  • 1The Obstetrics & Gynecology Hospital of Fudan University, Shanghai Key Lab of Reproduction and Development, Shanghai Key Lab of Female Reproductive Endocrine Related Diseases, and Shanghai Key Laboratory of Metabolic Remodeling and Health, Fudan University, Shanghai, 200438, PR China.

Trends in endocrinology and metabolism: TEM
|September 11, 2025
PubMed
概括

代谢物为表观遗传变化提供燃料. 准ELMSAN1调节的核酸脱酶复合体 (nPDC) 控制了基因组乙化,影响瘤进展和细胞信号传递.

科学领域:

  • 生物化学 生物化学
  • 表观遗传学 在表观遗传学中,表观遗传学是指表观遗传学.
  • 癌症生物学 癌症生物学

背景情况:

  • 代谢物在表观遗传修饰中起着至关重要的作用.
  • 分区代谢影响细胞过程.
  • 核乙-CoA对于基因素乙化是必不可少的.

研究的目的:

  • 研究ELMSAN1-调节的核酸盐脱酶复合体 (nPDC) 在产生核酸乙烯-CoA.中所起的作用.
  • 了解破坏ELMSAN1-nPDC相互作用如何影响激素乙化和瘤进展.
  • 突出针对分隔代谢的潜力,以调节表观遗传学和细胞信号传递.

主要方法:

  • 生物化学试验用于研究酶活性.
  • 基因组学分析 基因组修饰的基因分析.
  • 细胞和分子生物学技术来评估瘤进展.

主要成果:

  • ELMSAN1 调节核酸盐脱酶复合体 (nPDC).
  • nPDC产生了一个独立的核乙-CoA池用于基因素乙化.
  • 破坏ELMSAN1-nPDC相互作用会改变组织乙烯化,并抑制瘤的进展.

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相关实验视频

Last Updated: Jan 18, 2026

Repressing Gene Transcription by Redirecting Cellular Machinery with Chemical Epigenetic Modifiers
10:28

Repressing Gene Transcription by Redirecting Cellular Machinery with Chemical Epigenetic Modifiers

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Author Spotlight: Enhancements in Gene Expression Regulation Research

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Sample Preparation to Bioinformatics Analysis of DNA Methylation: Association Strategy for Obesity and Related Trait Studies
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Sample Preparation to Bioinformatics Analysis of DNA Methylation: Association Strategy for Obesity and Related Trait Studies

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结论:

  • 针对ELMSAN1-nPDC轴为癌症治疗提供了一种新的策略.
  • 分区代谢是癌症表观遗传学和细胞信号传递的关键调节者.
  • 了解这些代谢-表观遗传联系可以导致新的治疗干预措施.