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相关概念视频

Mitochondria01:37

Mitochondria

11.3K
Mitochondria are eukaryotic cellular organelles that are known to produce energy through a process called oxidative phosphorylation. Besides their primary function, mitochondria are involved in various cellular processes, including cell growth, differentiation, signaling, metabolism, and senescence. Age-related changes cause a decline in mitochondrial quality and integrity due to increased mitochondrial mutations and oxidative damage. Thus, aging can severely impact mitochondrial functions,...
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Electron Transport Chain: Complex I and II01:46

Electron Transport Chain: Complex I and II

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The mitochondrial electron transport chain (ETC) is the main energy generation system in the eukaryotic cells. However, mitochondria also produce cytotoxic reactive oxygen species (ROS) due to the large electron flow during oxidative phosphorylation. While Complex I is one of the primary sources of superoxide radicals, ROS production by Complex II is uncommon and may only be observed in cancer cells with mutated complexes.
ROS generation is regulated and maintained at moderate levels necessary...
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Overview of Lipid Metabolism01:24

Overview of Lipid Metabolism

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Lipid metabolism is a crucial process in the human body that involves the synthesis and degradation of lipids. This process is essential for energy production, cell membrane formation, and hormone production, among other functions.
Lipolysis: The Breakdown of Lipids:
Lipolysis is the process of breaking down lipids, particularly triglycerides, into glycerol and fatty acids. This process typically occurs in the adipose tissue and is triggered by various hormones, including glucagon and...
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Mitochondrial Membranes01:45

Mitochondrial Membranes

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A single mitochondrion is a bean-shaped organelle enclosed by a double-membrane system. The outer membrane of mitochondria is smooth and contains many porins - the integral membrane transporters. Porins enable free diffusion of ions and small uncharged molecules through the outer mitochondrial membrane but limit the transport of molecules larger than 5000 Daltons. Further, the outer mitochondrial membrane forms a unique structure called membrane contact sites with other subcellular organelles,...
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相关实验视频

Updated: Jun 11, 2025

Author Spotlight: Semi-Automated Isolation of the Stromal Vascular Fraction from Murine White Adipose Tissue Using a Tissue Dissociator
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Author Spotlight: Semi-Automated Isolation of the Stromal Vascular Fraction from Murine White Adipose Tissue Using a Tissue Dissociator

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白脂肪细胞中的线粒体功能和功能障碍以及治疗影响

Fenfen Wang1, Phu M Huynh1, Yu A An1,2,3

  • 1Department of Anesthesiology, Critical Care, and Pain Medicine, Center for Perioperative Medicine, McGovern Medical School, UT Health Science Center at Houston, Houston, Texas, USA.

Comprehensive Physiology
|October 9, 2024
PubMed
概括
此摘要是机器生成的。

白色脂肪细胞中的线粒体对于能量平衡至关重要. 增强线粒体健康可以通过改善白色脂肪细胞功能来对抗肥胖和相关的代谢疾病.

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Phosphorus-31 Magnetic Resonance Spectroscopy: A Tool for Measuring In Vivo Mitochondrial Oxidative Phosphorylation Capacity in Human Skeletal Muscle
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Isolation and Differentiation of Stromal Vascular Cells to Beige/Brite Cells
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Isolation and Differentiation of Stromal Vascular Cells to Beige/Brite Cells

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相关实验视频

Last Updated: Jun 11, 2025

Author Spotlight: Semi-Automated Isolation of the Stromal Vascular Fraction from Murine White Adipose Tissue Using a Tissue Dissociator
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Author Spotlight: Semi-Automated Isolation of the Stromal Vascular Fraction from Murine White Adipose Tissue Using a Tissue Dissociator

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Phosphorus-31 Magnetic Resonance Spectroscopy: A Tool for Measuring In Vivo Mitochondrial Oxidative Phosphorylation Capacity in Human Skeletal Muscle
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Phosphorus-31 Magnetic Resonance Spectroscopy: A Tool for Measuring In Vivo Mitochondrial Oxidative Phosphorylation Capacity in Human Skeletal Muscle

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Isolation and Differentiation of Stromal Vascular Cells to Beige/Brite Cells
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Isolation and Differentiation of Stromal Vascular Cells to Beige/Brite Cells

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科学领域:

  • 身体生理学 身体生理学
  • 细胞生物学 细胞生物学
  • 代谢科学 代谢科学

背景情况:

  • 白色脂肪细胞传统上仅被视为脂质储存库.
  • 新兴研究揭示了它们在能量恒温中发挥的关键作用.
  • 白脂肪细胞的功能障碍有助于肥胖和代谢障碍.

研究的目的:

  • 为提供白色脂肪细胞线粒体功能和功能障碍的最新审查.
  • 探索线粒体在健康和不健康的白色脂肪细胞中的作用.
  • 突出针对线粒体健康的治疗策略.

主要方法:

  • 关于白色脂肪细胞线粒体的当前科学文献的综述.
  • 基本线粒体生物学的总结.
  • 分析关于线粒体在肥胖和代谢疾病中的作用的研究.

主要成果:

  • 功能性线粒体对于白色脂肪细胞和脂肪组织健康至关重要.
  • 白色脂肪细胞中的线粒体功能障碍与肥胖和代谢疾病有关.
  • 线粒体的数量和质量是白色脂肪细胞功能中的关键因素.

结论:

  • 改善线粒体的数量和质量是一个有前途的治疗目标.
  • 增强线粒体健康可以促进白色脂肪细胞色.
  • 纠正线粒体功能障碍可能有助于管理肥胖和相关的代谢条件.