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相关概念视频

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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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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Mitochondria01:37

Mitochondria

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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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The Inner Mitochondrial Membrane01:28

The Inner Mitochondrial Membrane

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The inner mitochondrial membrane is the primary site of ATP synthesis. The inner membrane domain that forms a smooth layer adjacent to the outer membrane is called the inner boundary membrane. This domain contains membrane transporters that drive metabolites in and out of the mitochondria.  In contrast, the inner membrane network that invaginates into the matrix space is called the cristae membrane. This domain accounts for principle mitochondrial function as it accommodates the protein...
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ATP Synthase: Mechanism01:48

ATP Synthase: Mechanism

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In animals, the mitochondrial F1F0 ATP synthase is the key protein that synthesizes ATP molecules through a complex catalytic mechanism. While the nuclear genome encodes the majority of ATP synthase subunits, the mitochondrial genome encodes some of the enzyme's most critical components. The formation of this multi-subunit enzyme is a complex multi-step process regulated at the level of transcription, translation, and assembly. Defects in one or more of these steps can result in decreased...
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Translocation of Proteins into the Mitochondria01:19

Translocation of Proteins into the Mitochondria

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Mitochondrial precursors are translocated to the internal subcompartments via independent mechanisms involving distinct protein machineries called translocases.
Sorting of outer membrane proteins:
Mitochondrial outer membrane proteins are of two types: the transmembrane, beta-barrel porins, and the membrane-anchored, alpha-helical proteins. Beta-barrel porin precursors are translocated by the TOM complex and inserted into the outer mitochondrial membrane by the SAM complex. In contrast,...
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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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线粒体功能障碍在内皮功能障碍的发病过程中的作用

Suresh Kumar Prajapat1, Krushna Ch Maharana1, Sanjiv Singh2

  • 1National Institute of Pharmaceutical Education and Research, Export Promotion Industrial Park (EPIP) Zandaha Road, Hajipur, Bihar, India.

Molecular and cellular biochemistry
|August 29, 2023
PubMed
概括

线粒体功能障碍有助于心血管疾病 (CVD) 和内皮功能障碍. 了解这些机制可以导致新的生物标志物和治疗心血管疾病.

关键词:
内皮质功能障碍 内皮质功能障碍线粒体缺陷 线粒体缺陷氧化过量是一种氧化过量.在UCP1中,UCP1是UCP1.解蛋白是指解的蛋白质.在 eNOS eNOS 中使用.

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科学领域:

  • 生物化学 生物化学
  • 心脏病学 心脏病学
  • 细胞生物学 细胞生物学

背景情况:

  • 心血管疾病 (CVD) 是一个全球性的健康问题,其中线粒体功能障碍是主要的贡献者.
  • 内皮功能障碍,以异常信号和炎症为特征,在动脉样硬化发展中起着至关重要的作用.
  • 线粒体产生ATP并产生活性氧物种 (ROS),影响细胞功能和血管健康.

研究的目的:

  • 阐明线粒体机制在调节内皮功能障碍中的作用.
  • 探索线粒体功能障碍作为潜在的生物标志物用于心血管疾病风险评估和诊断.
  • 审查针对内皮功能障碍的线粒体功能障碍的治疗策略.

主要方法:

  • 关于线粒体功能障碍和内皮功能障碍的当前文献的综述.
  • 对将线粒体动力学与内皮细胞功能联系起来的分子机制的分析.
  • 检查诊断方法和治疗干预措施.

主要成果:

  • 线粒体ROS生成的增加和线粒体动态的改变与内皮功能障碍和心血管疾病有关.
  • 线粒体功能障碍会影响氧化的生物可用性和内皮细胞信号传递.
  • 几种治疗标和药物类别显示出缓解线粒体功能障碍的潜力.

结论:

  • 线粒体功能障碍是内皮功能障碍和心血管疾病的重要因素.
  • 识别线粒体功能障碍生物标志物可以改善心血管疾病风险评估.
  • 准线粒体通路为治疗内皮功能障碍提供了有前途的治疗途径.