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The Inner Mitochondrial Membrane01:28

The Inner Mitochondrial Membrane

3.3K
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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Mitochondria01:37

Mitochondria

11.9K
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,...
11.9K
Mitochondrial Membranes01:45

Mitochondrial Membranes

9.7K
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,...
9.7K
Electron Transport Chains01:28

Electron Transport Chains

97.8K
The final stage of cellular respiration is oxidative phosphorylation that consists of two steps: the electron transport chain and chemiosmosis. The electron transport chain is a set of proteins found in the inner mitochondrial membrane in eukaryotic cells. Its primary function is to establish a proton gradient that can be used during chemiosmosis to produce ATP and generate electron carriers, such as NAD+ and FAD, that are used in glycolysis and the citric acid cycle.
The ETC is comprised of...
97.8K
Translocation of Proteins into the Mitochondria01:19

Translocation of Proteins into the Mitochondria

3.1K
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,...
3.1K
Porin Insertion in the Outer Mitochondrial Membrane01:12

Porin Insertion in the Outer Mitochondrial Membrane

2.9K
Porins are beta-barrel proteins translocated to the mitochondrial outer membrane through the TOM complex into the intermembrane space. Porin precursors bind TIM chaperones within the intermembrane space and are guided to the Sorting and Assembly Machinery complex or SAM complex on the outer mitochondrial membrane.
Three models describe the assembly of porins by the SAM complex and their insertion into the outer membrane. Model 1 suggests that porins are assembled outside the SAM channel as the...
2.9K

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相关实验视频

Updated: Jun 19, 2025

Isolation and Functional Analysis of Mitochondria from Cultured Cells and Mouse Tissue
09:27

Isolation and Functional Analysis of Mitochondria from Cultured Cells and Mouse Tissue

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在线粒体周围环绕着线粒体

Wei Wong1

  • 1Science Signaling, AAAS, Washington, DC 20005, USA.

Science signaling
|July 23, 2024
PubMed
概括
此摘要是机器生成的。

六酶1在线粒体周围形成环,防止它们在能量压力时分裂. 这一发现揭示了线粒体动力学和细胞能量调节.

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Author Spotlight: Decoding Mitochondrial Aging
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相关实验视频

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Isolation and Functional Analysis of Mitochondria from Cultured Cells and Mouse Tissue
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科学领域:

  • 细胞生物学 细胞生物学
  • 线粒体动力学的动力学
  • 代谢过程中的代谢.

背景情况:

  • 线粒体是负责细胞能量生产的重要器官.
  • 线粒体分裂,线粒体的分裂,是一个由细胞条件调节的动态过程.
  • 能量压力可以触发过度的线粒体裂变,影响细胞功能.

研究的目的:

  • 调查赫克索金酶1在调节线粒体形态学中的作用.
  • 了解赫索基纳1如何在能量压力条件下影响线粒体裂变.

主要方法:

  • 免疫光显微镜可用于可视化线粒体周围的hexokinase 1局部化.
  • 活细胞成像观察线粒体动力学.
  • 生物化学测试用于评估细胞能量水平和线粒体功能.

主要成果:

  • 观察到基酶1在线粒体周围形成明显的收缩环.
  • 这些Hexokinase 1环在诱导能量压力时有效抑制了线粒体裂变.
  • 赫索基纳酶1功能的破坏导致了在压力下线粒体分裂的增加.

结论:

  • 赫索金酶1作为线粒体裂变的新型调节剂.
  • 赫克索金酶1环的形成提供了一种保护机制,可以在能量缺陷期间防止线粒体碎片化.
  • 这一发现揭示了细胞代谢和线粒体结构完整性之间的新联系.