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相关概念视频

Enlargement of the Plasma Membrane01:22

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Cell division and enlargement are processes that require precise control. The control ensures that cell division cannot proceed unless the cell has grown to a specific size. A spherical, dividing cell requires an approximately 1.6X increase in its surface area to double its volume. The secretory pathway also has a significant role in cell membrane enlargement. Secretory vesicles that bud off from the Golgi apparatus and later fuse with the plasma membrane during exocytosis are a major source of...
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Nuclear protein sorting is the selective trafficking of histones, polymerases, gene regulatory proteins into the nucleus and exporting RNAs and ribosomes to the cytosol. It is a tightly controlled process that regulates gene expression within a cell.
Proteins targeted to the nucleus carry nuclear localization signals or NLS recognized by import receptors in the cytosol. Similarly, proteins with nuclear export signals are recognized by export receptors. Import and export receptors are...
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The nucleus restricts several proteins within and allows others to pass. The restricted proteins possess a nuclear retention sequence or NRS, anchoring them to the nuclear lamins and preventing their transport to the cytosol. The non-restricted proteins, after their synthesis, are transported to their site of action, such as the cytosol or other organelles, with the help of nuclear export signals or NES.
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Nuclear protein sorting regulates nucleus composition and gene expression, crucial for determining the fate of a eukaryotic cell. Hence, the entry and exit of molecules across the nuclear envelope is a tightly controlled process. Nuclear protein sorting can be inhibited by one of the following ways: 1) masking cargo signal sequences, 2) modifying the nuclear receptor's affinity for cargo, 3) controlling the nuclear pore size, 4) retaining the cargo during its transit to the cytosol or the...
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Single-Molecule Imaging of Nuclear Transport
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使用泛扩展显微镜可视化核孔复杂性可塑性.

Kimberly J Morgan1, Emma Carley1, Alyssa N Coyne2,3

  • 1Department of Cell Biology, Yale School of Medicine, New Haven, CT, 06520, USA.

bioRxiv : the preprint server for biology
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PubMed
概括
此摘要是机器生成的。

泛扩展显微镜 (Pan-ExM) 可视化了核孔综合体 (NPC) 的可塑性. 这种技术揭示了POM121的存在.

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科学领域:

  • 细胞生物学 细胞生物学
  • 分子生物学分子生物学
  • 神经科学是一个神经科学.

背景情况:

  • 核毛孔复合体 (NPC) 的可塑性是细胞功能的关键,但人们对其了解甚少.
  • 现有的技术缺乏研究NPC个体变异的分辨率.
  • 了解NPC可塑性需要先进的成像技术.

研究的目的:

  • 评估泛扩展显微镜 (Pan-ExM) 用于可视化NPC可塑性.
  • 研究NPC结构变化的分子基础和后果.
  • 在肌缩侧面硬化症 (ALS) 的背景下探索NPC变化.

主要方法:

  • 利用Pan-ExM进行16-20倍的同位素细胞扩张,保护蛋白质组.
  • 采用深度学习来将NPC细分为三方结构.
  • 分析了NPC直径变化和核POM121.1.的局部化.

主要成果:

  • 泛-ExM成功地可视化了各种NPC直径,在基底核表面偏向于扩展的NPC.
  • 破坏LINC复杂连接的破坏使NPC直径偏差正常化,表明由核外张力调节.
  • 跨膜核POM121在核环中发现,但从ALS患者的老年iPSN中转移到内部环.

结论:

  • 泛-ExM是一个强大的工具,用于在单个NPC分辨率下可视化NPC可塑性.
  • NPC的结构可塑性受到核外张力的影响.
  • 在老年iPSN中POM121的重新定位表明,在C9orf72相关的ALS中潜在的早期机制.