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相关概念视频

Directing Proteins to the Rough Endoplasmic Reticulum01:34

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The organelle-specific signaling sequences direct proteins synthesized in the cytosol to their final destination like ER, mitochondria, peroxisomes, etc. Some of the proteins directed to ER are then trafficked via vesicles to other organelles within the cell or the extracellular environment through the Golgi complex. For example, the rough ER synthesizes soluble proteins for transportation to the lysosomes or secretion out of the cell. It can also synthesize transmembrane proteins that can...
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Regulation of the Unfolded Protein Response01:31

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Inositol-requiring kinase one or IRE1 is the most conserved eukaryotic unfolded protein response (UPR) receptor. It is a type I transmembrane protein kinase receptor with a distinctive site-specific RNase activity. As the binding mechanics of the misfolded proteins with the N-terminal domain of IRE-1 are unclear, three binding models — direct, indirect, and allosteric -- are proposed for receptor activation. Nevertheless, it is known that once a misfolded protein associates with IRE1, it...
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The ER is the hub of protein synthesis in a cell. It has robust systems to quality control protein folding and also for degradation of terminally misfolded proteins. Under normal conditions, a small proportion of misfolded proteins that cannot be salvaged need to be transported to the cytoplasm by the ER-associated degradation or ERAD pathways. However, if the ERAD cannot handle the misfolded proteins, the cell activates the unfolded protein response or UPR to adjust the protein folding...
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Rab Proteins01:14

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Rab proteins constitute the largest family of monomeric GTPases, of which 70 members are present in humans. Rab proteins and their effectors regulate consecutive stages of vesicle transport such as vesicle transport, docking, and fusion to the correct recipient membrane.
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Export of Misfolded Proteins out of the ER01:32

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After folding, the ER assesses the quality of secretory and membrane proteins. The correctly folded proteins are cleared by the calnexin cycle for transport to their final destination, while misfolded proteins are held back in the ER lumen. The ER chaperones attempt to unfold and refold the misfolded proteins but sometimes fail to achieve the correct native conformation. Such terminally misfolded proteins are then exported to the cytosol by ER-associated degradation or ERAD pathway for...
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MAPK Signaling Cascades01:07

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相关实验视频

Updated: Apr 23, 2026

Methods to Study Mrp4-containing Macromolecular Complexes in the Regulation of Fibroblast Migration
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快照:FMRP相互作用蛋白质

Emanuela Pasciuto1, Claudia Bagni2

  • 1VIB Center for the Biology of Disease, 3000 Leuven, Belgium; Center for Human Genetics and Leuven Institute for Neurodegenerative Diseases (LIND), KU Leuven, 3000 Leuven, Belgium.

Cell
|September 27, 2014
PubMed
概括
此摘要是机器生成的。

脆弱X综合征是遗传性智力障碍和自闭症的常见原因,其结果是脆弱X智力障碍蛋白 (FMRP) 的问题. 本研究探讨了FMRP的相互作用伙伴及其在细胞通路中的作用.

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科学领域:

  • 神经遗传学 神经遗传学
  • 分子生物学分子生物学
  • 发育神经科学的发展神经科学.

背景情况:

  • 脆弱X综合征是智力障碍和自闭症谱系障碍的主要遗传原因.
  • 脆弱的X智力障碍蛋白 (FMRP) 是这种疾病的病原体的核心.
  • 了解FMRP的分子功能对于开发治疗策略至关重要.

研究的目的:

  • 为提供FMRP已知的蛋白质相互作用伙伴的全面概述.
  • 阐明由FMRP调节的细胞通路和生物过程.
  • 突出FMRP相互作用在脆弱X综合征的背景下的重要性.

主要方法:

  • 文献审查和蛋白质与蛋白质相互作用数据库的数据挖掘.
  • 对FMRP互动组的生物信息分析.
  • 确定交互伙伴的功能丰富性分析.

主要成果:

  • 识别了一组多样化的FMRP相互作用蛋白.
  • 将这些合作伙伴分类为关键的细胞通路,包括RNA代谢,突触功能和信号转导.
  • 突出FMRP在神经元发育和功能中的多方面的作用.

结论:

  • FMRP与涉及关键细胞过程的各种蛋白质相互作用.
  • 这些相互作用强调了基础上的复杂分子机制脆弱X综合征.
  • 针对FMRP介导的途径可能为智力障碍和自闭症提供潜在的治疗途径.