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相关概念视频

Recycling Endosomes and Transcytosis00:58

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The recycling endosome, also known as the endosomal recycling compartment (ERC), is a part of the slow-recycling process of the endocytic pathway. Molecules internalized through receptor-mediated endocytosis are either degraded in the lysosomes or are recycled to the plasma membrane through the fast- or slow-recycling route.
The recycling endosome is not a single organelle but an extensively tubulated network of recycling pathways. It functions in storing molecules or transporting them across...
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The Early Endosome: Endocytosis of Transferrin01:28

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Essential proteins such as insulin or low-density lipoprotein (LDL) and micronutrients such as iron enter a eukaryotic cell through receptor-mediated endocytosis. Subsequently, the early endosomes fuse with the vesicles containing such receptor-ligand complexes and play a vital role in sorting the incoming ligands and receptors. While the ligands are either degraded inside the vesicle or released into the cytosol, their receptors are returned to the plasma membrane for further rounds of...
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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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ER Retrieval Pathway01:45

ER Retrieval Pathway

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In the secretory pathway, vesicles transport proteins from one cellular compartment to another in forward transport to deliver the protein to its correct location. Occasionally, misfolded proteins and incorrect proteins escape their original compartments, and a retrieval pathway is used to return the escaped proteins to their original compartment.
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Rab Cascades01:25

Rab Cascades

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Rab GTPases act in a regulated cascade during membrane fusion, helping the lipid bilayers mix. The Rab family of proteins are active when bound to GTP, and inactive when bound to GDP. Hence, they act as guanine nucleotide-dependent molecular switches. Rab-GTP recognizes and binds to long or short-range tethering proteins to capture the target vesicle. These tethers coordinate with SNAREs on the vesicle and the target membrane to assemble the trans SNARE complex that locks the mixing bilayers.
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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:
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Analysis of Endocytic Uptake and Retrograde Transport to the Trans-Golgi Network Using Functionalized Nanobodies in Cultured Cells
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复原体为内体载体分类设置了一个陷

Ludger Johannes1, Christian Wunder1

  • 1Institut Curie, PSL Research University, Chemical Biology of Membranes and Therapeutic Delivery unit, INSERM U 1143, CNRS UMR 3666, 26 rue d'Ulm, 75248 Paris Cedex 05, France.

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概括
此摘要是机器生成的。

逆转基因复合体驱动从内体的膜贩运. 卢卡斯和其他人. 揭示逆转子单元如何合作招募内体膜并识别载荷.

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科学领域:

  • 细胞生物学
  • 分子生物学
  • 生物化学

背景情况:

  • 膜运输对于细胞功能至关重要,涉及细胞内的分子运动.
  • 逆转基因复合体是内分体到跨戈尔吉网络和内分体到血传播的关键媒介.
  • 功能障碍的复原体与神经退行性疾病有关, 这凸显了它的重要性.

研究的目的:

  • 阐明逆转激素介导膜贩运的结构机制.
  • 了解逆转基因复合体如何识别并与内体载荷结合.
  • 调查膜招募和负载识别的整合.

主要方法:

  • 使用冷电子显微镜对负载绑定逆转分子复合物的结构分析.
  • 生物化学测定用于研究逆转基因子单元和载荷之间的蛋白-蛋白相互作用.
  • 在体外复制复合体组合和功能.

主要成果:

  • 详细的结构洞察力与它的货物相结合.
  • 介导膜结合的逆转激素子单元之间的合作相互作用的识别.
  • 货物识别与膜招募的机制的描述.
  • 这项研究揭示了逆转激素子单元如何共同启动囊泡的形成.

结论:

  • 逆转基因复合物采用一种合作机制来招募内体膜和货物选择.
  • 结构数据提供了膜贩运中逆转激素功能的机制理解.
  • 这项研究提供了有关逆转激素相关疾病的潜在治疗点的见解.