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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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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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Protein Complex Assembly02:41

Protein Complex Assembly

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Proteins can form homomeric complexes with another unit of the same protein or heteromeric complexes with different types.  Most protein complexes self-assemble spontaneously via ordered pathways, while some proteins need assembly factors that guide their proper assembly. Despite the crowded intracellular environment, proteins usually interact with their correct partners and form functional complexes.
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Assembly of Signaling Complexes01:30

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Multiprotein signaling complexes are formed in a dynamic process involving protein-protein interactions at the cytoplasmic domain of transmembrane receptors or enzymatic and non-enzymatic proteins associated with the receptor. These complexes ensure the activation and propagation of intracellular signals that regulate cell functions.
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Molecular Chaperones and Protein Folding03:00

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The native conformation of a protein is formed by interactions between the side chains of its constituent amino acids. When the amino acids cannot form these interactions, the protein cannot fold by itself and needs chaperones. Notably, chaperones do not relay any additional information required for the folding of polypeptides; the native conformation of a protein is determined solely by its amino acid sequence. Chaperones catalyze protein folding without being a part of the folded protein.
The...
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Groups of proteins may form a complex where each protein in this complex has a different role in the overall execution of the complex’s function. Often some of the proteins in the complex can be replaced by a closely related variant to give a complex that contains many of the same components yet is functionally distinct.
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相关实验视频

Updated: Jun 29, 2025

Monitoring eIF4F Assembly by Measuring eIF4E-eIF4G Interaction in Live Cells
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一个内在无序的调节子单元如何组建一个PP1:eIF2复合体.

Alexander C Jones1, Jian Wu2, Susan S Taylor3

  • 1Molecular and Cell Biology Laboratory, Salk Institute for Biological Studies, La Jolla, CA 92037, USA.

Cell reports
|April 4, 2024
PubMed
概括
此摘要是机器生成的。

研究人员探索了一种蛋白质酸酶1调节子单元如何与三元体eIF2相互作用,以实现脱化. 疾病突变被证明会破坏这种关键的蛋白质相互作用.

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科学领域:

  • 分子生物学分子生物学
  • 生物化学 生物化学
  • 结构生物学 结构生物学

背景情况:

  • 蛋白酸酶1 (PP1) 是一个关键的酶,参与了许多细胞过程.
  • 调节PP1活动对于维持细胞平衡至关重要.
  • 三倍性真核体启动因子2 (eIF2) 在翻译启动中起着至关重要的作用.

研究的目的:

  • 阐明PP1本质上有障碍的调节子单元与三元体eIF2.2相互作用的机制.
  • 要了解这种相互作用如何将酸酶基质复合物定位为去酸化.
  • 用疾病突变验证相互作用的功能意义.

主要方法:

  • 综合结构和生化技术的跨学科策略.
  • 分析PP1调节子单元和eIF2.2之间的蛋白质-蛋白质相互作用.
  • 突变分析,以评估疾病相关变异对结合和功能的影响.

主要成果:

  • PP1的本质上失序的调节子单元与三元体eIF2.2结合.
  • 结合事件促进了PP1催化子单元及其基质的定位,以实现高效的脱化.
  • 确定了一种特定疾病突变,该突变取消了调节子单元和eIF2.2之间的相互作用.

结论:

  • PP1调节子单元和eIF2之间的相互作用对于PP1介导的脱化是必不可少的.
  • 这种交互机制提供了对翻译启动监管的见解.
  • 了解这种相互作用对于理解与PP1功能障碍相关的疾病的分子基础很重要.