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関連する概念動画

Pinching-off of Coated Vesicles01:32

Pinching-off of Coated Vesicles

4.2K
Vesicle budding is orchestrated by distinct cytosolic proteins such as adaptor proteins, coat proteins, and GTPases. To initiate vesicle budding, membrane-bending proteins containing crescent-shaped BAR domains bind to the lipid heads in the bilayer and distort the membrane to form a protein-coated vesicle bud. Adaptors proteins such as AP2 for clathrin-coated vesicles can nucleate on the deformed membrane. Finally, coat proteins such as clathrin or COPI and COPII assemble into a coat forming...
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Clathrin Coated Vesicles01:12

Clathrin Coated Vesicles

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Clathrin-coated vesicles use endocytosis to transport receptors and lysosomal hydrolases from the Golgi to the lysosome in the late secretory pathway. Clathrin-mediated endocytosis was the first described endocytic process, and Clathrin-coated vesicles remain one of the most well-studied transport vesicles. The molecular machinery that generates clathrin-coated vesicles comprises over 50 proteins that precisely coordinate vesicle formation. Cell surface receptors concentrated in indented sites...
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COP Coated Vesicles00:59

COP Coated Vesicles

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Membrane-enclosed structures called vesicles transport proteins and lipids across the cell. The vesicles derive their cargo from the plasma membrane, Golgi, ER, or endosome. Coated vesicles are spherical, protein-coated carriers with a 50–100 nm diameter that mediate bidirectional transport between the ER and the Golgi. The distribution of proteins between the ER and Golgi complex is dynamic and is maintained by different coated vesicles. Their formation is driven by the assembly of...
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Coat Assembly and GTPases01:33

Coat Assembly and GTPases

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Vesicles incorporate different coat protein subunits in different cell locations, which changes the properties of the coat, such as the shape and geometry of the transport vesicles. Thus, vesicle coat proteins also play a significant role in cargo selection.
Coat assembly depends on the local availability of phosphatidylinositol phosphates or PIPs and GTP-binding proteins. Adaptor proteins, which link the coat proteins to the membrane, bind to these PIPs and play a crucial role in controlling...
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What is Population Genetics?01:25

What is Population Genetics?

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A population is composed of members of the same species that simultaneously live and interact in the same area. When individuals in a population breed, they pass down their genes to their offspring. Many of these genes are polymorphic, meaning that they occur in multiple variants. Such variations of a gene are referred to as alleles. The collective set of all the alleles within a population is known as the gene pool.
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Receptor-mediated Endocytosis01:39

Receptor-mediated Endocytosis

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Overview
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関連する実験動画

Updated: Feb 8, 2026

Screening of Coatings for an All-Solid-State Battery Using In Situ Transmission Electron Microscopy
07:20

Screening of Coatings for an All-Solid-State Battery Using In Situ Transmission Electron Microscopy

Published on: January 20, 2023

3.4K

COPIIコートを製作しています.

Tomas Kirchhausen1

  • 1Department of Cell Biology, Harvard Medical School, Boston, MA 02115-5701, USA. kirchhausen@crystal.harvard.edu

Cell
|July 3, 2007
PubMed
まとめ
この要約は機械生成です。

研究者らは,酵母Sec13/31複合体の構造を明らかにし,COPIIで覆われた膀形成に不可欠である. この発見は,COPIIケージが,エンドプラズマ網膜からタンパク質を輸送するためにどのように組み立てられるかを説明する.

科学分野:

  • 細胞生物学 細胞生物学
  • 構造生物学 構造生物学とは
  • 分子メカニズムは分子メカニズムです.

背景:

  • 新しく合成されたタンパク質は,COPIIでコーティングされた膀を介して,エンドプラズマ網膜 (ER) からゴルギ器官に輸送されます.
  • COPIIコートは,ER膜から膀の芽生えを起こすタンパク質複合体です.
  • Sec13/31複合体は,COPIIコートの外側の格子または"ケージ"を形成しています.

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