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関連する概念動画

Gap Junctions01:37

Gap Junctions

52.8K
Multicellular organisms employ a variety of ways for cells to communicate with each other. Gap junctions are specialized proteins that form pores between neighboring cells in animals, connecting the cytoplasm between the two, and allowing for the exchange of molecules and ions. They are found in a wide range of invertebrate and vertebrate species, mediate numerous functions including cell differentiation and development, and are associated with numerous human diseases, including cardiac and...
52.8K
Contact-dependent Signaling01:19

Contact-dependent Signaling

44.5K
Contact-dependent signaling, as the name suggests, requires that communicating cells be in direct contact with each other. This is achieved either through receptor-ligand interactions or by specialized cytoplasmic channels that allow the flow of small molecules between cells. In animal cells, channels called gap junctions facilitate contact-dependent signaling in certain tissues, whereas, plasmodesmata perform a similar function in plants.
Gap Junctions
In animal cells, gap junctions are formed...
44.5K
Tight Junctions01:29

Tight Junctions

5.2K
Tight junctions are molecular seals between cells that prevent the leaking of fluids, ions, and other small solutes across cavities and compartments in multicellular organisms. They are mainly composed of claudin and occludin transmembrane proteins, and other proteins such as tricellulin and JAM (junctional adhesion molecule). All these proteins are 4-pass transmembrane proteins, except JAM, which is a single-pass transmembrane protein belonging to the immunoglobulin superfamily. The...
5.2K
Plasmodesmata01:20

Plasmodesmata

2.8K
In a multicellular organism, cells must communicate to work together in a coordinated manner. One way that cells communicate is through direct contact with other cells. The points of contact that connect adjacent cells are called intercellular junctions.
Intercellular junctions are a feature of fungal, plant, and animal cells. However, different types of junctions are found in different kinds of cells. Intercellular junctions found in animal cells include tight junctions, gap junctions, and...
2.8K
Aquaporins01:25

Aquaporins

4.8K
Aquaporins or AQPs are a family of integral membrane proteins whose primary function is to transport water, while some called aquaglyceroporins also transport glycerol. In addition, aquaporins have also been suspected to be involved in transporting volatile substances, such as carbon dioxide and ammonia, across membranes. Such AQPs that act as gas channels are often highly expressed in cells involved in the gaseous exchange, such as red blood cells, epithelial cells, and pulmonary capillaries.
4.8K
Mechanisms of Membrane Domain Formation00:59

Mechanisms of Membrane Domain Formation

3.0K
Different physical properties of lipids and proteins allow them to localize and form distinct islands or domains in the membrane. Some membrane domains are formed due to protein-protein interactions, whereas others are formed due to the presence of specific lipids such as sphingolipids and sterols—for example, large proteins, such as bacteriorhodopsin, aggregate and create distinct domains.
Another mechanism for membrane domain formation involves membrane proteins interacting with...
3.0K

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Updated: Jun 17, 2025

Single-cell Microinjection for Cell Communication Analysis
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Single-cell Microinjection for Cell Communication Analysis

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細胞間隙の中で組み立てられた超分子チャネル

Qi Xiao1, Daoming Guan1, Yong-Hong Fu1

  • 1Department of Chemistry, Fudan University, 220 Handan Road, 200433 Shanghai, China.

Journal of the American Chemical Society
|August 8, 2024
PubMed
まとめ
この要約は機械生成です。

研究者達は 細胞に人工的な管状のチャネルを作り 自然の隙間結合を模倣しました これらの超分子チャネルは 細胞の移動を阻害することで 腫瘍細胞の侵入を阻害し 新しい化学療法戦略を提供します

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Mechanical Stimulation-induced Calcium Wave Propagation in Cell Monolayers: The Example of Bovine Corneal Endothelial Cells
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An Iodide-Yellow Fluorescent Protein-Gap Junction-Intercellular Communication Assay
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Mechanical Stimulation-induced Calcium Wave Propagation in Cell Monolayers: The Example of Bovine Corneal Endothelial Cells
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科学分野:

  • バイオマテリアル科学
  • 細胞生物学
  • ナノテクノロジー

背景:

  • 管状の構造は 細胞のコミュニケーションを媒介する 生物学的システムに不可欠です
  • 化学療法などの新しい治療戦略の可能性を秘めている.
  • 自然のギャップ・ジャンクションは 機能的な細胞間チャネルを 構築するための青写真です

研究 の 目的:

  • 細胞間隙に人工的超分子チャネルを 構築する
  • 自然のギャップ・ジャンクションチャネルの組み立てと構造を模倣する.
  • 腫瘍細胞の侵入を抑制する この人工チャネルの可能性を調査する

主な方法:

  • 超分子チャネルが 静電相互作用で動いている
  • 自然の隙間結合の構造を模倣して 水性および水性モジュール
  • 細胞間隙を利用して チャンネルを作ります

主要な成果:

  • 細胞間隙に 超分子チャネルを成功裏に構築した
  • 運河は 自然のギャップ・ジャンクションの構造を模倣しています
  • 細胞の移動を防ぐことにより,腫瘍細胞の侵入を抑制することが示されています.

結論:

  • 人工的な超分子チャネルは 生きている細胞で組み立てられます
  • これらのチャネルは腫瘍細胞の侵入と移動を 効果的に阻害します
  • このアプローチは 癌の化学療法における 有望な新しい戦略です