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相关概念视频

Immunoglobulin-like Cell Adhesion Molecules01:31

Immunoglobulin-like Cell Adhesion Molecules

Immunoglobulin-like cell adhesion molecules or Ig-CAMs are a versatile group of cell surface glycoproteins belonging to the immunoglobulin protein superfamily. Ig-CAMs possess the characteristic immunoglobulin protein domains and other domains such as the fibronectin type III domain. The Ig domains are glycosylated to varying degrees in different Ig-CAMs.
Ig-CAMs exhibit either homophilic binding (to other Ig-CAMs) or heterophilic binding (to other ligands such as integrins). While most Ig-CAMs...
Cell Adhesion Molecules - Types and Functions01:20

Cell Adhesion Molecules - Types and Functions

Cell adhesion molecules (CAMs) are pivotal to multicellularity and the coordinated functioning of tissues and organ systems. They enable physical interactions between cells and provide mechanical strength to tissues. They also function as receptors for signal transmission across the plasma membrane. The CAMs are broadly classified into four families - integrins, cadherins, selectins, and immunoglobulin-like CAMs (IgCAMs).
CAM Families
The Integrin family of proteins is primarily  involved in a...
Cell Adhesion Molecules - Types and Functions01:20

Cell Adhesion Molecules - Types and Functions

Cell adhesion molecules (CAMs) are pivotal to multicellularity and the coordinated functioning of tissues and organ systems. They enable physical interactions between cells and provide mechanical strength to tissues. They also function as receptors for signal transmission across the plasma membrane. The CAMs are broadly classified into four families - integrins, cadherins, selectins, and immunoglobulin-like CAMs (IgCAMs).
CAM Families
The Integrin family of proteins is primarily  involved in a...
Anchoring Junctions01:03

Anchoring Junctions

Anchoring junctions are multiprotein complexes that help cells connect to other cells and the extracellular matrix. Anchoring junctions are present on the lateral and basal surfaces of cells, providing strong and flexible connections. Focal adhesions are often formed due to cell interactions with the ECM substrata, which initiate signal transduction via kinase cascades and other mechanisms. Together, they provide stability and tissue integrity. There are three types of anchoring junctions:...
Intracellular Signaling Affects Focal Adhesions01:17

Intracellular Signaling Affects Focal Adhesions

Integrins act both as extracellular input receivers and as intracellular processing activators. As their name suggests, integrins are entirely integrated into the membrane structure. Their hydrophobic membrane-spanning regions interact with the phospholipid bilayer's hydrophobic region. These membrane receptors provide extracellular attachment sites for effectors like hormones and growth factors. They activate intracellular response cascades when their effectors are bound and active.
Some...
Overview of Cell-Matrix Interactions01:24

Overview of Cell-Matrix Interactions

The extracellular matrix or ECM holds cells together to form a tissue and allows the cells within the tissue to communicate. ECM comprises proteins such as fibronectin, collagen, laminin, etc. The most abundant protein in this space is collagen. Collagen fibers are interwoven with carbohydrate-containing protein molecules called proteoglycans. ECM allows cell migration and provides a structural scaffold at cell adhesion that anchors the cell when the extracellular matrix proteins interact with...

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相关实验视频

Updated: May 26, 2026

Ligand Nano-cluster Arrays in a Supported Lipid Bilayer
10:34

Ligand Nano-cluster Arrays in a Supported Lipid Bilayer

Published on: April 23, 2017

化学编程的细胞粘附与膜固的寡核酸.

Nicholas S Selden1, Michael E Todhunter, Noel Y Jee

  • 1Department of Pharmaceutical Chemistry, University of California, San Francisco, 600 16th Street Box 2280, San Francisco, California 94158, USA.

Journal of the American Chemical Society
|December 20, 2011
PubMed
概括

研究人员开发了一种新的化学方法,利用DNA控制细胞粘附. 这种技术允许快速,可调节的细胞结合,独立于蛋白质,使得研究细胞行为和药物效应的新方法成为可能.

科学领域:

  • 生物化学 生物化学
  • 分子生物学分子生物学
  • 材料科学 材料科学 材料科学

背景情况:

  • 细胞粘附对于组织组织和组织融合至关重要.
  • 目前的方法通常依赖于蛋白质或甘氨酸,限制控制并引入复杂性.
  • 需要对细胞粘附进行精确的化学控制.

研究的目的:

  • 开发一种化学策略,通过使用DNA寡核酸来控制细胞粘附.
  • 为了实现蛋白质和甘氨酸独立的细胞相互作用.
  • 为了证明这种方法对研究细胞膜动态的实用性.

主要方法:

  • 合成的膜固的单链DNA寡核酸从色胺.
  • 利用细胞和表面上的DNA链之间的互补相互作用.
  • 在被动化玻璃表面上化学固定不粘附的人类细胞.

主要成果:

  • 使用基于DNA的策略实现了快速,高效和可调节的细胞粘附.
  • 证明了独立于自然细胞表面蛋白或甘氨酸的细胞粘附性.
  • 成功成像了药物诱导的固定细胞膜动态的变化.

结论:

更多相关视频

Simple, Affordable, and Modular Patterning of Cells using DNA
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Simple, Affordable, and Modular Patterning of Cells using DNA

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Bead Aggregation Assays for the Characterization of Putative Cell Adhesion Molecules
08:15

Bead Aggregation Assays for the Characterization of Putative Cell Adhesion Molecules

Published on: October 17, 2014

相关实验视频

Last Updated: May 26, 2026

Ligand Nano-cluster Arrays in a Supported Lipid Bilayer
10:34

Ligand Nano-cluster Arrays in a Supported Lipid Bilayer

Published on: April 23, 2017

Simple, Affordable, and Modular Patterning of Cells using DNA
08:59

Simple, Affordable, and Modular Patterning of Cells using DNA

Published on: February 24, 2021

Bead Aggregation Assays for the Characterization of Putative Cell Adhesion Molecules
08:15

Bead Aggregation Assays for the Characterization of Putative Cell Adhesion Molecules

Published on: October 17, 2014

  • 膜固的DNA寡核酸提供了一种多功能化学方法来控制细胞粘附.
  • 这种方法为细胞固定和研究动态细胞过程提供了一个强大的工具.
  • 试剂的化学性质允许简单的合成和广泛的应用.