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相关概念视频

Protein Networks02:26

Protein Networks

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An organism can have thousands of different proteins, and these proteins must cooperate to ensure the health of an organism. Proteins bind to other proteins and form complexes to carry out their functions. Many proteins interact with multiple other proteins creating a complex network of protein interactions.
These interactions can be represented through maps depicting protein-protein interaction networks, represented as nodes and edges. Nodes are circles that are representative of a protein,...
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Protein Networks02:26

Protein Networks

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The Extracellular Matrix01:42

The Extracellular Matrix

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The Extracellular Matrix01:29

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In order to maintain tissue organization, many animal cells are surrounded by structural molecules that make up the extracellular matrix (ECM). Together, the molecules in the ECM maintain the structural integrity of tissue as well as the remarkable specific properties of certain tissues.
Composition of the Extracellular Matrix
The extracellular matrix (ECM) is commonly composed of ground substance, a gel-like fluid, fibrous components, and many structurally and functionally diverse...
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Matrix Proteoglycans and Glycoproteins01:21

Matrix Proteoglycans and Glycoproteins

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Proteoglycans are extensively glycosylated proteins, commonly found in the extracellular matrix, interwoven with collagen fibers. Hyaline cartilage, the most common type of cartilage in the body, consists of short and dispersed collagen fibers associated with large amounts of proteoglycans. These proteoglycans have long negative charges that attract cations, which in turn attract water molecules. This influx of ions and water molecules swells up the proteoglycan like a water-soaked gel that can...
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Overview of Cell-Matrix Interactions01:24

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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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Extracellular Protein Microarray Technology for High Throughput Detection of Low Affinity Receptor-Ligand Interactions
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不同的教学细胞外蛋白微网.

Nilofar Faruqui1, Angelo Bella, Jascindra Ravi

  • 1National Physical Laboratory , Hampton Road, Teddington TW11 0LW, U.K.

Journal of the American Chemical Society
|May 15, 2014
PubMed
概括
此摘要是机器生成的。

研究人员开发了一种新型的蛋白质微网,使用自组装用于先进的生物材料. 这种合成的细胞外基质模仿本地组织,促进哺乳动物细胞生长,同时抑制细菌殖民.

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科学领域:

  • 生物材料科学 生物材料科学
  • 合成生物学 合成生物学
  • 组织工程是组织工程.

背景情况:

  • 生物分子自我组装是构建功能生物材料的关键策略.
  • 针对特定功能和长度尺度的自组装的合成复制仍然是一个挑战.
  • 原生细胞外矩阵 (ECM) 为细胞提供复杂的结构和功能线索.

研究的目的:

  • 开发一种合成自组装拓,用于创建功能生物仿真细胞外矩阵.
  • 设计蛋白质微网,对细胞粘附有不同的反应.
  • 为了实现对特定生物功能的建筑和化学性质的控制.

主要方法:

  • 利用一种新的自我组装拓来创建蛋白质微网.
  • 研究合成的微网的形态学和化学特性.
  • 评估了生物性能,包括细胞附着,增殖和细菌殖民抵抗力.

主要成果:

  • 在亚毫米尺度上成功构建了模仿本地ECM架构的蛋白质微网.
  • 证明在微网上增强了哺乳动物细胞的附着和增殖.
  • 与对照组相比,表现出对细菌殖民的增强抵抗力.
  • 与微网的形态和化学特性相关的生物性能.

结论:

  • 开发的自组装拓使得可以创建差异化的细胞外矩阵.
  • 蛋白质微网提供了一个多功能平台,用于设计具有定制生物功能的生物材料.
  • 这种方法为设计可以控制细胞粘附和微生物相互作用的合成生物材料提供了一个模型.