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Cohesion01:07

Cohesion

Cohesion is the attraction between molecules of the same type, such as water molecules. Water molecules have an overall neutral charge but are polar molecule. An oxygen atom in one water molecule has a partial negative charge that can bind to a hydrogen atom with a partial positive charge in a second water molecule, forming a hydrogen bond. Each water molecule can form up to four hydrogen bonds with other water molecules. Hydrogen bonds are responsible for water's cohesive nature.
On a surface,...
Dehydration Synthesis01:15

Dehydration Synthesis

Dehydration synthesis (also called a condensation reaction) is the chemical process in which two molecules covalently link together to form a new molecule, along with the release of a water molecule. Many physiologically important compounds form by dehydration synthesis reactions, such as complex carbohydrates, proteins, DNA, and RNA.Synthesis of carbohydratesSugar molecules are covalently linked together by dehydration synthesis. During the reaction, the hydroxyl (-OH) group from one reactant...
Membrane Fluidity01:23

Membrane Fluidity

Cell membranes are composed of phospholipids, proteins, and carbohydrates loosely attached to one another through chemical interactions. Molecules are generally able to move about in the plane of the membrane, giving the membrane its flexible nature called fluidity. Two other features of the membrane contribute to membrane fluidity: the chemical structure of the phospholipids and the presence of cholesterol in the membrane.Fatty acids tails of phospholipids can be either saturated or...
Membrane Fluidity01:26

Membrane Fluidity

Membrane fluidity is explained by the fluid mosaic model of the cell membrane, which describes the plasma membrane structure as a mosaic of components—including phospholipids, cholesterol, proteins, and carbohydrates—that gives the membrane a fluid character.
Mosaic nature of the membrane
The mosaic characteristic of the membrane helps the plasma membrane remain fluid. The integral proteins and lipids exist as separate but loosely-attached molecules in the membrane. The membrane is a relatively...
Detergent Purification of Membrane Proteins01:18

Detergent Purification of Membrane Proteins

Detergents are used to purify the integral proteins of the membrane. The hydrophobic portion of the detergent can replace membrane phospholipids while solubilizing the membrane proteins. When detergent monomers reach a specific concentration in a solution called critical micelle concentration (CMC), they form micelles. Above CMC, the concentration of the detergent monomers remains in equilibrium with the micelle. The number of detergent monomers present in the CMC varies for each detergent, and...
Micelles01:30

Micelles

Micelle formation is an intricate process that hinges on the properties of amphiphilic or amphipathic molecules and the conditions of the system in which they are found. Amphiphilic molecules, which have both hydrophilic (water-attracting) and hydrophobic (water-repelling) parts, play a critical role in this process.In aqueous environments, these molecules arrange themselves such that their hydrophilic heads are turned towards the water phase, while their hydrophobic tails are oriented away...

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Video Experimental Relacionado

Updated: Jun 8, 2026

Construction of Modular Hydrogel Sheets for Micropatterned Macro-scaled 3D Cellular Architecture
10:55

Construction of Modular Hydrogel Sheets for Micropatterned Macro-scaled 3D Cellular Architecture

Published on: January 11, 2016

Los hidrogeles de varias membranas son hidrogeles de varias membranas.

Sébastien Ladet1, Laurent David, Alain Domard

  • 1Université de Lyon, Université Lyon 1, UMR CNRS 5223, Ingénierie des Matériaux Polymères (IMP), Laboratoire des Matériaux Polymères et des Biomatériaux, 15 Boulevard A. Latarjet, Bâtiment ISTIL, F-69622 Villeurbanne Cedex, France.

Nature
|March 7, 2008
PubMed
Resumen
Este resumen es generado por máquina.

Los investigadores desarrollaron un método novedoso para crear hidrogeles de polisacáridos complejos con estructuras similares a las de la cebolla. Esta técnica simplifica el procesamiento de geles de múltiples membranas, lo que permite nuevas aplicaciones biomédicas.

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Ultrathin Porated Elastic Hydrogels As a Biomimetic Basement Membrane for Dual Cell Culture
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Ultrathin Porated Elastic Hydrogels As a Biomimetic Basement Membrane for Dual Cell Culture

Published on: December 26, 2017

Videos de Experimentos Relacionados

Last Updated: Jun 8, 2026

Construction of Modular Hydrogel Sheets for Micropatterned Macro-scaled 3D Cellular Architecture
10:55

Construction of Modular Hydrogel Sheets for Micropatterned Macro-scaled 3D Cellular Architecture

Published on: January 11, 2016

Synthesis of Hydrogels with Antifouling Properties As Membranes for Water Purification
07:32

Synthesis of Hydrogels with Antifouling Properties As Membranes for Water Purification

Published on: April 7, 2017

Ultrathin Porated Elastic Hydrogels As a Biomimetic Basement Membrane for Dual Cell Culture
11:34

Ultrathin Porated Elastic Hydrogels As a Biomimetic Basement Membrane for Dual Cell Culture

Published on: December 26, 2017

Área de la Ciencia:

  • Ciencia de los materiales Ciencia de los materiales.
  • Ingeniería de Biomateriales Ingeniería de Biomateriales
  • Química de Polímeros La Química de Polímeros es la química de los polímeros.

Sus antecedentes:

  • Los hidrogeles de polisacáridos son materiales versátiles utilizados en diversos campos como la administración de medicamentos y la ingeniería de tejidos.
  • La formación de hidrogel a partir de soluciones de polielectrolitos implica interacciones moleculares complejas, a menudo estudiadas empíricamente.
  • Los métodos actuales para crear arquitecturas complejas de hidrogel están limitados por la falta de comprensión mecanicista.

Objetivo del estudio:

  • Desarrollar un método simplificado para procesar hidrogeles de polisacáridos complejos con arquitecturas de múltiples membranas.
  • Para investigar la formación de estructuras de hidrogel "similares a las cebollas" utilizando un proceso de gelatación interrumpida controlado y en varios pasos.
  • Para crear arquitecturas de hidrogel con espacios libres entre las membranas para aplicaciones biomédicas.

Principales métodos:

  • Utilizó un proceso de gelación interrumpida en varios pasos bajo condiciones físico-químicas controladas.
  • El intercambio de disolventes empleado como una ruta de procesamiento clave para la reorganización de la cadena de polímeros.
  • Centrado en equilibrar las interacciones solvófobas y solvófilas para la gelación física.

Principales resultados:

  • Generó con éxito hidrogeles complejos con arquitecturas "similares a cebollas" de múltiples membranas.
  • Demostró una ruta de procesamiento simplificada para geles con formas intrincadas y organización de múltiples membranas.
  • Hidrogeles creados con espacios intermembranales libres accesibles adecuados para la introducción de células o fármacos.

Conclusiones:

  • El método desarrollado simplifica significativamente la fabricación de hidrogeles de polisacáridos complejos.
  • Las arquitecturas "similares a cebollas" con espacios libres entre las membranas ofrecen nuevas posibilidades para aplicaciones biomédicas.
  • Las estructuras tridimensionales de múltiples membranas hechas a medida abren nuevas perspectivas en la administración de fármacos y la ingeniería tisular.