Add to ORKGCollagens provide the building blocks for diverse tissues and organs. Furthermore, these proteins act as signaling molecules that control cell behavior during organ development, growth, and repair. Their long half-life, mechanical strength, ability to assemble into fibrils and networks, biocompatibility, and abundance from readily available discarded animal tissues make collagens an attractive material in biomedicine, drug and food industries, and cosmetic products. About three decades ago, pioneering experiments led to recombinant human collagens\u27 expression, thereby initiating studies on the potential use of these proteins as substitutes for the animal-derived collagens. Since then, scientists have utilized various systems to produce n...
The biopolymer collagen is often used as a scaffolding biomaterial in tissue engineering. Like any o...
Tissue Engineering (TE) reconstructs damaged tissues/organs exploiting biocompatible and biodegradab...
Background Triple helical collagens are the most abundant structural protein in vertebrates and are ...
Collagens are a major constituent of the extracellular matrices of many biological tissues. Their st...
Extracellular matrix (ECM)-based scaffolds, through their inherent bioactivity and molecular recogni...
AbstractIn tissue engineering, bioactive materials play an important role, providing structural supp...
Producción CientíficaThe field of biomedicine is constantly investing significant research efforts i...
P(論文)Collagen is an essential component of multicellular organisms. Collagen is a structure protein ...
The basic building block of the extra-cellular matrix in native tissue is collagen. As a structural ...
A group of collagenlike recombinant proteins containing high densities of biologically active sites ...
Cells, growth factors, and scaffold are the crucial factors for tissue engineering. Recently, scaffo...
Collagen is the dominant component of the extracellular matrix of mammals. It occurs almost in all a...
In the last decades, increased knowledge about the organization, structure and properties of collage...
Gelatin is frequently used in various biomedical applications. However, gelatin is generally extract...
Collagen is the main structural protein of most hard and soft tissues in animals and the human body,...
The biopolymer collagen is often used as a scaffolding biomaterial in tissue engineering. Like any o...
Tissue Engineering (TE) reconstructs damaged tissues/organs exploiting biocompatible and biodegradab...
Background Triple helical collagens are the most abundant structural protein in vertebrates and are ...
Collagens are a major constituent of the extracellular matrices of many biological tissues. Their st...
Extracellular matrix (ECM)-based scaffolds, through their inherent bioactivity and molecular recogni...
AbstractIn tissue engineering, bioactive materials play an important role, providing structural supp...
Producción CientíficaThe field of biomedicine is constantly investing significant research efforts i...
P(論文)Collagen is an essential component of multicellular organisms. Collagen is a structure protein ...
The basic building block of the extra-cellular matrix in native tissue is collagen. As a structural ...
A group of collagenlike recombinant proteins containing high densities of biologically active sites ...
Cells, growth factors, and scaffold are the crucial factors for tissue engineering. Recently, scaffo...
Collagen is the dominant component of the extracellular matrix of mammals. It occurs almost in all a...
In the last decades, increased knowledge about the organization, structure and properties of collage...
Gelatin is frequently used in various biomedical applications. However, gelatin is generally extract...
Collagen is the main structural protein of most hard and soft tissues in animals and the human body,...
The biopolymer collagen is often used as a scaffolding biomaterial in tissue engineering. Like any o...
Tissue Engineering (TE) reconstructs damaged tissues/organs exploiting biocompatible and biodegradab...
Background Triple helical collagens are the most abundant structural protein in vertebrates and are ...