Add to ORKGCurrently, there is a growing interest in new biomaterials that resemble the extracellular environment and stimulate cells to organize their native architecture. Human Elastin-Like Polypeptides (HELP) are bioinspired artificial proteins derived from synthetic genes and are promising candidate components of innovative biomaterials for biomedical applications. These biomimetic polypeptides are modeled on the most regularly repeated hydrophobic domain of human elastin based on the hexapeptidic VAPGVG motif [1, 2]. The recombinant products retain some peculiar features as the inverse phase transition, a reversible temperature-dependent coacervation process. In this study we explored the potential of our two biopolymer prototypes, HELP and HELP1...
Elastin is a fibrous protein that confers elasticity to tissues such as skin, arteries and lung. It ...
Synthetic polymers have attained a dominant position in materials science and technology largely on ...
A new sythetic gene coding for a Human Elastin-Like Polypeptide was constructed and expressed. The r...
Bioinspired artificial proteins modelled on tropoelastin represent an attractive tool for many biote...
Mimicking the structure of natural proteins by recombinant biopolymers is a useful approach for the ...
Genetically engineered proteins represent a new promising class of biomaterials that overcome the di...
Elastin-based polypeptides are a class of smart biopolymers representing an important model in the d...
In the rapidly expanding fields of tissue engineering and regenerative medicine, stem cells represen...
Spatially controlled cell adhesion and multicellular organization is critical to many biomedical and...
The potential of producing patterned, bioactive coatings with Human Elastin-Like Polypeptides (HELPs...
Elastin-like polypeptides (ELPs) have a distinct thermal behaviour, known as inverse temperature pha...
Mammalian adult skeletal muscle has a limited ability to regenerate after injury, usage or trauma. A...
Recombinant proteins represent a new and promising class of polymeric materials in the field of biom...
The use of polymers naturally occurring in the extracellular matrix (ECM) is a promising strategy i...
The replacement of diseased tissues with biological substitutes with suitable biomechanical properti...
Elastin is a fibrous protein that confers elasticity to tissues such as skin, arteries and lung. It ...
Synthetic polymers have attained a dominant position in materials science and technology largely on ...
A new sythetic gene coding for a Human Elastin-Like Polypeptide was constructed and expressed. The r...
Bioinspired artificial proteins modelled on tropoelastin represent an attractive tool for many biote...
Mimicking the structure of natural proteins by recombinant biopolymers is a useful approach for the ...
Genetically engineered proteins represent a new promising class of biomaterials that overcome the di...
Elastin-based polypeptides are a class of smart biopolymers representing an important model in the d...
In the rapidly expanding fields of tissue engineering and regenerative medicine, stem cells represen...
Spatially controlled cell adhesion and multicellular organization is critical to many biomedical and...
The potential of producing patterned, bioactive coatings with Human Elastin-Like Polypeptides (HELPs...
Elastin-like polypeptides (ELPs) have a distinct thermal behaviour, known as inverse temperature pha...
Mammalian adult skeletal muscle has a limited ability to regenerate after injury, usage or trauma. A...
Recombinant proteins represent a new and promising class of polymeric materials in the field of biom...
The use of polymers naturally occurring in the extracellular matrix (ECM) is a promising strategy i...
The replacement of diseased tissues with biological substitutes with suitable biomechanical properti...
Elastin is a fibrous protein that confers elasticity to tissues such as skin, arteries and lung. It ...
Synthetic polymers have attained a dominant position in materials science and technology largely on ...
A new sythetic gene coding for a Human Elastin-Like Polypeptide was constructed and expressed. The r...