Conformational stability of the collagen triple helix affects its turnover and determines tissue homeostasis. Although it is known that the presence of imino acids (prolines or hydroxyprolines) confer stability to the molecule, little is known regarding the stability of the imino-poor region lacking imino acids, which plays a key role in collagen cleavage. In particular, there have been continuing debates about the role of water in collagen stability. We addressed these issues using molecular dynamics simulations on 30-residue long collagen triple helices, including a structure that has a biologically relevant 9-residue imino-poor region from type III collagen (Protein Data Bank ID: 1BKV). We characterized the conformational motion ...
Forces between type I collagen triple helices are studied in solvents of varying hydrogen-bonding ab...
AbstractIonic residues influence the stability of collagen triple helices and play a relevant role i...
AbstractStudies on collagen and collagen-like peptides suggest that triple-helical stability can var...
Conformational stability of the collagen triple helix affects its turnover and determines tissue ho...
Hydration is known to be crucial in biomolecular interactions including ligand binding and self-asse...
Collagen is the most abundant protein in higher vertebrates. Despite collagen repetitive sequence, s...
AbstractBackground: The collagen triple helix is a unique protein motif defined by the supercoiling ...
Dynamics of water molecules in hydrated collagen plays an important role in determining the structur...
Native collagen molecules usually contract upon dehydration, but the details of their interaction wi...
AbstractProtein-protein recognition regulates the vast majority of physiological or pathological pro...
Background: Type I collagen is the most common protein among higher vertebrates. It forms the basis ...
Collagen is the most abundant protein in mammals. In many tissues, collagen molecules assemble to fo...
BACKGROUND: Type I collagen is the most common protein among higher vertebrates. It forms the basis ...
BackgroundCollagen is the most abundant protein in animals. Each polypeptide chain of collagen is co...
© 2017 American Chemical Society. The dielectric relaxation of hydrated collagen powders was studied...
Forces between type I collagen triple helices are studied in solvents of varying hydrogen-bonding ab...
AbstractIonic residues influence the stability of collagen triple helices and play a relevant role i...
AbstractStudies on collagen and collagen-like peptides suggest that triple-helical stability can var...
Conformational stability of the collagen triple helix affects its turnover and determines tissue ho...
Hydration is known to be crucial in biomolecular interactions including ligand binding and self-asse...
Collagen is the most abundant protein in higher vertebrates. Despite collagen repetitive sequence, s...
AbstractBackground: The collagen triple helix is a unique protein motif defined by the supercoiling ...
Dynamics of water molecules in hydrated collagen plays an important role in determining the structur...
Native collagen molecules usually contract upon dehydration, but the details of their interaction wi...
AbstractProtein-protein recognition regulates the vast majority of physiological or pathological pro...
Background: Type I collagen is the most common protein among higher vertebrates. It forms the basis ...
Collagen is the most abundant protein in mammals. In many tissues, collagen molecules assemble to fo...
BACKGROUND: Type I collagen is the most common protein among higher vertebrates. It forms the basis ...
BackgroundCollagen is the most abundant protein in animals. Each polypeptide chain of collagen is co...
© 2017 American Chemical Society. The dielectric relaxation of hydrated collagen powders was studied...
Forces between type I collagen triple helices are studied in solvents of varying hydrogen-bonding ab...
AbstractIonic residues influence the stability of collagen triple helices and play a relevant role i...
AbstractStudies on collagen and collagen-like peptides suggest that triple-helical stability can var...