Thermostability Gradient in the Collagen Triple Helix Reveals its Multi-domain Structure

Thermostability Gradient in the Collagen Triple Helix Reveals its Multi-domain Structure

A triple-helical conformation and stability at physiological temperature are critical for the mechanical and biological functions of the fibril-forming collagens. Here, we characterized the role of consecutive domains of collagen II in stabilizing the triple helix. Analysis of melting temperatures o...

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Veröffentlicht in:Journal of molecular biology 2004-05, Vol.338 (5), p.989-998
Hauptverfasser: Steplewski, Andrzej, Majsterek, Ireneusz, McAdams, Erin, Rucker, Eileen, Brittingham, Raymond J., Ito, Hidetoshi, Hirai, Kazuya, Adachi, Eijiro, Jimenez, Sergio A., Fertala, Andrzej
Format: Artikel
Sprache:eng
Schlagworte:
Blotting, Western
Circular Dichroism
Collagen - chemistry
Collagen - genetics
Collagen - metabolism
collagen mutations
Electrophoresis
extracellular matrix
Mutation
Procollagen - chemistry
Procollagen - metabolism
protein engineering
Protein Structure, Quaternary
Protein Structure, Tertiary
recombinant collagen
Sequence Analysis, Protein
Temperature
thermostability
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Zusammenfassung:A triple-helical conformation and stability at physiological temperature are critical for the mechanical and biological functions of the fibril-forming collagens. Here, we characterized the role of consecutive domains of collagen II in stabilizing the triple helix. Analysis of melting temperatures of genetically engineered collagen-like proteins consisting of tandem repeats of the D1, D2, D3 or D4 collagen II periods revealed the presence of a gradient of thermostability along the collagen molecule with thermolabile N-terminal domains and thermostable C-terminal domains. These results imply a multi-domain character of the collagen triple helix. Assays of thermostabilities of the Arg75Cys and Arg789Cys collagen II mutants suggest that, in contrast to the thermostable domains, the thermolabile domains are able to accommodate amino acid substitutions without altering the thermostability of the entire collagen molecule.
ISSN:0022-2836
1089-8638
DOI:10.1016/j.jmb.2004.03.037