Presence of a thermostable domain in the helical part of the type I collagen molecule and its role in the mechanism of triple helix folding

Abstract

A study has been done of the effect of neutral salts (NaCl and CaCl₂) on the mechanism of type I collagen triple helix folding and unfolding in concentrated acetic acid solutions (2–8.8M). It is shown that in these conditions, thermoabsorption and secondary structure change in heated solutions proceed in two consecutive stages. Salts exert a different destabilizing effect on different sites of the macromolecule, promoting the detection of a thermostable domain. The presence of a thermostable domain permits one to carry out reversible denaturation of collagen and to study the mechanism of the triple helix folding. Proceeding from the mechanism of the triple helix folding, an assumption has been made on the localization of the thermostable domain and its biological role.