Collagen polymorphism: Its origins in the amino acid sequence

Abstract

The polymorphic forms of ordered collagen aggregation in vitro and in vivo are reviewed. The axially projected structures of a class of fibrils known as fibrous long spacing (FLS) collagen are solved using simulated positively stained banding patterns based on the amino acid sequence. This method is also used to solve the axial projection of a 670 Å ( D) periodic structure with a symmetrical banding pattern (DPS) re-precipitated from skin collagen. The relation between the obliquely striated and 110 Å periodic forms of collagen is discussed. The specificity for the formation of FLS, DPS and segment long spacing (SLS) collagen is shown to be in the distributions of various amino acids in the sequence. Different residues are important for each type of structure, their importance being dependent on the chemical conditions and the presence of other macromolecules. The interaction of collagen fibrils with proteoglycans in vivo is discussed in terms of the amino acid sequence. Also the factors which affect collagen morphology in the presence of mucopolysaccharides and proteoglycans in vitro and in vivo are discussed. Some insight is gamed into the principles which govern the self-assembly of molecules into ordered fibrous aggregates.