The structure of synthetic polypeptides I. X-ray investigation

Abstract

Oriented fibres and films of a number of synthetic polypeptides have been prepared, and examined by X-ray diffraction. It is shown that the polypeptides can exist in a folded (α) and an extended (β) configuration. The observations on the α form are consistent with the presence of a twofold screw axis in symmetrical polypeptides, and lead to a value of about 5.5 Ǻ for the true fibre repeat distance. The fibre period in the copolymers is shown to be greater than 5.26 Ǻ. It is considered that the X-ray evidence favours a ribbon-like molecule, in agreement with the structure shown in I. The β forms of the polypeptides give X-ray diagrams similar to those of β proteins, and probably consist of extended polypeptide chains. It is shown that the polypeptides can undergo an α→β transformation similar to that encountered in the fibrous α proteins. The medium from which the peptide is regenerated has a very important influence in determining which form is obtained. Formic acid appears to be unique in producing the β modification of polypeptides which swell or dissolve in this liquid. A mechanism for this transformation is suggested. A number of copolymers containing glycine have been examined. These appear to exist mainly in the β form. The similarities in the behaviour of synthetic polypeptides and fibrous proteins are discussed.