Synthesis of polymeric models of elastin: Polyhexapeptides and an insoluble,hybrid cross-linked polypeptide

The polymer of the hexapeptide sequence, Val-Ala-Pro-Gly-Glu-Gly, was synthesized and demostrated of exhibit a reversible, pH-dependent coacervation in low-pH aqueous solution. In addition, the synthesis of an insoluble, hybrid, cross-linked polypeptide matrix is described. The cross-linking was achieved in the coacervate state during flow orientation of the polymers. The chemical means of covalent cross-linking was intermolecular primary amide bond formation between the lysyl side chains in one polypentapeptide unit and the glutamyl side chains in another polyhexapeptide unit. The carboxyl activating reagent was a water-soluble carbodiimide. The key intermediates in the syntheses, the hexamers and their high polymers, were analyzed by carbon-13 magnetic resonance to verify the correctness of synthesis and to obtain information on conformation.