Abstract

We report the synthesis of a series of elastin-like polypeptide (ELP)-based molecular networks through the combined use of the covalent bond-forming SpyTag/SpyCatcher chemistry, physically entangled p53dim domains (Xs), and site-directed mutagenesis. The resulting networks shared similar chemical composition but differed significantly in their viscoelasticity. These materials exhibited excellent compatibility toward encapsulated fibroblasts and stem cells. These results point to a versatile strategy for designing viscoelastic materials by tapping into diverse protein-protein interactions.