PenTag, a Versatile Platform for Synthesizing Protein-Polymer Biohybrid Materials

Abstract

AbstractThe site-specific and covalent conjugation of proteins on solid supports and in hydrogels is the basis for the synthesis of biohybrid materials offering broad applications. Current methods for conjugating proteins to desired targets are often challenging due to unspecific binding, unstable (non-covalent) coupling, or expensive and difficult-to-synthesize ligand molecules. Here, we present PenTag, an approach for the biorthogonal, highly-specific and covalent conjugation of a protein to its ligand for various applications in materials sciences. We engineered penicillin- binding protein 3 (PBP3) and showed that this protein can be used for the stable and spontaneous conjugation of proteins to dyes, polymers, or solid supports. We applied PenTag as a crosslinking tool for synthesizing stimuli-responsive hydrogels or for the development of a biohybrid material system performing computational operations emulating a 4:2 encoder. Based on this broad applicability and the use of a small, cheap and easy-to-functionalize ligand and a stable, soluble recombinant protein, we see PenTag as a versatile approach towards biohybrid material synthesis.