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Genetic Functionalization of Protein-Based Biomaterials via Protein Fusions

Gabriela Geraldo Mendes, Britt Faulk, Bhavika Kaparthi, A. Irion, B Fong, Kayla J. Bayless, Sarah E. Bondos

2024Biomacromolecules13 citationsDOIOpen Access PDF

Abstract

Proteins implement many useful functions, including binding ligands with unparalleled affinity and specificity, catalyzing stereospecific chemical reactions, and directing cell behavior. Incorporating proteins into materials has the potential to imbue devices with these desirable traits. This review highlights recent advances in creating active materials by genetically fusing a self-assembling protein to a functional protein. These fusion proteins form materials while retaining the function of interest. Key advantages of this approach include elimination of a separate functionalization step during materials synthesis, uniform and dense coverage of the material by the functional protein, and stabilization of the functional protein. This review focuses on macroscale materials and discusses (i) multiple strategies for successful protein fusion design, (ii) successes and limitations of the protein fusion approach, (iii) engineering solutions to bypass any limitations, (iv) applications of protein fusion materials, including tissue engineering, drug delivery, enzyme immobilization, electronics, and biosensing, and (v) opportunities to further develop this useful technique.

Topics & Concepts

Protein engineeringFusion proteinSurface modificationNanotechnologySynthetic biologyDrug deliveryBiosensorFunction (biology)Computational biologyChemistryMaterials scienceBiochemistryBiologyCell biologyEnzymeRecombinant DNAPhysical chemistryGeneBiochemical and Structural CharacterizationMonoclonal and Polyclonal Antibodies ResearchBiotin and Related Studies
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