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Bioinspired and Mechanically Strong Fibers Based on Engineered Non‐Spider Chimeric Proteins

Yuanxin Li, Jinɡjinɡ Li, Jing Sun, Haonan He, Bo Li, Chao Ma, Kai Liu, Hongjie Zhang

2020Angewandte Chemie19 citationsDOI

Abstract

Abstract Silk‐protein‐based fibers have attracted considerable interest due to their low weight and extraordinary mechanical properties. Most studies on fibrous proteins focus on the recombinant spidroins, but these fibers exhibit moderate mechanical performance. Thus, the development of alternative structural proteins for the construction of robust fibers is an attractive goal. Herein, we report a class of biological fibers produced using a designed chimeric protein, which consists of the sequences of a cationic elastin‐like polypeptide and a squid ring teeth protein. Remarkably, the chimeric protein fibers exhibit a breaking strength up to about 630 MPa and a corresponding toughness as high as about 130 MJ m −3 , making them superior to many recombinant spider silks and even comparable to some native counterparts. Therefore, this strategy is a novel concept for exploring bioinspired ultrastrong protein materials through the development of new types of structural chimeric proteins.

Topics & Concepts

Spider silkProtein engineeringElastinRecombinant DNAFusion proteinSpiderBiophysicsNanotechnologyToughnessMaterials scienceChemistrySILKBiochemistryBiologyComposite materialZoologyEnzymeGeneGeneticsSilk-based biomaterials and applicationsAdvanced Materials and MechanicsElectrospun Nanofibers in Biomedical Applications
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