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Engineering *Bacillus subtilis* for the formation of a durable living biocomposite material

Engineering and Technology

Engineering *Bacillus subtilis* for the formation of a durable living biocomposite material

S. Kang, A. Pokhrel, et al.

Discover how engineered living materials (ELMs) are merging synthetic biology with material science to create resilient solutions. A team of researchers, including Sun-Young Kang and Claudia Schmidt-Dannert from the University of Minnesota, has pioneered a method that utilizes engineered *B. subtilis* for crafting biocomposite materials with remarkable properties. These innovations promise to transform our approach to materials science and functionality.

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~3 min • Beginner • English
Abstract
Engineered living materials (ELMs) are a fast-growing area of research that combine approaches in synthetic biology and material science. Here, we engineer B. subtilis to become a living component of a silica material composed of self-assembling protein scaffolds for functionalization and cross-linking of cells. B. subtilis is engineered to display SpyTags on polar flagella for cell attachment to SpyCatcher modified secreted scaffolds. We engineer endospore limited B. subtilis cells to become a structural component of the material with spores for long-term storage of genetic programming. Silica biomineralization peptides are screened and scaffolds designed for silica polymerization to fabricate biocomposite materials with enhanced mechanical properties. We show that the resulting ELM can be regenerated from a piece of cell containing silica material and that new functions can be incorporated by co-cultivation of engineered B. subtilis strains. We believe that this work will serve as a framework for the future design of resilient ELMs.
Publisher
Nature Communications
Published On
Dec 08, 2021
Authors
Sun-Young Kang, Anaya Pokhrel, Sara Bratsch, Joey J. Benson, Seung-Oh Seo, Maureen B. Quin, Alptekin Aksan, Claudia Schmidt-Dannert
Tags
engineered living materials
synthetic biology
B. subtilis
biocomposite materials
silica polymerization
genetic programming
biomineralization peptides

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