Living Materials Constructed with Dynamic Covalent Interface between Synthetic Polymers and B. subtilis

17 January 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

With advances in the field of synthetic biology increasingly allowing us to engineer living cells to perform intricate tasks, incorporating these engineered cells into the design of synthetic polymeric materials will enable programming materials with a wide range of biological functionalities. However, employable strategies for the design of synthetic polymers that form a well-defined interface with living cells and seamlessly integrate their functionalities in materials are still largely limited. Herein, we report the first example of living materials constructed with a dynamic covalent interface between synthetic polymers and living B. subtilis cells. We showedthat 3-acetamidophenylboronic acid (APBA) and polymers of APBA (pAPBA) form dynamic covalent bonds with available diols on the B. subtilis cell surface. Importantly, pAPBA binding to B. subtilis shows a multivalent effect with complete reversibility upon addition of competitive diol species, such as fructose and sorbitol. On the basis of these findings, we constructed telechelic block copolymers with pAPBA chain ends that crosslink B. subtilis cells and produced self- standing living materials. We further demonstrated that the encapsulated cells could be retrieved upon immersing these materials in solutions containing competitive diols and further subjected to biological analyses. This work establishes the groundwork for building a myriad of synthetic polymeric materials integrating engineered living cells and provides a platform for understanding the biology of cells confined within materials.

Supplementary materials

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Title
Living Materials Constructed with Dynamic Covalent Interface between Synthetic Polymers and B. subtilis
Description
Supporting information includes synthetic methods and experimental methods.
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