Immobilization of Recombinant E. coli Cells in a Bacterial Cellulose–Silk Composite Matrix To Preserve Biological Function

Strategies for the encapsulation of cells for the design of cell-based sensors require efficient immobilization procedures while preserving biological activity of the reporter cells. Here, we introduce an immobilization technique that relies upon the symbiotic relationship between two bacterial strains: cellulose-producing Gluconacetobacter xylinus cells; and recombinant Escherichia coli cells harboring recombinase-based dual-color synthetic riboswitch (RS), as a model for cell-based sensor. Following sequential coculturing of recombinant cells in the cellulose matrix, final immobilization of E. coli cells was completed after reconstituted silk fibroin (SF) protein was added to a “living membrane” generating the composite bacterial cellulose-silk fibroin (BC-SF) scaffold. By controlling incubation parameters for both types of cells, as well as the conformations in SF secondary structure, a variety of robust composite scaffolds were prepared ranging from opaque to transparent. The properties of the scaffol...