Stress-tolerant, recyclable, and autonomously renewable biocatalyst platform enabled by engineered bacterial spores

Abstract

ABSTRACTHere, we describe a stress-tolerant, recyclable, and autonomously renewable biocatalyst platform based on T7 RNA polymerase-enabled high-density protein display on bacterial spores (TIED). TIED uses high-level T7 RNA polymerase-driven expression of recombinant proteins specifically in sporulating cells to allow spontaneous assembly of recombinant fusion proteins on B. subtilis spore surface. TIED enables a high loading density in the range of 106–107 recombinant enzymes per spore, robust catalytic activities of displayed enzymes comparable to the respective free enzymes, and enhanced kinetic stability of displayed enzymes in methanol and elevated temperatures. Further, we demonstrate TIED-enzymes to be not only recyclable, but fully renewable after loss of activity through induction of germination and sporulation, enabling perpetual reuse of these immobilized biocatalysts.Graphical abstractSchematic illustration of the T7 RNA polymerase-enabled high-density protein display (TIED) on bacterial spores and its unique features as a biocatalyst platform.