Engineered Biosensors in an Encapsulated and Deployable System for Environmental Chemical Detection.

The long-term exposure of low levels of the fungicide, 2-phenylphenol (2-PP), to the environment presents a hazard to human and aquatic health. The cost and difficulty in large-scale production limit the use of existing sensors to detect 2-PP for applications such as personal protection and persistent environmental monitoring of large areas. While advances have been made in using whole cells as biosensors for specific chemical detection, a whole-cell biosensor system with robust biocontainment for field deployment and a strong visual reporter for readouts in the deployed environment has yet to be realized. Here, engineered biosensors in an encapsulated and deployable system (eBEADS) were created to demonstrate a portable, no-power living sensor for detection of 2-PP in the environment. A whole-cell living sensor to detect 2-PP was developed in by utilizing the 2-PP degradation pathway with an agenetic amplification circuit to produce a visual colorimetric output. To enable field deployment, a physical biocontainment system comprising polyacrylamide alginate beads was designed to encapsulate sensor strains, support long-term viability without supplemental nutrients, and allow permeability of the target analyte. Integration of materials and sensing strains has led to the development of a potential deployable end-to-end living sensor that, with the addition of an amplification circuit, has up to a 66-fold increase in β-galactosidase reporter output over non-amplified strains, responding to as little as 1 μM 2-PP while unencapsulated and 10 μM 2-PP while encapsulated. eBEADS enable sensitive and specific in-field detection of environmental perturbations and chemical threats without electronics.