Perusse, D.; Tepper, K.; Sychla, A.; Beach, S.; Smanski, M.; Maselko, M.

TNT (2,4,6-trinitrotoluene) from unexploded ordinances is a common environmental pollutant near munitions factories, military training sites, and areas of armed conflict. As physical and chemical approaches for TNT remediation are costly and difficult to scale, in situ bioremediation is an attractive alternative. TNT is a phytoaccumulative pollutant. Herbivores engineered to detoxify TNT are a potentially cost-effective platform to bioremediate large areas of contaminated sites while grazing or browsing. As a first step towards engineering herbivores with metabolic capabilities for TNT degradation, we engineered the animal genetic model, Drosophila melanogaster, to screen a library of microbial nitroreductases that can catalyse the initial degradation steps required for TNT degradation. We find strong, cofactor-dependent activity in fly lysates engineered to express NsfA from Escherichia coli, and NsfI from Enterobacter cloacae.