Morin, Felix2015-10-162015-10-1620152015http://hdl.handle.net/10393/33027http://dx.doi.org/10.20381/ruor-4097There is a need for a sensitive, specific, rapid and cost-effective assay that can be used as an early warning signal of contamination of aquatic ecosystems. The purpose of this work was to develop a sensitive stress-specific microbial bioreporter responsive to pro-oxidants. Furthermore, the bioreporter was designed to be applicable in environments possibly affected by metal processing activities. An E.coli bioreporter was developed containing a plasmid with the katG promoter sequence as the sensing sequence and with mCherry as the reporter protein. The bioreporter responded to metal pro-oxidants (Cd, As, Zn, Pb, Ag and Ag nanoparticles). A new assay growth-medium was developed and contributed to improve the sensitivity of our assay that has the best detection limit to inorganic pro-oxidants compared to other oxidative-stress sensitive bioreporters in the literature. The bioreporter detected pro-oxidants in environmental samples. The assay has a reasonable sensitivity, however, it still lacks sensitivity to detect pro-oxidants at concentrations lower than those shown to be toxic to many aquatic species. Within-lab reproducibility and robustness were determined to be acceptable. For stress-specific bioreporters to be incorporated in regulative legislations and industrial monitoring programs there is a need to improve the sensitivity of these assays, they need to be calibrated with other relevant pro-oxidants, inter-lab reproducibility needs to be established and robustness to environmental samples needs to be further tested. To further validate the sensitivity and ecotoxicological relevance of the bioreporter as a relevant predictive tool, stress-specific bioreporter assays need to be performed in parallel with traditional ecotoxicological assays using contaminated environmental samples.enBioreporterE.coliOxidative StressInorganic ToxicantsEnvironmental SamplesThesis