Amperometric detection of Cu2+ by yeast biosensors using flow injection analysis (FIA)
2007
Abstract A whole cell-based amperometric sensing system for Cu 2+ has been developed based on recombinant Saccharomyces cerevisiae strains and Flow Injection Analysis. Yeast strains were transformed with the same plasmid containing the Cu 2+ inducible promoter of the CUP1 gene from S. cerevisiae fused to the lacZ gene from E. coli . These strains exhibited different sensitivities to Cu 2+ and the induction of the CUP1 promoter occurred at different concentrations of Cu 2+ . The two transgenic yeast sensor systems that were selected for trials with real effluents, measured Cu 2+ concentrations between 1.6 and 6.4 mg l −1 , and 0.05 and 0.35 mg l −1 . The biosensor can measure ca. 50 samples and has a storage stability of 2 months (dry) or 2 weeks (in 0.1 M phosphate buffer) at 4 °C. It uses an indirect amperometric measurement system which allows the detection of Cu 2+ in samples that also contain rapidly biodegradable substances. Preliminary application of both sensors in electroplating industry effluents has demonstrated their effectiveness.
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