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J.Health Sci., 50(4), 379-383, 2004

Development of a Specific and Sensitive Bacteria Sensor for Detection of Mercury at Picomolar Levels in Environment

Tomoko Omura, Masako Kiyono, and Hidemitsu Pan-Hou*

Faculty of Pharmaceutical Sciences, Setsunan University, 45-1 Nagaotogecho, Hirakata, Osaka 573-0101, Japan

A new whole-cell bacterial sensor for the detection of low concentration of mercury in environment was constructed by gene fusion between a mercury resistance (mer) operon from pMR26 of Pseudomonas strain K-62 and a promoterless luxAB gene from Vibrio harveyi. The luminescence-based biosensor was evaluated for the selectivity and sensitivity of the detection of mercury. Cadmium, lead, chromium and zinc ions did not interfere with the assay even at same concentration compared to Hg2+. Methylmercury, phenylmercury and mercuric sulfide also did not affect the biosensor. These results reveal that the specificity of the construct is restricted to bioavailable Hg2+. The sensitivity of the biosensor was improved by decreasing the cell density in the bioassay in addition to genetically expressing an Hg2+ transport system which was expected to increase the amount of mer operon-inducing mercury in the cytoplasm. In optimized assay conditions, the lowest detectable concentration of Hg2+ was 2 pM with 1 ml sample. This detection limit is enough to detect this compound in many contaminated and some pristine environmental samples.