Abstract
Contamination of the environment by toxic compounds is a problem of global concern and in addressing this problem, it is necessary to identify the mechanisms by which specific agents exert their toxic effects, and develop effective, inexpensive strategies for detecting compounds in their biologically active and available form. We have used reporter gene fusion technology to identify genes, in the genetically well-characterized bacterium Escherichia coli, whose expression is affected by specific environmental toxins. As an added benefit of our approach, we have elaborated methods to use these gene fusion clones as biosensors to detect specific toxic agents, such as arsenic oxyanions. Arsenic is an abundant and useful element which is also an environmental toxin that can pose severe risks to health. Arsenic toxicity varies with oxidation state, organometallic form, and bioavailability. The Escherichia coli arsB fusion strains respond specifically to arsenic in its toxic, oxyanionic form, and can detect bioavailable amounts of these oxyanions in contaminated water samples. Combinations of different biosensor clones and assay automation will augment the use of luminescent biosensors for the detection of specific toxic agents in the environment.
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Alexander, D.C. et al. (2000). Blazing towards the Next Millennium: Luciferase Fusions to Identify Genes Responsive to Environmental Stress. In: Belkin, S. (eds) Environmental Challenges. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-4369-1_8
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DOI: https://doi.org/10.1007/978-94-011-4369-1_8
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