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Article Dans Une Revue Environmental Toxicology Année : 2004

Development of a biosensor for the detection of tributyltin

Résumé

A biosensor (LUMISENS I), based on the inducible bioluminescence of the Escherichia coli strain TBT3 (Ec::luxAB TBT3), was developed for the detection of the biocide tributyltin. LUMISENS I was set up with a minibioreactor and additional equipment for growth monitoring and light acquisition. The 100-mL minibioreactor has allowed us to establish a stable and reproducible environment for the bacteria (regulation of the growth rate, temperature, pH, and oxygenation), as well as for in situ contact with the xenobiotic. The optical components of the transducer were chosen according to the spectral emission of the strain being studied using a highly sensitive spectrophotometer that was initially devoted to Raman scattering. LUMISENS I was patented according to the in situ, automatic, and simultaneous measurement of the cell density and bioluminescence in the bioreactor. The first results showed that cells cultivated in a synthetic glucose medium provided a better detection limit than did those cultivated in a complex Luria–Bertani (LB) medium (0.02 and 1.5 μM of tributyltin, respectively). Cells maintained at a high growth rate (0.9 h−1) led to maximum bioluminescence. Moreover, air bubbling was efficient enough to provide suitable quantities of oxygen for both growth and light emission. When the TBT3 strain used the luxAB genes on its own, decanal, a long-chain aldehyde, had to be added to obtain the bioluminescence reaction. We found that the continuous addition of decanal was the most effective means of obtaining this reaction. The monitoring of the bioluminescence after tributyltin induction showed that the aldehyde was not toxic up to 300 μM during a 7-day experiment. Measurement of tributyltin with LUMISENS I was performed, which showed significant response up to 0.125 μM without any effect on optical density. Even though optimization of the performance of LUMISENS I is still under development, because of its original design, this biosensor is already in use as a warning system for the online monitoring of tributyltin.

Dates et versions

hal-02378004 , version 1 (24-11-2019)

Identifiants

Citer

Habib Horry, Marie-José Durand, Pascal Picart, Loubna Bendriaa, Philippe Daniel, et al.. Development of a biosensor for the detection of tributyltin. Environmental Toxicology, 2004, 19 (4), pp.342-345. ⟨10.1002/tox.20030⟩. ⟨hal-02378004⟩
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