Bioremediation via In Situ Electrotransformation
Résumé
Bioremediation of polluted sites relies on bacteria to degrade or transform contaminants into less noxious chemicals. To do so, bacteria require genes that encode the degradation enzymes and the capacity to properly express them, which may be lacking in indigenous bacteria. To increase the ability of indigenous bacteria to bioremediate a contaminated site, this research proposes the use of electrotransformation to facilitate bacterial uptake of exogenous degradation genes. As a proof of concept, a lindane degradation gene (linA) located on a broad host-spectrum expression plasmid (pBLN) was introduced into soil bacteria by electroporation both in vitro, in liquid media, and in situ, in soil. In both cases, the electrotransformed bacteria displayed an increase in lindane degradation and an increase in the linA gene copy number. The use of in situ electrotransformation could improve pollutant degradation rates and could provide another tool for bioremediation.