Bio-recognition devices have captured special
attention because they combine biological specificity and
selectivity with electronics to perform environmental and
biomedical analysis. Lindane is a recalcitrant pesticide
considered potential carcinogen that has caused serious
pollution problems. The purpose of the present study is to
evaluate Streptomyces sp. M7 ability to dechlorinate lindane in
liquid defined media in adverse culture conditions. Bacterial activity was monitored by electrochemical impedance spectroscopy. These results confirm that the microorganism adhered to a solid support is able to grow and to metabolize the organochlorine pesticide as a sole carbon source. Therefore,
liquid defined media in adverse culture conditions. Bacterial
activity was monitored by electrochemical impedance
spectroscopy. These results confirm that the microorganism
adhered to a solid support is able to grow and to metabolize the
organochlorine pesticide as a sole carbon source. Therefore,
liquid defined media in adverse culture conditions. Bacterial
activity was monitored by electrochemical impedance
spectroscopy. These results confirm that the microorganism
adhered to a solid support is able to grow and to metabolize the
organochlorine pesticide as a sole carbon source. Therefore,
Streptomyces sp. M7 ability to dechlorinate lindane inliquid defined media in adverse culture conditions. Bacterial
activity was monitored by electrochemical impedance
spectroscopy. These results confirm that the microorganism
adhered to a solid support is able to grow and to metabolize the
organochlorine pesticide as a sole carbon source. Therefore,
Streptomyces sp. M7 can be applied for a future development of
a prototype for lindane detection and quantification.
a prototype for lindane detection and quantification.
a prototype for lindane detection and quantification.
sp. M7 can be applied for a future development ofa prototype for lindane detection and quantification.