Three Different Topics for Bioremediation Application on Soils and Waters Contaminated with Aromatic Compounds, by Using Immobilized Bacteria |
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| Authors: | C. Lobo M. Sanchez C. Garbi E. Ferrer M. J. Martinez-Iñigo J. L. Allende C. Martín L. Casasús R. Alonso-Sanz A. Gibello M. Martin |
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| Affiliation: | (1) Facultad de Veterinaria, Universidad Complutense, 28040 Madrid, Spain;(2) Inst. Madrileño de Investigacion Agraria y Alimentaria, Apt. 127, 28800 Madrid, Spain;(3) ETSIA y ETSII, Universidad Politécnica, 28040 Madrid, Spain |
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| Abstract: | Molecular techniques and modelling are presented as powerful tools required in the performance of efficient soil and water bioremediation systems. An Escherichia coli CC118-D strain was constructed by inserting the Klebsiella pneumoniae hpa B gene, coding for the unstable 3,4-dihydroxyphenylacetate 2,3-dioxygenase, into its chromosome. When the constructed strain was immobilized, both enzyme stability and viability increased along the studied period, in absence of antibiotic. We proposed this strategy as an approach to overcoming plasmid instability and to enhance enzyme activity and stability, avoiding antibiotic utilization. A model was developed to understand and predict the behaviour of bacteria and pollutants in a bioreactor system, considering: fluid dynamics, molecular/cellular scale processes and biofilm formation. |
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| Keywords: | bacteria bioreactor bioremediation herbicides modelling 3 4-dihydroxyphenylacetate |
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