Industrial wastewater is a major polluting agent in the environment as huge amounts of untreated effluents are discharged from industries causing serious effects to biotic systems. The pharmaceutical industry effluent used in the present study contains a high concentration of ammoniacal nitrogen (NH 3 -N) about 500 mg L À1 . In the present study, an efficient NH 3 -N removing strain was isolated, and enriched in the effluent with a high NH 3 -N concentration for its efficient removal. The strain which showed higher removal efficiency was identified as Proteus penneri by ribotyping. The wild type P. penneri exhibited low removal efficiency (64%) in 24 hours even after the conventional enrichment method. Hence, the strain was mutated to improve its degradation efficiency using a modified mariner based transposon system. It was constructed by replacing the Kan r gene with Gm r gene to develop pSC189::miniTn(Gm), since the isolated strain was resistant to kanamycin. Two mutant strains T 55 and T 132 were shown to have enhanced NH 3 -N removal efficiency by 84% and 81% respectively, in 24 hours. The kinetic rate constants such as pseudo first and second order kinetics were evaluated for the degradation of NH 3 -N by wild type P. penneri and transposon mutants; both of them followed second order rate kinetics. The NH 3 -N removal was confirmed by ion chromatography (IC) and Fourier Transform-Infrared Spectroscopy (FT-IR). To date, there is no report on the strain improvement using transposon mutagenesis for the treatment of NH 3 -N.
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