Influence of phenol on biodegradation of p-nitrophenol by freely suspended and immobilized Nocardioides sp. NSP41 |
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Authors: | Young-Gyun Cho Sung-Keun Rhee Sung-Taik Lee |
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Affiliation: | (1) Microbial Conversion Research Unit, Korea Research Institute of Bioscience and Biotechnology, Taejon, 305-600, Korea;(2) Department of Biological Sciences, Korea Advanced Institute of Science and Technology, Taejon, 305-701, Korea |
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Abstract: | The effect of the presence of an alternate toxiccompound (phenol) on the p-nitrophenol(PNP)-degrading activity of freely suspended andcalcium alginate immobilized Nocardioides sp.NSP41 was investigated. In the single substrateexperiments, when the concentration of phenol and PNPwas increased to 1400 mg l-1 and 400 mg l-1,respectively, the initial cell concentrations in thefreely suspended cell culture should be higher than1.5 g dry cell weight l-1 for completedegradation. In the simultaneous degradationexperiment, when the initial concentration of phenolwas increased from 100 to 400 mg l-1, thespecific PNP degradation rate at the concentration of200 mg l-1 was decreased from 0.028 to 0.021h-1. A freely suspended cell culture with a highinitial cell concentration resulted in a highvolumetric degradation rate, suggesting the potentialuse of immobilized cells for simultaneous degradation.In the immobilized cell cultures, althoughsimultaneous degradation of PNP and phenol wasmaintained, the specific PNP and phenol degradationrate decreased. However, a high volumetric PNP andphenol degradation rate could be achieved byimmobilization because of the high cell concentration.Furthermore, when the immobilized cells were reused inthe simultaneous degradation of PNP and phenol, theydid not lose their PNP- and phenol-degrading activityfor 12 times in semi-continuous cultures. Takentogether, the use of immobilized Nocardioidessp. NSP41 for the simultaneous degradation of PNP andphenol at high concentrations is quite feasiblebecause of the high volumetric PNP and phenoldegradation rate and the reusability of immobilizedcells. |
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Keywords: | Biodegradation immobilization Nocardioides phenol p-nitrophenol simultaneous degradation |
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