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Biodegradation of penicillin G from industrial bacteria residue by immobilized cells of Paracoccus sp. KDSPL-02 through continuous expanded bed adsorption bioreactor

Peng Wang, Chen Shen, Xiaochun Wang, Shouxin Liu, Luwei Li, Jinfeng Guo

2020Journal of Biological Engineering13 citationsDOIOpen Access PDF

Abstract

Abstract Background An efficient biodegradation-strengthening approach was developed to improve penicillin G degradation from industrial bacterial residue in an expanded bed adsorption bioreactor (EBAB) is reported in this paper. Results Paracoccus sp. strain KDSPL-02 was isolated based on its ability to use penicillin G as the sole carbon and nitrogen source. Strain identification was based on analyses of morphology, physio-biochemical characteristics, and 16S rDNA sequences. The effects of temperature, pH, PVA-sodium alginate concentration, calcium chloride concentration and initial penicillin G concentration were investigated. Repeated operations of immobilized cells with EBAB, At initial penicillin concentrations below 2.0 g L − 1 , the continuous mode could reach more than 20 times, and the degradation rate reached 100%. Conclusions The present study suggests that the EBAB system can be utilized for the simple and economical biodegradation of penicillin G from industrial bacterial residue.

Topics & Concepts

BiodegradationPenicillinBioreactorChemistryAdsorptionResidue (chemistry)BacteriaMicrobiologyChromatographyDegradation (telecommunications)Nuclear chemistryBiochemistryOrganic chemistryAntibioticsBiologyComputer scienceGeneticsTelecommunicationsPharmaceutical and Antibiotic Environmental ImpactsInnovative Microfluidic and Catalytic Techniques InnovationProtein purification and stability
Biodegradation of penicillin G from industrial bacteria residue by immobilized cells of Paracoccus sp. KDSPL-02 through continuous expanded bed adsorption bioreactor | Litcius