Litcius/Paper detail

Biodegradation of cefalexin by two bacteria strains from sewage sludge

Jichen Tian, Chong Chen, George Lartey‐Young, Limin Ma

2023Royal Society Open Science15 citationsDOIOpen Access PDF

Abstract

Bioremediation has been used as an environmentally-friendly, energy-saving and efficient method for removing pollutants. However, there have been very few studies focusing on the specific antibiotic-degrading microorganisms in the activated sludge and their degradation mechanism. Two strains of cefalexin-degrading bacteria ( Rhizobium sp. (CLX-2) and Klebsiella sp. (CLX-3)) were isolated from the activated sludge in this study. They were capable of rapidly eliminating over 99% of cefalexin at an initial concentration of 10 mg l −1 within 12 h. The exponential phase of cefalexin degradation happened a little earlier than that of bacterial growth. The first-order kinetic model could elucidate the biodegradation process of cefalexin. The optimized environmental temperature and pH values for rapid biodegradation by these two strains were found to be 30°C and 6.5–7, respectively. Furthermore, two major biodegradation metabolites of CLX-3, 7-amino-3-cephem-4-carboxylic acid and 2-hydroxy-3-phenyl pyrazine were identified using UHPLC-MS and the biodegradation pathway of cefalexin was proposed. Overall, the results showed that Rhizobium sp. (CLX-2) and Klebsiella sp. (CLX-3) could possibly be useful resources for antibiotic pollution remediation.

Topics & Concepts

CefalexinBiodegradationBacteriaSewageSewage sludgeMicrobiologyBiologyEnvironmental sciencePulp and paper industryEnvironmental engineeringAntibioticsEcologyCephalosporinEngineeringGeneticsPharmaceutical and Antibiotic Environmental ImpactsAnalytical chemistry methods developmentAntibiotics Pharmacokinetics and Efficacy