Deglycosylation Inactivation Initiated by a Novel Periplasmic Dehydrogenase Complex Provides a Novel Strategy for Eliminating the Recalcitrant Antibiotic Kanamycin

Abstract: Biodegradation using enzyme-based systems is a promising approach to minimize antibiotic loads in the environment. Aminoglycosides are refractory antibiotics that are generally considered non-biodegradable. Here, we provide evidence that kanamycin, a common aminoglycoside antibiotic, can be degraded by an environmental bacterium through deglycosylation of its 4′-amino sugar. The unprecedented deglycosylation inactivation of kanamycin is initiated by a novel periplasmic dehydrogenase complex, which we designate… Show more

“…Therefore, a thorough understanding of the breakdown products and their potential environmental impact is crucial before the widespread application of this technique. Furthermore, the cost-effectiveness and scalability of enzyme-based remediation for large-scale environmental applications require further investigation [73][74][75]. Advanced treatment techniques are being explored for large-scale antibiotic removal from water sources.…”

Antibiotics: environmental impact and degradation techniques

“…Therefore, a thorough understanding of the breakdown products and their potential environmental impact is crucial before the widespread application of this technique. Furthermore, the cost-effectiveness and scalability of enzyme-based remediation for large-scale environmental applications require further investigation [73][74][75]. Advanced treatment techniques are being explored for large-scale antibiotic removal from water sources.…”

Antibiotics: environmental impact and degradation techniques

Association of antimicrobial biodegradation with the evolution of antimicrobial resistance in ecosystems

Neomycin antibiotic removal by antimicrobial nanobiosorbent based on sodium alginate-grafted-poly(3-aminophenol)/silver-decorated metal-organic frameworks