Towards oxidoreductase-based processes for the removal of antibiotics from wastewater

Abstract: The occurrence of antibiotics in surface waters is an alarming issue that can be addressed by advanced wastewater treatment technologies. Among them, enzymatic treatment is an emerging technology claimed to provide prospective benefits in terms of efficiency, controllability, and safety. This review illustrates the current state of research focused on enzyme-based approaches for pollutant abatement, specifically on the most critical classes of antibiotics (e.g. tetracyclines, sulfonamides, fluoroquinolones). I… Show more

“…Protein topology, secondary structural elements (SSE), Physico‐chemical characteristics, and even substrate binding specificity can all be affected by variations in the pattern of amino acid residues in an enzyme [30,31] . Extensive research has been conducted in recent decades on the chemical interactions between oxidoreductases and diverse pollutants [32–36] . Nevertheless, the underlying concerns persist without solution, particularly with 1) the neglect of molecular interaction in conventional catalysis/biodegradation.…”

“…[30,31] Extensive research has been conducted in recent decades on the chemical interactions between oxidoreductases and diverse pollutants. [32][33][34][35][36] Nevertheless, the underlying concerns persist without solution, particularly with 1) the neglect of molecular interaction in conventional catalysis/biodegradation. 2) Investigation of active site residues in functional enzymes.…”

Computational Insights into Enzyme‐Substrate Binding Interplay Exhibit Variable Binding Attributes: A Framework for Implementing Oxidoreductase‐Based Applications

“…Protein topology, secondary structural elements (SSE), Physico‐chemical characteristics, and even substrate binding specificity can all be affected by variations in the pattern of amino acid residues in an enzyme [30,31] . Extensive research has been conducted in recent decades on the chemical interactions between oxidoreductases and diverse pollutants [32–36] . Nevertheless, the underlying concerns persist without solution, particularly with 1) the neglect of molecular interaction in conventional catalysis/biodegradation.…”

“…[30,31] Extensive research has been conducted in recent decades on the chemical interactions between oxidoreductases and diverse pollutants. [32][33][34][35][36] Nevertheless, the underlying concerns persist without solution, particularly with 1) the neglect of molecular interaction in conventional catalysis/biodegradation. 2) Investigation of active site residues in functional enzymes.…”

Computational Insights into Enzyme‐Substrate Binding Interplay Exhibit Variable Binding Attributes: A Framework for Implementing Oxidoreductase‐Based Applications

Environmental perspective of an enzyme-based system for the removal of antibiotics present in wastewater

Degradation of Sulfamethoxazole by Manganese Oxidizing Bacteria and Biogenic Manganese Oxides in the Presence of an Electron Mediator: Environmental Implications