Production of extracellular superoxide radical in microorganisms and its environmental implications: A review

Abstract

Extracellular superoxide radical (O₂^•-) is ubiquitous in microbial environments and has significant implications for pollutant transformation. Microbial extracellular O₂^•- can be produced through multiple pathways, including electron leakage from the respiratory electron transport chain (ETC), NADPH oxidation by the transmembrane NADPH oxidase (NOX), and extracellular reactions. Extracellular O₂^•- significantly influences the geochemical processes of various substances, including toxic metals and refractory organic pollutants. On one hand, extracellular O₂^•- can react with variable-valence metals and detoxify certain highly toxic metals, such as As(III), Cr(VI), and Hg(II). On the other hand, extracellular O₂^•- can directly or indirectly (via Bio-Fenton) degrade many organic pollutants, including a variety of emerging contaminants. In this work, we summarize the production mechanisms of microbial extracellular O₂^•-, review its roles in the transformation of environmental pollutants, and discuss the potential applications, limiting factors, and future research directions in this field.

Keywords: Electron transport chain (ETC); Emerging organic contaminants; Extracellular superoxide radical (O(2)(•−)); NADPH oxidase (NOX); Toxic heavy metals.