Physiology and Genetics of Sulfur-oxidizing Bacteria
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2022, Journal of CO2 UtilizationCitation Excerpt :In these bacteria, nitrite oxidoreductase extracts two electrons by catalyzing a reaction between NO2- and H2O and transfer the electrons to cytochromes followed by possible regeneration of reducing power including menaquinol, NADH, and FdRED [43]. Sulfur-oxidizing bacteria can extract high-energy electrons through oxidation of inorganic sulfur compounds, such as sulfide (S2-), elemental sulfur (S0), sulfite (SO3-), and thiosulfate (S2O32-), through multiple pathways [44,45]. Sulfur-oxidizing pathways including sulfide:quinone oxidoreductase pathway, Sox pathway, reverse dissimilatory sulfite reductase (Dsr) pathway, and branched thiosulfate oxidation pathway, which consist of a relay of reactions catalyzed by various enzymes, extract electrons from the inorganic sulfur compounds and regenerate menaquinol as well as NADH and FdRED (Table 3) [46,47].