The octahaem SirA catalyses dissimilatory sulfite reduction in Shewanella oneidensis MR‐1

2011 
Shewanella oneidensis MR-1 is a metal reducer that uses a large number of electron acceptors that include thiosulfate, polysulfide, and sulfite. The enzyme required for thiosulfate and polysulfide respiration has been recently identified, but the mechanisms of sulfite reduction remained unexplored. Analysis of MR-1 cultures grown anaerobically with sulfite suggested that the dissimilatory sulfite reductase catalyzes six-electron reduction of sulfite to sulfide. Reduction of sulfite required menaquinones and c cytochromes but appeared to be independent of the intermediate electron carrier CymA. Furthermore, the terminal sulfite reductase, SirA, was identified as an octaheme c cytochrome with an atypical heme binding site that represents a new class of sulfite reductases. The sirA locus was identified in the genomes of several sequenced Shewanella genomes, and its presence appears to be linked to the ability of these organisms to reduce sulfite under anaerobic conditions.
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