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1 eroxide, a result consistent with it being a superoxide reductase.
2 ixing of the Desulfovibrio vulgaris two-iron superoxide reductase (2Fe-SOR) containing the ferrous ac
3  sulfate-reducing anaerobes shown to possess superoxide reductase activity.
4                                              Superoxide reductase and associated proteins are catalyt
5 s FprA lies downstream of an operon encoding superoxide reductase and rubredoxin, consistent with an
6 iate that is invoked in the reaction between superoxide reductase and superoxide.
7                                              Superoxide reductase from the hyperthermophilic anaerobe
8                                              Superoxide reductase is a nonheme iron metalloenzyme tha
9          These results are consistent with a superoxide reductase rather than SOD activity of Rbo and
10 ces between Fe(II)-M121EAz, Fe(II)-wtAz, and superoxide reductase (SOR) and allowed design of the sec
11                                              Superoxide reductase (SOR) and P450 enzymes contain simi
12                     Deletion strains lacking superoxide reductase (SOR) and putative flavodiiron prot
13 zed and reduced forms of Pyrococcus furiosus superoxide reductase (SOR) as a function of pH and exoge
14 e have added cyanide to oxidized 1Fe and 2Fe superoxide reductase (SOR) as a surrogate for the putati
15 F0389_00796 gene that encodes for a putative superoxide reductase (SOR) enzyme.
16 ivo results are presented demonstrating that superoxide reductase (SOR) from the air-sensitive oral s
17                                              Superoxide reductase (SOR) is a blue non-heme iron prote
18                                              Superoxide reductase (SOR) is a non-heme iron enzyme tha
19                             P. furiosus uses superoxide reductase (SOR) rather than SOD to remove sup
20 lear iron active site of Pyrococcus furiosus superoxide reductase (SOR) through the use of EPR, reson
21 te kinetics of a Desulfovibrio (D.) vulgaris superoxide reductase (SOR) turnover cycle, in which supe
22 t can act as a superoxide dismutase (SOD), a superoxide reductase (SOR), and a superoxide oxidase (SO
23 zed as a model of the reduced active site of superoxide reductase (SOR).
24                                              Superoxide reductases (SORs) are nonheme iron-containing
25                                              Superoxide reductases (SORs) belong to a new class of me
26                                              Superoxide reductases (SORs) contain a characteristic sq
27                                              Superoxide reductases (SORs) contain a novel square pyra
28 s))] structure of the reduced active site of superoxide reductases (SORs), a class of enzymes that de
29 lly to mimic the nonheme iron active site of superoxide reductase, which contains a five-coordinate i