1.15.1.1	2 O2.- + 2 H+	-	Homo sapiens	O2 + H2O2	-	ir	390123	
1.15.1.1	2 O2.- + 2 H+	-	Pseudomonas putida	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Trypanosoma cruzi	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Kluyveromyces marxianus	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Saccharolobus solfataricus	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Allium sativum	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Clostridioides difficile	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Sulfolobus acidocaldarius	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Danio rerio	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Laternula elliptica	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Aliivibrio salmonicida	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Acidilobus saccharovorans	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Thermochaetoides thermophila	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Bacillus sp. (in: Bacteria)	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Burkholderia pseudomallei	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	superoxide dismutase is a key enzyme for the protection of aerobic organisms against toxic radicals produced during oxidative processes	Saccharolobus solfataricus	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	dismutation of superoxide in a two-step reaction: 1. O2.- + Fe3+-SOD = O2 + Fe2+-SOD, 2. O2.- + Fe2+-SOD + 2 H+ = H2O2 + Fe3+-SOD	Saccharolobus solfataricus	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	activity determination by the epinephrine assay: at alkaline pH, superoxide anion O2- causes the oxidation of epinephrine to adrenochrome, SOD competes with this reaction by decreasing the adrenochrome formation	Allium sativum	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	enzyme activity assay by measurement of inhibition of reduction of cytochrome c by O2- produced by the xanthine oxidase/xanthine reaction	Laternula elliptica	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	enzyme activity determination by xanthine-xanthine oxidase-nitro blue tetrazolium assay	Homo sapiens	O2 + H2O2	-	ir	390123	
1.15.1.1	2 O2.- + 2 H+	-	Bacillus sp. (in: Bacteria) MHS47	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Saccharolobus solfataricus Gtheta	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Sulfolobus acidocaldarius DSM 639	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Kluyveromyces marxianus NBIMCC 1984	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Burkholderia pseudomallei 1106a	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+	-	Danio rerio AB	O2 + H2O2	-	?	390123	
1.15.1.1	2 O2.- + 2 H+ +	-	Thermus thermophilus	O2 + H2O2	-	?	415540	
1.15.1.1	2 O2.- + 2 H+ +	-	Homo sapiens	O2 + H2O2	-	?	415540	
1.15.1.1	2 O2.- + 2 H+ +	-	Saccharomyces cerevisiae	O2 + H2O2	-	?	415540	
1.15.1.1	2 O2.- + 2 H+ +	-	Aeropyrum pernix	O2 + H2O2	-	?	415540	
1.15.1.1	2 O2.- + 2 H+ +	the SOD-catalyzed reaction proceeds through a redox cycle of metal ions, active site geometry, overview	Aeropyrum pernix	O2 + H2O2	-	?	415540	
1.15.1.1	2 O2.- + 2 H+ +	-	Thermus thermophilus HB27 / ATCC BAA-163 / DSM 7039	O2 + H2O2	-	?	415540	
1.15.1.1	2 superoxide + 2 H+	-	Mus musculus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Escherichia coli	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Homo sapiens	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Bos taurus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Zea mays	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Nicotiana tabacum	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Glycine max	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Arabidopsis thaliana	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Photobacterium leiognathi	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Porphyridium purpureum	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Mytilus edulis	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Crassostrea gigas	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Pleurotus ostreatus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Leishmania amazonensis	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Gadus morhua	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Penaeus vannamei	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Debaryomyces hansenii	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Lingulodinium polyedra	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Aspergillus glaucus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Tetraselmis subcordiformis	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Conticribra weissflogii	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Avicennia marina	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Bruguiera gymnorhiza	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Aeropyrum pernix	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Populus trichocarpa	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Apostichopus japonicus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Pinctada fucata	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Sonneratia alba	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Nicotiana benthamiana	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Tetraselmis gracilis	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Piper betle	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Archaeoglobus fulgidus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Alvinella pompejana	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Haliotis discus discus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Sardinella aurita	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Stemona tuberosa	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Rattus norvegicus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Pseudomonas putida	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Rhodobacter capsulatus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Nostoc sp. PCC 7120 = FACHB-418	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Pisum sativum	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Rhodotorula mucilaginosa	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Pseudoalteromonas sp. ANT506	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Miscanthus x giganteus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Coxiella burnetii	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Cherax quadricarinatus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Amaranthus hypochondriacus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Deschampsia antarctica	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Oplegnathus fasciatus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Nicotiana plumbaginifolia	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Curcuma aromatica	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Thermus thermophilus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Caragana jubata	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Geobacillus sp. EPT3	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Sparus aurata	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Raphanus sativus var. raphanistroides	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Gypsophila oblanceolata	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Leishmania peruviana	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Photobacterium sepia	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Nodularia sp. (in: Bacteria)	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Minutocellus polymorphus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Cylindrotheca closterium	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Ulva linza	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Schwanniomyces vanrijiae var. vanrijiae	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Lampanyctus crocodilus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Xiphias gladius	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Prionace glauca	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Cliona celata	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	detoxification of superoxide	Archaeoglobus fulgidus	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Schwanniomyces vanrijiae var. vanrijiae 020	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Rhodotorula mucilaginosa AN5	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Aspergillus glaucus 363/NBIMCC 8861	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Leishmania amazonensis MHOM/BR/73/M1845	O2 + H2O2	-	?	424468	
1.15.1.1	2 superoxide + 2 H+	-	Leishmania peruviana MHOM/PE/84/LC26	O2 + H2O2	-	?	424468	
1.15.1.1	additional information	enzyme can reduce ferrocyanide to ferricyanide at pH 5.0-8.7	Bos taurus	?	-	?	89	
1.15.1.1	additional information	addition of hexacyanoferrate results in reduction of Cu(II) to Cu(I)	Bos taurus	?	-	?	89	
1.15.1.1	additional information	dismutation of superoxide anions is promoted by reduction of Cu2+ to Cu+	Rattus norvegicus	?	-	?	89	
1.15.1.1	additional information	Cu,Zn-dependent enzyme protects photoheterotrophic cells from periplasmic superoxide generated by exposure to low O2 under illuminated conditions	Cereibacter sphaeroides	?	-	?	89	
1.15.1.1	additional information	enzyme is involved in pathogenesis of the parasite by protecting it from oxidative killing	Neospora caninum	?	-	?	89	
1.15.1.1	additional information	enzyme Sod2 is a major component of the antioxidant defense system, and adaptation to elevated growth temperatures is also dependent on enzyme activity	Cryptococcus neoformans	?	-	?	89	
1.15.1.1	additional information	higher levels of oxidative stress may induce changes in photochemicla efficiency of photosystem II	Pinus mugo	?	-	?	89	
1.15.1.1	additional information	MnSOD may have a specific role in the steroidogenic function of the fasciulata/reticularis of the rat adrenal, but not on that of the glomerulosa	Rattus norvegicus	?	-	?	89	
1.15.1.1	additional information	superoxide dismutase activity in Pseudomonas putida affects utilization of sugars and growth on root surfaces, role of SOD in root colonization and oxidative stress, overview	Pseudomonas putida	?	-	?	89	
1.15.1.1	additional information	the enzyme is required for virulence of the organism, e.g. in silkworm Bombyx mori, with iron-SOD being more important, overview	Pseudomonas aeruginosa	?	-	?	89	
1.15.1.1	additional information	covalent modification of the conserved Tyr41 in the active site, Tyr41 and His155 are involved in catalysis, hydrogen bond network including three solvent molecules connecting the iron-ligating hydroxide ion via H155 with F41 and H37, Y41 and H155 are important for the structural and functional properties of SOD, overview	Saccharolobus solfataricus	?	-	?	89	
1.15.1.1	additional information	Fe2+-containing active site structure, overview	Sulfolobus acidocaldarius	?	-	?	89	
1.15.1.1	additional information	native and recombinant enzyme ossess a covalent modification of the conserved Tyr41 in the active site, Tyr41 plays an important role in the enzyme activity and the maintenance of the structural architecture of SOD, overview	Saccharolobus solfataricus	?	-	?	89	
1.15.1.1	additional information	unusual covalent modification of the conserved Tyr41 in the active site, interactions Tyr41-His155, overview	Saccharolobus solfataricus	?	-	?	89	
1.15.1.1	additional information	EC-SOD protects the lung in both bleomycin- and asbestos-induced models of pulmonary fibrosis	Homo sapiens	?	-	?	89	
1.15.1.1	additional information	inverse relationship between SOD1 expression and ox-LDL in plaque plays a role in oxidative stress contributes to post-ischaemic injury in the heart, increasing SOD1 protects against this increased oxidative stress	Mus musculus	?	-	?	89	
1.15.1.1	additional information	pharmacokinetics of single and multiple doses of recombinant human superoxide dismutase covalently linked to lecithin in healthy Japanese and Caucasian volunteers are nonlinear with dose, showing a relatively long half-life of PC-SOD of over 24 hours, overview	Homo sapiens	?	-	?	89	
1.15.1.1	additional information	pharmacokinetics, safety and tolerability of single rising doses up to 80 mg of recombinant human superoxide dismutase covalently linked to lecithin in healthy white volunteers, overview	Homo sapiens	?	-	?	89	
1.15.1.1	additional information	SOD activity is one major defense line against oxidative stress for all of the aerobic organisms	Kluyveromyces marxianus	?	-	?	89	
1.15.1.1	additional information	SOD inhibits the autoxidation of pyrogallol	Bos taurus	?	-	?	89	
1.15.1.1	additional information	enzyme activity determination by NBT reduction	Triticum aestivum	?	-	?	89	
1.15.1.1	additional information	SOD activity measurement by the ferricytochrome c method, using xanthine/xanthine oxidase as the source of superoxide radicals	Citrullus lanatus	?	-	?	89	
1.15.1.1	additional information	SOD activity measurement using the nitroblue tetrazolium	Aspergillus niger	?	-	?	89	
1.15.1.1	additional information	the enzyme is involved in activation and modulation of phospho-extracellular signal-regulated kinases proteins and in the control of several biological processes including cell proliferation	Allium sativum	?	-	?	89	
1.15.1.1	additional information	coupled assay method using inhibition of the autooxidation of pyrogallol	Bos taurus	?	-	?	89	
1.15.1.1	additional information	enzyme activity assay using nitroblue tetrazolium and riboflavin	Fritillaria meleagris	?	-	?	89	
1.15.1.1	additional information	SOD enzyme activity measurement is based on the inhibition of nitroblue tetrazolium reduction by superoxide radical generated by xanthine/xanthine oxidase	Sus scrofa	?	-	?	89	
1.15.1.1	additional information	determination of superoxide dismutase is performed using the method of inhibition of epinephrine auto-oxidation in alkaline medium and the measurement of the absorbance of the resulting product at 340 nm	Gallus gallus	?	-	?	89	
1.15.1.1	additional information	enzyme activity is measured byy the enzyme caused inhibition of the xanthine oxidase coupling reaction	Sonneratia alba	?	-	?	89	
1.15.1.1	additional information	SOD activity is assayed based on its ability to compete with nitroblue-tetrazolium for superoxide anions generated by the xanthine-xanthine oxidase system, which in turn results in the inhibition of reduction of nitroblue-tetrazolium	Cenchrus americanus	?	-	?	89	
1.15.1.1	additional information	SOD activity is determined by a modified method of inhibition of cytochrome c reduction in a xanthine/xanthine oxidase system generating superoxide ions	Acidilobus saccharovorans	?	-	?	89	
1.15.1.1	additional information	superoxide dismutase activity is measured by the inhibition of nitro blue tetrazolium reduction in the presence of the superoxide anion generated by the xanthine and xanthine oxidase system	Sus scrofa	?	-	?	89	
1.15.1.1	additional information	the enzyme activity is determined by measuring by inhibition of autooxidation of pyrogallol	Triticum aestivum	?	-	?	89	
1.15.1.1	additional information	the enzyme assay measures the enzyme's ability to inhibit the oxidation of hydroxylamine catalyzed by the xanthine-xanthine oxidase system	Meretrix meretrix	?	-	?	89	
1.15.1.1	additional information	enzyme activity assay method using riboflavin and nitroblue tetrazolium (NBT) reduction	Caragana jubata	?	-	?	89	
1.15.1.1	additional information	enzyme activity detection by water-soluble tetrazolium (WST-1) assay. This assay is based on the detection of a water-soluble formazan dye that is formed upon reduction of water-soluble tetrazolium salt, WST-1, by the superoxide anion	Homo sapiens	?	-	?	89	
1.15.1.1	additional information	enzyme activity determination with riboflavin and nitroblue tetrazolium (NBT), kinetics	Stemona tuberosa	?	-	?	89	
1.15.1.1	additional information	enzyme activity measurement by determination of inhibition through the enzyme of pyrogallol autoxidation to purpurogallin	Avicennia marina	?	-	?	89	
1.15.1.1	additional information	enzyme activity measurement by reduction of NBT	Rhodotorula mucilaginosa	?	-	?	89	
1.15.1.1	additional information	enzyme activity of recombinant MgMnSOD1 is assayed by using 2-(4-iodophenyl)-3-(4-nitrophenyl)-5-(2,4-disulfophenyl)-2H-tetrazolium, i.e. WST-1. The method shows high sensitivity due to the lower reaction rate of WST-1 and superoxide anion	Miscanthus x giganteus	?	-	?	89	
1.15.1.1	additional information	enzyme PschSOD exhibits superoxide dismutase and peroxidase activities. The enzyme utilizes its own dismutation product, the H2O2 in presence of bicarbonate	Pisum sativum	?	-	?	89	
1.15.1.1	additional information	equilibrium binding of Escherichia coli MnSOD to poly(U), poly(A), poly(C), poly(dU) and double-stranded (ds) DNA, overview. The polynucleotides bind to MnSOD in the following affinity hierarchy, poly(dU) N poly(U) N dsDNA N poly(A) N poly(C). The differences in the hierarchy are not large in magnitude as the poly(dU) bound with less than a 100fold higher affinity than poly(C). For each polynucleotide, Kobs decreases only slightly with increasing [K+], surprising for a relatively non-specific nucleic acid protein. There is either only one binding site shared by these polynucleotides or the larger site size occluded by poly(C) overlaps that of poly(U) and poly(A), but extends further on the protein	Escherichia coli	?	-	?	89	
1.15.1.1	additional information	SOD activity is measured using a method employing xanthine and xanthine oxidase to generate superoxide radicals which react with 2-(4-iodophenyl)-3-(4-nitrophenol)-5-phenyltetrazolium chloride (INT) to form a red formazan dye. The SOD activity is then measured spectrophotometrically by the degree of inhibition of this reaction by means of the decrease in absorbance at 505 nm, 37°C	Sardinella aurita	?	-	?	89	
1.15.1.1	additional information	SOD enzyme activity is determined by measuring enzyme ability to inhibit the photochemical reduction of nitrobluetetrazolium	Aeropyrum pernix	?	-	?	89	
1.15.1.1	additional information	superoxide dismutase inhibits pyrogallol autoxidation in alkaline medium characterized by increases in oxygen consumption. The primary products of pyrogallol autoxidation are H2O2 by reduction of O2 and pyrogallol-orthoquinone by oxidation of pyrogallol. SOD is catalyzing a reaction that annuls the forward electron transfer step that produces superoxide and pyrogallol-semiquinone, both oxygen radicals. By dismutating these oxygen radicals, SOD can reverse autoxidation. Analysis of reaction parameters, overview	Bos taurus	?	-	?	89	
1.15.1.1	additional information	the enzyme activity assay uses the p-nitro blue tetrazolium chloride (NBT) solution method	Deschampsia antarctica	?	-	?	89	
1.15.1.1	additional information	the enzyme activity is detected by its ability to inhibit the autoxidation of epinephrine at pH 10.2	Homo sapiens	?	-	?	89	
1.15.1.1	additional information	the extracellular enzyme appears to bind lipopolysaccharides, recognition mechanisms can be provided by several actors which can interplay such as plasma LBP-binding protein (LBP), membrane bound or soluble forms of CD14 and integrins	Crassostrea gigas	?	-	?	89	
1.15.1.1	additional information	dismutation of superoxide anions is promoted by reduction of Cu2+ to Cu+	Rattus norvegicus CuZn-SOD	?	-	?	89	
1.15.1.1	additional information	SOD activity is one major defense line against oxidative stress for all of the aerobic organisms	Kluyveromyces marxianus L3	?	-	?	89	
1.15.1.1	additional information	enzyme activity measurement by reduction of NBT	Rhodotorula mucilaginosa AN5	?	-	?	89	
1.15.1.1	additional information	enzyme can reduce ferrocyanide to ferricyanide at pH 5.0-8.7	Bos taurus CuZn-SOD	?	-	?	89	
1.15.1.1	additional information	addition of hexacyanoferrate results in reduction of Cu(II) to Cu(I)	Bos taurus CuZn-SOD	?	-	?	89	
1.15.1.1	additional information	Fe2+-containing active site structure, overview	Sulfolobus acidocaldarius DSM 639	?	-	?	89	
1.15.1.1	additional information	SOD activity measurement using the nitroblue tetrazolium	Aspergillus niger 26	?	-	?	89	
1.15.1.1	nitro blue tetrazolium + ?	-	Solanum lycopersicum	?	-	?	377376	
1.15.1.1	nitro blue tetrazolium + ?	-	Psidium guajava	?	-	?	377376	
1.15.1.1	Nitroblue Tetrazolium + ?	enzyme inhibits superoxide-induced reduction of colorless Nitroblue Tetrazolium dye to its oxidized blue formazan form	Marinomonas sp.	?	-	?	389398	
1.15.1.1	Nitroblue Tetrazolium + ?	enzyme inhibits superoxide-induced reduction of colorless Nitroblue Tetrazolium dye to its oxidized blue formazan form	Marinomonas sp. NJ522	?	-	?	389398	
1.15.1.1	O2- + H+	-	Gallus gallus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Synechococcus elongatus PCC 7942 = FACHB-805	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Drosophila melanogaster	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Paracoccus denitrificans	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Thermus aquaticus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Sinorhizobium meliloti	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Bacillus subtilis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Mus musculus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Thermus thermophilus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Escherichia coli	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Homo sapiens	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Homo sapiens	O2 + H2O2	-	r	287893	
1.15.1.1	O2- + H+	-	Rattus norvegicus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Saccharomyces cerevisiae	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Bos taurus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Triticum aestivum	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Geobacillus stearothermophilus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Aspergillus nidulans	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Neurospora crassa	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Cereibacter sphaeroides	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Methanothermobacter thermautotrophicus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Aspergillus niger	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Spinacia oleracea	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Pisum sativum	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Zea mays	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Klebsiella aerogenes	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Photobacterium leiognathi	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Pseudomonas putida	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Trypanosoma brucei	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Halobacterium salinarum	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Thermoplasma acidophilum	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Canis lupus familiaris	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Arachis hypogaea	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Crithidia fasciculata	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Mycolicibacterium phlei	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Xenopus laevis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Ascaris suum	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Propionibacterium freudenreichii subsp. shermanii	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Bacteroides fragilis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Trypanosoma cruzi	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Solanum lycopersicum	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Lens culinaris	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Niallia circulans	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Pinus sylvestris	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Nocardia asteroides	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Brassica oleracea	O2 + H2O2	-	r	287893	
1.15.1.1	O2- + H+	-	Acholeplasma laidlawii	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Saccharolobus solfataricus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Caulobacter vibrioides	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Arthrospira platensis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Aspergillus flavus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Aspergillus terreus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Brassica rapa subsp. oleifera	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Porphyridium purpureum	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Cyprinus carpio	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Flavobacterium sp.	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Citrullus lanatus subsp. vulgaris	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Methanobacterium bryantii	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Nostoc sp.	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Pseudomonas carboxydohydrogena	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Megalodesulfovibrio gigas	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Mizuhopecten yessoensis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Nicotiana sp.	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Porphyromonas gingivalis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Streptococcus mutans	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Bacteroides thetaiotaomicron	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Thermomyces lanuginosus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Deinococcus radiophilus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Planomicrobium okeanokoites	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Danio rerio	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Azotobacter chroococcum	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Leptolyngbya boryana	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Chersonesometrus fulvipes	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Gluconobacter cerinus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Ginkgo biloba	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Empedobacter brevis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Myroides odoratus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Leishmania tropica	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Metarhizium anisopliae	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Marchantia paleacea	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Gordonia bronchialis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Virgibacillus halodenitrificans	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Dirofilaria immitis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Nuphar lutea	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Microbacterium maritypicum	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Curtobacterium oceanosedimentum	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Terrimonas ferruginea	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Halomonas halmophila	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Aspergillus fumigatus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Photobacterium damselae subsp. piscicida	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Anas platyrhynchos domestica	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Methanobrevibacter arboriphilus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Radix lethospermi	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Chloroflexus aurantiacus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Trichinella pseudospiralis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Bombyx mori	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Haliotis discus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Tatumella ptyseos	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Candida albicans	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Cinnamomum camphora	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Citrus limon	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Pseudoalteromonas haloplanktis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Geobacillus stearothermophilus	O2 + H2O2	Mn-SOD is unaffected by H2O2	?	287893	
1.15.1.1	O2- + H+	-	Synechococcus elongatus PCC 7942 = FACHB-805	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Paracoccus denitrificans	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Mus musculus	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Escherichia coli	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Homo sapiens	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Rattus norvegicus	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Saccharomyces cerevisiae	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Geobacillus stearothermophilus	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Zea mays	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Photobacterium leiognathi	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Halobacterium salinarum	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Thermoplasma acidophilum	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Mycolicibacterium phlei	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Propionibacterium freudenreichii subsp. shermanii	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Bacteroides fragilis	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Nocardia asteroides	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Caulobacter vibrioides	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Methanobacterium bryantii	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Streptococcus mutans	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Bacteroides thetaiotaomicron	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Leptolyngbya boryana	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Ginkgo biloba	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Gordonia bronchialis	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	defense against oxidants	Saccharolobus solfataricus	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	defense against oxidants	Dirofilaria immitis	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	Mn-SOD, expression is strongly stimulated during stationary phase in cell culture, enzyme is atypical and plays an important role in cell protection against reactive oxygen in the cytosol in the stationary phase	Candida albicans	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Rattus norvegicus CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Citrus limon CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Drosophila melanogaster CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Saccharolobus solfataricus Gtheta	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	defense against oxidants	Saccharolobus solfataricus Gtheta	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Azotobacter chroococcum Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Thermus thermophilus Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Spinacia oleracea Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Bos taurus CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Gallus gallus CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Methanobrevibacter arboriphilus AZ	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Pisum sativum Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Empedobacter brevis CCM 2867	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Solanum lycopersicum Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Methanobacterium bryantii Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Brassica oleracea CuZn-SOD	O2 + H2O2	-	r	287893	
1.15.1.1	O2- + H+	-	Leptolyngbya boryana Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Arthrospira platensis Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Lens culinaris CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Photobacterium leiognathi CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Photobacterium leiognathi CuZn-SOD	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Caulobacter vibrioides CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Caulobacter vibrioides CuZn-SOD	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Porphyridium purpureum Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Marchantia paleacea CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Escherichia coli B / ATCC 11303	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Niallia circulans Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Photobacterium leiognathi ATCC 25521	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Caulobacter vibrioides CB15	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Pseudomonas putida Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Aspergillus niger CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Nocardia asteroides GUH-2	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Planomicrobium okeanokoites NCMB 561	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Aspergillus nidulans CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Photobacterium damselae subsp. piscicida Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Canis lupus familiaris CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Cinnamomum camphora Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Neurospora crassa CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Zea mays SOD-III	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Brassica rapa subsp. oleifera Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Escherichia coli Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Escherichia coli Mn-SOD	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Homo sapiens Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Escherichia coli Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Escherichia coli Fe-SOD	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Paracoccus denitrificans CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Paracoccus denitrificans CuZn-SOD	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Thermus aquaticus Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Megalodesulfovibrio gigas Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Nuphar lutea Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Myroides odoratus CCM 2873	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Klebsiella aerogenes IFO 3317	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Homo sapiens CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Homo sapiens CuZn-SOD	O2 + H2O2	-	r	287893	
1.15.1.1	O2- + H+	-	Zea mays SOD-I	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Microbacterium maritypicum NCMB 559	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Paracoccus denitrificans Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Dirofilaria immitis CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	defense against oxidants	Dirofilaria immitis CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Saccharomyces cerevisiae CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Thermus thermophilus HB8 / ATCC 27634 / DSM 579	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Aspergillus flavus CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Crithidia fasciculata Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Pseudomonas carboxydohydrogena Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Geobacillus stearothermophilus Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Geobacillus stearothermophilus Mn-SOD	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Geobacillus stearothermophilus Mn-SOD	O2 + H2O2	Mn-SOD is unaffected by H2O2	?	287893	
1.15.1.1	O2- + H+	-	Sinorhizobium meliloti Rm5000	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Aspergillus fumigatus Af293	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Acholeplasma laidlawii Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Virgibacillus halodenitrificans Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Anas platyrhynchos domestica CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Halomonas halmophila CCM 2833	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Thermomyces lanuginosus P134	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Neurospora crassa Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Chersonesometrus fulvipes Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Thermoplasma acidophilum Fe-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Thermoplasma acidophilum Fe-SOD	O2 + H2O2	Fe-SODs are inhibited by H2O2, but Mn-SODs are not	?	287893	
1.15.1.1	O2- + H+	-	Cereibacter sphaeroides Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Rattus norvegicus Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Saccharomyces cerevisiae Mn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Halobacterium salinarum NRL	O2 + H2O2	-	?	287893	
1.15.1.1	O2- + H+	-	Aspergillus terreus CuZn-SOD	O2 + H2O2	-	?	287893	
1.15.1.1	O2.- + 4-[3-(4-iodophenyl)-2-(4-nitrophenyl)-2H-5-tetrazolio]-1,3-benzene disulfonate	i.e. WST-1, activity assay detection method	Hyphantria cunea	?	-	?	397999	
1.15.1.1	O2.- + H+	-	Mus musculus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Homo sapiens	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Rattus norvegicus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Bos taurus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Bombyx mori	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Triticum aestivum	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Oryctolagus cuniculus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Aspergillus niger	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Canis lupus familiaris	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Helicobacter pylori	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Methylobacillus sp.	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Deinococcus radiodurans	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Humicola lutea	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Providencia alcalifaciens	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Burkholderia cenocepacia	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Thermoascus aurantiacus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Bacillus cereus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Rhodothermus sp.	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Haliotis diversicolor supertexta	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Talaromyces marneffei	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Crypthecodinium cohnii	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Scedosporium apiospermum	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Hyphantria cunea	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Kluyveromyces marxianus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Citrullus lanatus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	a key enzyme for fighting oxidative stress	Helicobacter pylori	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	a metalloenzyme that eliminates superoxide radicals by dismutation into hydrogen peroxide and molecular oxygen	Crypthecodinium cohnii	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	Cu,ZnSOD is a urinary marker of hepatic necrosis, but not hepatic fibrosis, overview	Rattus norvegicus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	Deinococcus radiodurans Mn-SOD is most effective at high superoxide fluxes found under conditions of high radioactivity compared to te enzyme of Escherichia coli and Homo sapiens	Deinococcus radiodurans	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	EC-SOD plays an important role in regulating inflammatory responses to pulmonary injury, EC-SOD binds directly to hyaluronic acid and may inhibit pulmonary inflammation in part by preventing superoxide-mediated fragmentation of hyaluronan to low molecular mass fragments, thereby preventing activation of polymorphic neutrophil chemotaxis by fragmented hyaluronic acid, overview	Homo sapiens	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	EC-SOD plays an important role in regulating inflammatory responses to pulmonary injury, EC-SOD binds directly to hyaluronic acid via its matrix-binding domain and may inhibit pulmonary inflammation in part by preventing superoxide-mediated fragmentation of hyaluronan to low molecular mass fragments	Mus musculus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	enzyme inhibition by tetrathiomolybdate leads to antiangiogenic and antitumour effects in mice	Mus musculus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	extracellular superoxide dismutase accelerates endothelial recovery and inhibits in-stent restenosis in stented atherosclerotic Watanabe heritable hyperlipidemic rabbit aorta. Extracellular superoxide dismutase, EC-SOD, is a major component of antioxidative defense in blood vessels, and exogenously delivered EC-SOD protects against balloon-induced neointima formation and constrictive remodeling and has powerful cardioprotective properties, overview	Oryctolagus cuniculus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	isozyme MnSOD1, the product of sodA-1 gene, is expressed at lower level compared to MnSOD2, overview	Bacillus cereus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	isozyme MnSOD2, encoded by sodA-2, plays a more important role in antioxidative stress compared to MnSOD1, overview	Bacillus cereus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	periplasmic Cu,ZnSOD protects the bacterium from exogenously generated O2.- and contributes to intracellular survival of the bacterium in macrophages	Burkholderia cenocepacia	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	rosuvastatin induces the enzyme in aortic extracts and restores the enzyme expression in mice with combined leptin and LDL-receptor deficiency, and in THP-1 macrophages and foam cells in vitro, thus, SOD1 is a potentially important mediator of the prevention of oxLDL accumulation within atherosclerotic plaques, overview	Mus musculus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	SOD is a regulatory enzyme involved in the degradation of superoxide anions in living organisms	Bombyx mori	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	SOD is a regulatory enzyme involved in the degradation of superoxide anions in living organisms	Hyphantria cunea	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	SOD1 induces Ca2+ in the cell and inhibits ERK phosphorylation in the P-ERK1/2 pathway by muscarinic receptor M1 modulation in rat pituitary GH3 cells, the effect is enhanced by oxotremorine and partially reverted by pyrenzepine, and independent from increased intracellular calcium concentration, overview	Rattus norvegicus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	the enzyme catalyzes the disproportionation of superoxide via its Cu ion redox cycle [Cu-(II)/Cu(I)], protecting the organism from oxidative stress, while the neighboring Zn ion plays a structural role	Bos taurus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	the enzyme contributes to the virulence of many human-pathogenic fungi through its ability to neutralize toxic levels of reactive oxygen species generated by the host	Talaromyces marneffei	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	the enzyme is important in defense of cells against oxidative stress	Providencia alcalifaciens	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	the enzyme is involved in hypoxic pulmonary vasoconstriction, HPV, an important physiological mechanism, which is regulated by changes in the production of and interactions among reactive oxygen species, mechanism, overview, the superoxide dismutase mimetic tempol inhibits HPV, overview	Rattus norvegicus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	the enzyme mutation E93A leads to a decrease in muscle cdk5 activity accompanied by a significant reduction in MyoD and cyclin D1 levels causing amyotrophic lateral sclerosis, a primarily a motor neuron disorder with early muscle denervation preceding motor neuron loss, the progressive deterioration of muscle function is potentiated by altered muscle biochemistry in these mice at a very young, presymptomatic age, overview	Homo sapiens	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	the enzyme prevents the inhibition of human CYP3A4, UGT1A6, and P-glycoprotein with halogenated xanthene food dyes, overview	Rattus norvegicus	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	the conserved, active-site residue Tyr34 mediates product inhibition	Homo sapiens	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Kluyveromyces marxianus L3	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Bacillus cereus 905	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	isozyme MnSOD2, encoded by sodA-2, plays a more important role in antioxidative stress compared to MnSOD1, overview	Bacillus cereus 905	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	isozyme MnSOD1, the product of sodA-1 gene, is expressed at lower level compared to MnSOD2, overview	Bacillus cereus 905	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Rhodothermus sp. XMH10	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Burkholderia cenocepacia K56-2	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	periplasmic Cu,ZnSOD protects the bacterium from exogenously generated O2.- and contributes to intracellular survival of the bacterium in macrophages	Burkholderia cenocepacia K56-2	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Aspergillus niger 26	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Humicola lutea 103	O2 + H2O2	-	?	394936	
1.15.1.1	O2.- + H+	-	Methylobacillus sp. SK1 / DSM 8269	O2 + H2O2	-	?	394936	
1.15.1.1	pyrogallol + ?	-	Cordyceps militaris	?	-	?	289130	
1.15.1.1	pyrogallol + ?	enzyme inhibits the autooxidation of pyrogallol	uncultured bacterium	?	-	?	289130	
1.15.1.1	pyrogallol + ?	enzyme inhibits the autooxidation of pyrogallol	Cordyceps militaris	?	-	?	289130	
1.15.1.1	riboflavin + ?	-	Solanum lycopersicum	?	-	?	377605	
1.15.1.1	riboflavin + ?	-	Psidium guajava	?	-	?	377605