1.11.1.1 ferricyanide + H2O2 - Enterococcus faecalis ferrocyanide + H2O - ? 260696 1.11.1.1 ferricyanide + H2O2 - Lacticaseibacillus casei ferrocyanide + H2O - ? 260696 1.11.1.1 additional information NADH cannot be replaced by NADPH Enterococcus faecalis ? - ? 89 1.11.1.1 additional information H2O2 cannot be replaced by methylene blue, indophenol, or benzoquinone Lacticaseibacillus casei ? - ? 89 1.11.1.1 additional information NADH cannot be replaced by reduced cytochrome c, H2O2 cannot be replaced by Cu2+, Fe3+, SeO32+, NO3-, NO2-, oxidized glutathione, cystine, lipoic acid disulfide, dehydroascorbic acid, cytochrome c, FAD, flavin mononucleotide, riboflavin, 2,6-dichlorophenolindophenol, methylene blue, brilliant cresyl blue Enterococcus faecalis ? - ? 89 1.11.1.1 additional information Npr is absolutely required for aerobic growth on glycerol and optimal growth on the other substrates Enterococcus faecalis ? - ? 89 1.11.1.1 NAD+ + H2O - Hordeum vulgare NADH + H2O2 - ? 375190 1.11.1.1 NAD+ + H2O - Oryza sativa NADH + H2O2 - ? 375190 1.11.1.1 NAD+ + H2O it is suggested, that NADH-POD acts in early signalling of oxidative stress through producing H2O2 Hordeum vulgare NADH + H2O2 - ? 375190 1.11.1.1 NADH + H+ + H2O2 - Clostridium acetobutylicum NAD+ + H2O - ? 374001