EC Number |
Activating Compound |
Reference |
---|
1.11.1.5 | more |
CcP requires reductive activation for full activity |
724366 |
1.11.1.5 | FNR protein |
expression of cytochrome c peroxidase is dependent on the combination of FNR protein and OxyR protein under conditions of oxygen starvation |
688857 |
1.11.1.5 | OxyR protein |
expression of cytochrome c peroxidase is dependent on the combination of FNR protein and OxyR protein under conditions of oxygen starvation |
688857 |
1.11.1.5 | H2O2 |
high-dose treatments with 50 mM H2O2 lead to an early increase in total CCP enzymatic activity, indicative of post-transcriptional regulation |
689117 |
1.11.1.5 | more |
model of the activation process based on the structures of the inactive oxidized and active mixed valence enzyme |
677153 |
1.11.1.5 | cardiolipin |
specific activation of enzyme in liposomes. Activation is due to promotion of iron-sulfur (M80) bond breaking and also due to facilitation of H2O2 penetration to the reaction center |
672309 |
1.11.1.5 | cardiolipin |
strict concurrency between iron-sulfur of M80 bond breaking and enzyme activity enhancement at molar ratios of cardiolipin/cytochrome c of 0:1 to 50:1. Cardiolipin is 20times more effective than sodium dodecylsulfate, cardiolipin-activitated activity is reduced by high ionic strength solution, e.g. 1 M KCl |
672308 |
1.11.1.5 | sodium dodecylsulfate |
strict concurrency between iron-sulfur of M80 bond breaking and enzyme activity enhancement at molar ratios of sodium dodecylsulfate/cytochrome c of 0:1 to 50:1. Cardiolipin is 20times more effective than sodium dodecylsulfate |
672308 |