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	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	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	additional information	CcP requires reductive activation for full activity	724366	
1.11.1.5	additional information	model of the activation process based on the structures of the inactive oxidized and active mixed valence enzyme	677153	
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	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