1.1.2.7	a primary alcohol + 2 ferricytochrome cL	-	
1.1.2.7	methanol + 2 cytochrome cL	-	
1.1.2.7	methanol + 2 ferricytochrome cL	-	
1.1.2.7	methanol + 2 ferricytochrome cL	cytochrome c is the natural electron acceptor	
1.1.2.7	methanol + 2 ferricytochrome cL	cytochrome c is the natural electron acceptor. Paracoccus denitrificans contains constitutive cytochrome cL, but synthesis of cytochromes c551i and c553i is induced while growing on methanol, structures, overview	
1.1.2.7	methanol + 2 oxidized cytochrome cL	-	
1.1.2.7	methanol + 2 oxidized cytochrome cL	way of electron transfer from methanol to O2, overview	
1.1.2.7	methanol + ferricytochrome cL	-	
1.1.2.7	methanol + ferricytochrome cL	MDH catalyses the first reaction of an unusual periplasmic electron transport chain responsible for oxidation of methanol to formaldehyde in methylotrophic bacteria during growth on methane or methanol	
1.1.2.7	methanol + ferricytochrome cL	periplasmic electron transport chain responsible for oxidation of methanol to formaldehyde in methylotrophic bacteria: methanol, methanol dehydrogenase, cytochrome cL, cytochrome cH, oxidase, oxygen	
1.1.2.7	methanol + ferricytochrome cL	the physiological electron acceptor is cytochrome cL. Cytochrome cL is subsequently oxidized by the small class I c-type cytochrome cH	
1.1.2.7	additional information	methanol dehydrogenase is a key enzyme in utilization of methane and methanol by methylotrophic proteobacteria	
1.1.2.7	additional information	MDH is a soluble periplasmic enzyme, having cytochrome CL as electron acceptor, Ca2+ plays a role in maintaining PQQ in the correct configuration and may also be involved in the catalytic mechanism, overview