1.5.8.2	diethylmethylamine + H2O + electron acceptor	slow substrate, triphasic reaction kinetic	
1.5.8.2	additional information	versatile metabolic pathways for the degradation of trimethylamine, phylogenetic analysis of the Paracoccus strains	
1.5.8.2	trimethylamine + H2O + electron acceptor	-	
1.5.8.2	trimethylamine + H2O + electron acceptor	electron acceptors: phenazine methosulfate, brilliant cresyl blue, methylene blue	
1.5.8.2	trimethylamine + H2O + electron acceptor	ping-ping reaction mechanism	
1.5.8.2	trimethylamine + H2O + electron transferring flavoprotein	-	
1.5.8.2	trimethylamine + H2O + electron transferring flavoprotein	reducing equivalents transferred to electron transferring flavoprotein through the 4Fe-4S-center of trimethylamine dehydrogenase, not rate limiting during steady-state turnover	
1.5.8.2	trimethylamine + H2O + electron transferring flavoprotein	a series of conformational changes occur during assembly of the enzyme-electron transferring flavoprotein complex and electron transfer	
1.5.8.2	trimethylamine + H2O + electron transferring flavoprotein	transfer of electrons to electron acceptors is mediated through the 4Fe-4S cluster	
1.5.8.2	trimethylamine + H2O + electron transferring flavoprotein	physiological electron acceptor, biphasic reaction kinetic	
1.5.8.2	trimethylamine + H2O + electron-transfer flavoprotein	-	
1.5.8.2	trimethylamine + H2O + FMN	-