1.17.1.9	CO2 + NADH	-	
1.17.1.9	CO2 + NADH	the enzyme exhibits a dramatic preference for the CO2 reduction reaction over the oxidation reaction of formate	
1.17.1.9	formate + NAD+	-	
1.17.1.9	formate + NAD+	enzyme provides NADH for synthesis	
1.17.1.9	formate + NAD+	induced by methanol and formate	
1.17.1.9	formate + NAD+	when Pseudomonas oxalaticus is grown on formate as main carbon and energy source, formate dehydrogenase is the key enzyme that generates NADH and CO	
1.17.1.9	formate + NAD+	last step of methanol oxidation system	
1.17.1.9	formate + NAD+	one of the key enzymes in the assimilation of C1 compounds, such as methanol	
1.17.1.9	formate + NAD+	last enzyme of the dissimilatory pathway of the methanol metabolism	
1.17.1.9	formate + NAD+	the level of formate dehydrogenase is considerably diminished without molybdenum, and in the presence of tungsten the activity was not detected in significant amounts