1.18.6.2	12 reduced ferredoxin + 12 H+ + N2 + 40 ATP + 40 H2O	-	Azotobacter vinelandii	12 oxidized ferredoxin + 3 H2 + 2 NH3 + 40 ADP + 40 phosphate	-	442134	
1.18.6.2	12 reduced ferredoxin + 12 H+ + N2 + 40 ATP + 40 H2O	-	Azotobacter chroococcum	12 oxidized ferredoxin + 3 H2 + 2 NH3 + 40 ADP + 40 phosphate	-	442134	
1.18.6.2	12 reduced ferredoxin + 12 H+ + N2 + 40 ATP + 40 H2O	-	Azotobacter chroococcum MCD1	12 oxidized ferredoxin + 3 H2 + 2 NH3 + 40 ADP + 40 phosphate	-	442134	
1.18.6.2	acetylene + H2 + ?	-	Azotobacter vinelandii	ethylene + ?	-	443012	
1.18.6.2	CO + ATP + dithionite + ?	-	Azotobacter vinelandii	ethene + ethane + propane + ?	-	443384	
1.18.6.2	CO + H+ + ATP	-	Azotobacter vinelandii	C2H4 + C2H6 + C3H8 + H2O + H2 + phosphate	-	443385	
1.18.6.2	additional information	the efficiency of ATP hydrolysis coupled to substrate reduction (ATP/2e ratio) is 4.87 at 30°C during the reduction of protons to H2 and 7.16 during the reduction of N2	Azotobacter chroococcum	?	-	89	
1.18.6.2	additional information	enzym also forms ethane continuously at a rate of 2.1% of that of ethylene	Anabaena azotica	?	-	89	
1.18.6.2	additional information	enzym also forms ethane continuously at a rate of 2.1% of that of ethylene	Anabaena azotica FACHB-118	?	-	89	
1.18.6.2	additional information	the efficiency of ATP hydrolysis coupled to substrate reduction (ATP/2e ratio) is 4.87 at 30°C during the reduction of protons to H2 and 7.16 during the reduction of N2	Azotobacter chroococcum MCD1	?	-	89