Studies on nitrate reductase from Cyanidium caldarium

Summary A nitrate reductase from the thermophilic acidophilic alga, Cyanidium caldarium, was studied. The enzyme utilises the reduced forms of benzyl viologen and flavins as well as both NADPH₂ and NADH₂ as electron donors to reduce nitrate.Heat treatment has an activating effect on the benzyl viologen (FMNH₂, FADH₂) nitrate reductase. At 50°C the activation of the enzyme is complete in about 20 min of exposure, whereas at higher temperatures (until 75°C) it is virtually an instantaneous phenomenon. The observed increase in activity is very low in extracts from potassium nitrate grown cells, whereas it is 5 or more fold in extracts from ammonium sulphate supplied cells. The benzyl viologen nitrate reductase is stable at 60°C and is destroyed at 75°C after 3 min; the NADPH₂ nitrate reductase is destroyed at 60°C. The pH optimum for both activities was found in the range 7.8–8.2.Ammonium nitrate grown cells possess a very low level of nitrate reductase: when they are transferred to a nitrate medium a rapid synthesis of enzyme occurs. By contrast, when cells with fully induced activity are supplied with ammonia, a rapid loss of NADPH₂ and benzyl viologen nitrate reductase occurs; however, activity measured with heated extracts shows that the true level of benzyl viologen nitrate reductase is as high as before ammonium addition. It is suggested that the presence of ammonia causes a rapid inactivation but no degradation of the enzyme.Cycloheximide inhibits the formation of the enzyme; the drug is without effect on the loss of nitrate reductase activity induced by ammonium. The nitrate reductase is reactivated in vivo by the removal of the ammonium, in the absence as well as in the presence of cycloheximide.