Abstract | The role of uptake hydrogenase in providing reducing power to nitrogenase was investigated in Rhizobium leguminosarum bacteroids from nodules of Pisum sativum L. (cv. Homesteader). H₂ increased the rate of C₂H₂ reduction in the absence of added substrates. Malate also increased nitrogenase (C₂H₂) activity while decreasing the effect of H₂. At exogenous malate concentrations above 0.05 mM no effect of H₂ was seen. Malate appeared to be more important as a source of reductant than of ATP. When iodoacetate was used to minimize the contribution of endogenous substrates to nitrogenase activity in an isolate in which H₂ uptake was not coupled to ATP formation, H₂ increased the rate of C₂H₂ reduction by 77%. In the presence of iodoacetate, an ATP-generating system did not enhance C₂H₂ reduction, but when H₂ was also included, the rate of C₂H₂ reduction was increased by 280% over that with the ATP-generating system alone. The data suggest that, under conditions of substrate starvation, the uptake hydrogenase in R. leguminosarum could provide reductant as well as ATP in an isolate in which the H₂ uptake is coupled to ATP formation, to the nitrogenase complex. |
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