Abstract

O(2) and host-microsymbiont interactions are key factors affecting the physiology of N(2)-fixing symbioses. To determine the relationship among nitrogenase activity of Frankia-Alnus incana root nodules, O(2) concentration, and short-term N(2) deprivation, intact nodulated roots were exposed to various O(2) pressures (pO(2)) and Ar:O(2) in a continuous flow-through system. Nitrogenase activity (H(2) production) occurred at a maximal rate at 20% O(2). Exposure to short-term N(2) deprivation in Ar:O(2) carried out at either 17%, 21%, or 25% O(2) caused a decline in the nitrogenase activity at 21% and 25% O(2) by 12% and 25%, respectively. At 21% O(2), nitrogenase activity recovered to initial activity within 60 min. The decline rate was correlated with the degree of inhibition of N(2) fixation. Respiration (net CO(2) evolution) decreased in response to the N(2) deprivation at all pO(2) values and did not recover during the time in Ar:O(2). Increasing the pO(2) from 21% to 25% and decreasing the pO(2) from 21% to 17% during the decline further decreased rather than stimulated nitrogenase activity, showing that the decline was not due to O(2) limitation. The decline was possibly due to a temporary disturbance in the supply of reductant to nitrogenase with a partial O(2) inhibition of nitrogenase at 25% O(2). These results are consistent with a fixed O(2) diffusion barrier in A. incana root nodules, and show that A. incana nodules differ from legume nodules in the response of the nitrogenase activity to O(2) and N(2) deprivation.

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