The regulation of nodulation, nitrogen fixation and ammonium assimilation under a carbohydrate shortage stress in the Discaria trinervis-Frankia symbiosis

N2-fixation is sensitive to limitation in the availability of newly synthesised carbohydrates for the nodules. We decided to explore the response of the D. trinervis - Frankia symbiosis to a transient decrease in carbohydrate supply to nodules. Feedback inhibition of nodulation as well as nodule growth was not released by a 6-day dark stress in D. trinervis nodulated plants. However, nitrogen fixation and assimilation were affected by the imposed stress. Nitrogenase activity was totally inhibited after 4 days of darkness although high levels of nitrogenase components were still detected at this time. Degradation of FeMo and Fe nitrogenase subunits – both at similar rates – was observed after 6 days of dark stress, revealing the need for inactivation to precede enhancement of protein turnover. Glutamine synthetase (GS), malate dehydrogenase (MDH) and asparagine synthetase (AS) polypeptides were also degraded during the dark stress, although at a lower rate than nitrogenase. ARA and nitrogenase were totally recovered 8 days after resuming normal illumination. It seems that current nitrogenase activity and ammonium assimilation are not, or are only weakly linked with the feedback control of nodulation in D. trinervis. These observations give support to the persistence of an autoregulatory signal in mature nodules that is not sensitive to transient shortages of carbon supply and sustains the inhibition of nodulation in the transient absence of N2 fixation.