Mechanism of Nitrogenase Inhibition in Soybean Nodules : Pulse-Modulated Spectroscopy Indicates that Nitrogenase Activity Is Limited by O(2)

A novel, pulse-modulated spectroscopic system for measuring fractional leghemoglobin oxygenation and infected cell O₂ concentration (O_i) in intact attached nodules of soybean (Glycine max) is described. The system is noninvasive and uses a pulsed (1000 Hertz) light-emitting diode coupled to an optical fiber to illuminate the nodule with light at 660 nanometer. A second optical fiber receives a portion of the light reflected from the nodule and directs this to a photodiode. A lock-in amplifier measures only the signal from the photodiode which is in phase with the pulsed light from the light-emitting diode, and the voltage output from the amplifier, proportional to reflectance, is used to calculate fractional leghemoglobin oxygenation and the nanomolar concentration of free O₂ in the infected cells of the nodule (O_i). The system was used to show that inhibition of nitrogenase activity in soybean nodules by NO₃⁻ treatment, stem-girdling, continuous darkness, or nodule disturbance is caused by a reduction in O_i and limitation of respiration in support of nitrogenase activity. A plot of nitrogenase activity (measured as peak H₂ evolution in Ar:O₂) versus O_i for the various treatments was consistent with the concept that O_i limits in vivo nitrogenase activity in legume nodules under adverse conditions. The potential for using O_i to estimate nitrogenase activity in laboratory and field-grown legumes is discussed.