Elicitor-Inducible Caffeoyl-Coenzyme A 3-O-Methyltransferase from Petroselinum crispum Cell Suspensions : Purification, Partial Sequence, and Antigenicity

Physiological regulation of nodule gas permeability has a central role in the response of legumes to such diverse factors as drought, defoliation, and soil nitrate. A new method for quantifying nodule respiration and O₂ permeability, based on noninvasive spectrophotometry of leghemoglobin, was evaluated using intact, attached nodules of Lotus corniculatus. First, the relationship between nodule respiration (O₂ consumption) rate and internal O₂ concentration was determined from the rate of decrease in fractional oxygenation of leghemoglobin (FOL) under N₂. The rate of increase of FOL under 100% O₂ was then used to calculate nodule O₂ permeability, after correcting for respiration. Inactivation of nitrogenase by exposure to 100% O₂ for 15 minutes led to decreases in both permeability and O₂-saturated respiration (V_max), but the brief (<15 seconds) exposures to 100% O₂ required by the assay itself had little effect on either parameter. A gradual increase in external O₂ concentration from 20 to 40% resulted in a reversible decrease in permeability, but no change in V_max. The new method is likely to be useful for research on nodule physiology and might also be applicable to agronomic research and crop improvement programs.