Characteristics of the H2 oxidizing system in soybean nodule bacteroids

A derivative of Rhizobium japonicum (strain 122 DES) has been isolated which forms nodules on soybeans that evolve little or no H₂ in air and efficiently fixes N₂. Bacteroids isolated from nodules formed by strain 122 DES took up H₂ with O₂ as the physiological acceptor and appeared to be typical of those R. japonicum strains that possess the H₂ uptake system. The hydrogenase system in soybean nodules is located within the bacteroids and activity in macerated bacteroids is concentrated in a particulate fraction. The pH optimum for the reaction is near 8.0 and apparent K _m values for H₂ and O₂ are 2 M and 1 M, respectively. The H₂ oxidizing activity of a suspension of 122 DES bacteroids was stable at 4°C for at least 4 weeks and was not particularly sensitive to O₂. Neither C₂H₂ nor CO inhibited O₂ dependent H₂ uptake activity.Non-physiological electron acceptors of positive oxidation reduction potential also supported H₂ uptake by bacteroids. The rate of H₂ uptake with phenazine methosulfate as the acceptor was greater than that with O₂. When methylene blue, triphenyltetrazolium, potassium ferricyanide or dichlorophenolindophenol were added to bacteriod suspensions, without preincubation, rates of H₂ uptake were supported that were lower than those in the presence of O₂. Preincubation of the bacteroids with acceptors increased the rates of H₂ uptake. No H₂ evolution was observed from reaction mixtures containing bacteroid suspensions and reduced methyl or benzyl viologens. Of a series of carbon substrates added to bacteroid suspensions only acetate, formate or succinate at concentrations of 50 mM resulted in 20% or greater inhibition of H₂ oxidation.The H₂ uptake capacity of isolated 122 DES bacteroids (expressed on a dry bacteroid basis) was at least 10-fold higher than the rate of the nitrogenase reaction in nodules expressed on a comparable basis. Since about 1 mol of H₂ is evolved for every mol of N₂ reduced during the N₂ fixation reaction, these observations explain why soybean nodules formed by strain 122 DES and other strains with high H₂ uptake activities have a capacity for recycling all the H₂ produced from the nitrogenase reaction.Abbreviations PMS PHenazine methosulfate - MB Methylene blue