Add to ORKGRhizobium japonicum grown anaerobically with nitrate produced several factors capable of transferring electrons from spinach chloroplasts lacking photosystem II to soybean root nodule nitrogenase. The same organism grown aerobically produced no factors with detectable activity. It is concluded that the bacterium is potentially capable of producing these proteins in the low oxygen conditions of the leguminous root nodule
Biological nitrogen fixation is widespread among the Eubacteria and Archae domains but completely ab...
Nitrate or ammonium was added to soybean (Glycine max L. Merrill cv Corsoy) plants grown in plastic ...
The activity of nitrate reductase in Rhizobium japonicum is controlled by oxygen tension, and not by...
Rhizobium japonicum grown anaerobically with nitrate produced several factors capable of transferrin...
Biological dinitrogen fixation by Rhizobium spp. in the root nodules of leguminous plants such as so...
Biological nitrogen fixation is widespread among the Eubacteria and Archae domains but completely ab...
The product of nitrate respiration in Rhizobium japonicum and a number of other rhizobia capable of ...
Bacteroids isolated from nodules produced by one strain of Rhizobium japonicum (CC705) had strong ni...
The synthesis, activity and breakdown of the denitrifying enzymes of Rhizobium japonicum, R. lupini ...
Cultures of Rhizobium sp. strain 3 2 ~ 1 grown in a layer of soft agar on top of a layer of harder a...
The genera Allorhizobium, Azorhizobium, Bradyrhizobium, Mesorhizobium, Rhizobium and Sinorhizobium, ...
It is becoming recognized that leghaemoglobin constitutes an important buffer for the cytotoxic nitr...
Biological Nitrogen Fixation (BNF) process benefits the agriculture sector especially for reducing c...
A model system developed to produce N2O emissions from degrading soybean nodules in the laboratory w...
Biological nitrogen fixation is widespread among the Eubacteria and Archae domains but completely ab...
Biological nitrogen fixation is widespread among the Eubacteria and Archae domains but completely ab...
Nitrate or ammonium was added to soybean (Glycine max L. Merrill cv Corsoy) plants grown in plastic ...
The activity of nitrate reductase in Rhizobium japonicum is controlled by oxygen tension, and not by...
Rhizobium japonicum grown anaerobically with nitrate produced several factors capable of transferrin...
Biological dinitrogen fixation by Rhizobium spp. in the root nodules of leguminous plants such as so...
Biological nitrogen fixation is widespread among the Eubacteria and Archae domains but completely ab...
The product of nitrate respiration in Rhizobium japonicum and a number of other rhizobia capable of ...
Bacteroids isolated from nodules produced by one strain of Rhizobium japonicum (CC705) had strong ni...
The synthesis, activity and breakdown of the denitrifying enzymes of Rhizobium japonicum, R. lupini ...
Cultures of Rhizobium sp. strain 3 2 ~ 1 grown in a layer of soft agar on top of a layer of harder a...
The genera Allorhizobium, Azorhizobium, Bradyrhizobium, Mesorhizobium, Rhizobium and Sinorhizobium, ...
It is becoming recognized that leghaemoglobin constitutes an important buffer for the cytotoxic nitr...
Biological Nitrogen Fixation (BNF) process benefits the agriculture sector especially for reducing c...
A model system developed to produce N2O emissions from degrading soybean nodules in the laboratory w...
Biological nitrogen fixation is widespread among the Eubacteria and Archae domains but completely ab...
Biological nitrogen fixation is widespread among the Eubacteria and Archae domains but completely ab...
Nitrate or ammonium was added to soybean (Glycine max L. Merrill cv Corsoy) plants grown in plastic ...
The activity of nitrate reductase in Rhizobium japonicum is controlled by oxygen tension, and not by...