NITRATE REDUCTASE IN PHOTOSYNTHETIC BACTERIUM, RHODOSPIRILLUM RUBRUM. PURIFICATION AND PROPERTIES OF NITRATE REDUCTASE IN NITRATE-ADAPTED CELLS

1. From nitrate-adapted cells of Rhodospirillum rubrum, an activepreparation of nitrate reducing enzyme was isolated in partiallypurified state. The enzyme was found to be localized in thechromatophores of the cell and, on sonication, readily releasedinto the upernatant fraction. The purified enzyme, catalyzingthe electron transfer between DPNH and nitrate, contained ab-type cytochrome, flavin and non-heme iron, which was removedon dialysis in the presence of cyanide. Besides DPNH, only methylviologen(reduced form) was effective as electron donor. 2. The effects of pH and the addition of various activatorsand inhibitors on the rate of nitrate reduction were investigated,using DPNH or reduced methylviologen as the electron donor.The oxidation-reduction of the flavin and the heme in the enzymewas followed spectrophotometrically. A pathway of electron inthe nitrate reduction through this enzyme was proposed. 3. The nitrate reductase of this bacterium was compared withother nitrate reductases obtained from other sources, and themetabolic roles of this enzyme were discussed. In the nitrate-adaptedcells of Rsp. rubrum, only one and the same enzyme was obtainedunder different growth conditions of nitrate assimilation (i.e., nitrate as N-source; light as energy source) and nitrate-respiration(i. e., in the dark; nitrate as hydrogen acceptor and N-source). ¹ Dedicated to Prof. H. TAMIYA on the occasion of his 60th birthday.This paper was submitted to the University of Tokyo to fulfillthe requirement for the author's doctorate. ² Present address; Botanical Institute, Kyoto University. (Received December 14, 1962; )     

NITRATE REDUCTASE IN PHOTOSYNTHETIC BACTERIUM, RHODOSPIRILLUM RUBRUM. ADAPTIVE FORMATION OF NITRATE REDUCTASE

1. A method was discovered for adapting the cells of Rhodospirillumrubrum to grow on a nitrate medium, a capacity initially lackingin the organism. The adapted cells were able to grow with nitrateas the sole source of nitrogen. The growth responses of theadapted cells towards various nitrogenous sources were investigatedunder various conditions of incubation (aero- and anaerobiosis,light and dark).
2. The adapted cells were found to have simultaneouslyacquiredthe capacity for reducing nitrite and hydroxylamineas wellas nitrate. The path of nitrogen in the adapted cellswas assumedto be as follows: NO₃^– NO₂^– NH₂OH CellularNitrogen.
3. Nitrate metabolism of the adapted cells was investigatedundervarious conditions. In the light, nitrate was reducedand furtherassimilated, leaving insignificant amounts of nitritein themedium. In this case, consumption of nitrate was markedlyinhibitedby other forms of nitrogen (e.g., nitrite, hydroxylamine,aminoacids and ammonium salts). In the dark, nitrate was reducedas the terminal hydrogen acceptor in the oxidative breakdownof organic substances (e.g., malate) in the medium (i.e., nitraterespiration). More nitrite was accumulated in this case thanin the light. Molecular oxygen inhibited the reduction of, aswell as the growth on, nitrate in any of the above cases.
4. Theeffects on the rate of nitrate reduction (and respiratoryoxygenuptake) caused by various experimental factors (pH, nitrateconcentration, electron donors, and addition of hydroxylamine)were investigated, using the resting cells of the adapted organism.

¹ This paper was submitted to the University of Tokyo to fulfillthe requirement for the author's doctorate. ² Present Address: Botanical Institute, Kyoto University, Sakyo-ku,Kyoto. (Received February 14, 1963; )