Evidence for a glutamine synthetase-chromatophore association in the phototroph Rhodospirillum rubrum: purification, properties, and regulation of the enzyme.

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The characteristics of soluble and membrane-bound glutamine synthetase (GS) from Rhodospirillum rubrum were compared with those of the enzyme located in situ (measured in detergent-treated cells). The results suggest that in vivo GS may be associated with, or bound to, the chromatophore membranes. GS was found to reversibly associate and dissociate from purified chromatophores as a function of the ionic strength of the buffer or the Mg2+ concentration. Solubilized GS was purified to homogeneity and found to be similar to the GS of enteric bacteria in that its molecular weight was about 600,000 and it had one type of subunit of 51,000 molecular weight. Removal of GS from the membrane had no effect on the Km values for the substrates of the biosynthetic reaction, but it did have a substantial effect on both its Mg2+ requirement (the Km increased 10-fold) and the sensitivity of the gamma-glutamyl transferase reaction to the inhibitor methionine sulfoximine (the I0.5 decreased from 1,500 to 60 microM). Both observations suggest that the active site of GS is influenced by its association with the membrane. GS activity was shown to respond to NH4+, phosphodiesterase, Mg2+, and adenylylation cofactors in a manner identical to that of the GS of the coliform bacteria, suggesting that the former may also respond to adenylylation and deadenylylation. Finally, R. rubrum GS was also inhibited by NH4+ by a newly observed, as yet undefined, system.

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