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Stimulation of ammonia and 2-oxoglutarate-dependent o(2) evolution in isolated chloroplasts by dicarboxylates and the role of the chloroplast in photorespiratory nitrogen recycling
Authors:Woo K C  Osmond C B
Institution:Department of Environmental Biology, Research School of Biological Sciences, Australian National University, Canberra City, A.C.T. 2601, Australia.
Abstract:Intact chloroplasts isolated from spinach (Spinacia oleracea L.) leaves showed a light-dependent O(2) evolution (5.5 +/- 0.75 micromoles per milligram chlorophyll per hour) when supplied with ammonia and 2-oxoglutarate. This (ammonia, 2-oxoglutarate)-dependent O(2) evolution was stimulated 2- to 4-fold by the dicarboxylates, malate, succinate, fumarate, glutarate, and l-tartarate. Evolution of O(2) in the presence of malate was dependent on the presence of both 2-oxoglutarate and NH(4)Cl; malate with only either 2-oxoglutarate and NH(4)Cl alone did not support O(2) evolution. Furthermore, in the presence of malate, the amount of O(2) evolved was solely dependent on the amount of NH(4)Cl or 2-oxoglutarate added and malate did not affect the ratio of O(2) evolved to NH(4)Cl or 2-oxoglutarate consumed. Studies with inhibitors (2-(3,4-dichlorophenyl)-1,1-dimethyl urea, methionine sulfoximine, and azaserine) indicated that the above activity was directly linked to glutamine synthetase and glutamate synthase activity in the chloroplast and was not caused by the metabolism of malate. The V(max)/2 of (ammonia, 2-oxoglutarate)-dependent O(2) evolution was reached at 32 micromolar NH(4)Cl and 6 millimolar (approximately) 2-oxoglutarate in the absence of malate, and at 22 micromolar NH(4)Cl and 73 micromolar 2-oxoglutarate when malate (3 millimolar) was present.Intact chloroplasts isolated from pea (Pisum sativum) leaves also showed a stimulation of (ammonia, 2-oxoglutarate)-dependent O(2) evolution by malate. However glutamine was required for this activity even though glutamine with only either NH(4)Cl or 2-oxoglutarate did not respond to malate stimulation.The measured rates of (ammonia, 2-oxoglutarate)-dependent O(2) evolution in isolated spinach chloroplasts in the presence of malate were about 19.5 +/- 4.5 micromoles O(2) evolved per milligram chlorophyll per hour. This is adequate to sustain photorespiratory NH(3) recycling and the refixation of NH(3) arising from NO(3) under ambient conditions in the light. The role of the chloroplast in photorespiratory NH(3) recycling and the nature of the associated transport of 2-oxoglutarate into the chloroplast is discussed.
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