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Metabolism of Glycollate by Lemna minor L. Grown on Nitrate or Ammonium as Nitrogen Source
Authors:MARQUES, I. A.   OBERHOLZER, M. J.   ERISMANN, K. H.
Abstract:Marques, I. A., Oberholzer, M. J. and Erismann, K. H. 1985.Metabolism of glycollate by Lemna minor L. grown on nitrateor ammonium as nitrogen source.—J. exp. Bot. 36: 1685–1697. Duckweed, Lemna minor L., grown on inorganic nutrient solutionscontaining either NH4+ or NO3– as nitrogen source wasallowed to assimilate [1-14C]- or [2-14C]glycollate during a20 min period in darkness or in light. The incorporation ofradioactivity into water-soluble metabolites, the insolublefraction, and into the CO2 released was measured. In additionthe extractable activity of phosphoenolpyruvate carboxylasewas determined. During the metabolism of [2-14C]glycollate in darkness, as wellas in the light, NH4+ grown plants evolved more 14CO2 than NO3–grown plants. Formate was labelled only from [2-14C]glycollateand in NH4+ grown plants it was significantly less labelledin light than in darkness. In NO3– grown plants formateshowed similar radioactivity after dark and light labelling.The radioactivity in glycine was little influenced by the nitrogensource. Amounts of radioactivity in serine implied that thefurther metabolism of serine was reduced in darkness comparedwith its metabolism in the light under both nitrogen regimes.In illuminated NH4+ plants, serine was labelled through a pathwaystarting from phosphoglycerate. After [1-14C]glycollate feedingNH4+ grown plants contained markedly more radioactive aspartateand malate than NO3– plants indicating a stimulated phosphoenolpyruvatecarboxylation in plants grown on NH4+. Key words: Photorespiration, glycollate, nitrogen, Lemna
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