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plant, google, scholar, article, proline, stress, accumulation, leaves, pubmed, physiol, regulation, nitrogen, plants, amino, glutamate, lotus, drought, role, growth, corniculatus, light, díaz, márquez, acids, nitrate, water, content, induced, nfp, protein, ornithine, acid, barley, sci, privacy, cookies, borsani, monza, afp, activity, synthase, cell, publish, search, osmotically, synthesis, access, rice, molecular, arabidopsis,

Topics {✒️}

ornithine-δ-aminotrasnferase cdna increased gama-aminobutyric acid month download article/chapter stress-induced growth reduction ferredoxin-dependent glutamate synthase ammonium-induced proline accumulation aba-induced proline accumulation ornithine-δ-aminotransferase stress-induced proline accumulation plant development aust plant physiology molecular genetics plant water-stressed barley leaves protein-dye binding anal water stress responses ferredoxin glutamate synthase ferredoxin-glutamate synthase plant nutrition crit ammonium-fed plants osmotically stressed leaves molecular responses leaves plant physiol plant amino acids privacy choices/manage cookies proline accumulation induced salicylic acid commun nitrate-fed plant related subjects arabidopsis plant mol full article pdf article  google scholar specific amino acids facultad de agronomía facultad de química ornithine aminotransferase nitrate reductase activity higher plants phsyiol photosynthetic activity responsible light induced enhancement nitrogen metabolism induced lotus corniculatus leaves nitrate fed plants water stress generates abiotic stress resistance proline accumulation play proline accumulation caused predominant amino acids plant sci brassica napus physiol universidad de sevilla

Questions {❓}

• Bressan (2002) Does proline accumulation play an active role in stress-induced growth reduction?
• Pesci (1996) Is photosynthetic activity responsible for the stimulating effect of light on ABA-induced proline accumulation in barley leaves?

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         headline:Osmotically Induced Proline Accumulation in Lotus Corniculatus Leaves is Affected by Light and Nitrogen Source
         description:Proline accumulation in osmotically stressed leaves of Lotus corniculatus was stimulated by increasing light intensity (photon fluence density, PFD). Treatment with propanil limited proline accumulation in response to light and osmotic stress, indicating a dependence of proline synthesis on photosynthetic NADPH. Drought stress induced proline accumulation in L. corniculatus both in nitrate-fed plant (NFP) and ammonium-fed plants (AFP), although higher proline concentration was observed in AFP than in NFP after 24 h of drought stress. Changes in proline accumulation induced by drought stress in plants grown under different nitrogen regimes could not be explained by changes of either total protein or amino acids, consistent with specifically altered regulation of proline synthesis. Under control conditions, alanine, aspartate and glutamate were the predominant amino acids in NFP; conversely, in AFP, arginine and ornithine were the predominant amino acids. Only the NFP regime showed changes in the concentrations of specific amino acids under drought stress a decrease in alanine, aspartate and glutamate and increased gama-aminobutyric acid. In AFP and especially NFP, proline accumulation under osmotic stress was associated with increased ornithine amino transferase activity. An increase of both activity and protein of ferredoxin-dependent glutamate synthase was observed in osmotic-stressed NFP; inversely both decreased in drought-stressed AFP. PFD and nitrogen source are therefore shown to be regulators of proline accumulation in L. corniculatus osmotically stressed plants.
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      headline:Osmotically Induced Proline Accumulation in Lotus Corniculatus Leaves is Affected by Light and Nitrogen Source
      description:Proline accumulation in osmotically stressed leaves of Lotus corniculatus was stimulated by increasing light intensity (photon fluence density, PFD). Treatment with propanil limited proline accumulation in response to light and osmotic stress, indicating a dependence of proline synthesis on photosynthetic NADPH. Drought stress induced proline accumulation in L. corniculatus both in nitrate-fed plant (NFP) and ammonium-fed plants (AFP), although higher proline concentration was observed in AFP than in NFP after 24 h of drought stress. Changes in proline accumulation induced by drought stress in plants grown under different nitrogen regimes could not be explained by changes of either total protein or amino acids, consistent with specifically altered regulation of proline synthesis. Under control conditions, alanine, aspartate and glutamate were the predominant amino acids in NFP; conversely, in AFP, arginine and ornithine were the predominant amino acids. Only the NFP regime showed changes in the concentrations of specific amino acids under drought stress a decrease in alanine, aspartate and glutamate and increased gama-aminobutyric acid. In AFP and especially NFP, proline accumulation under osmotic stress was associated with increased ornithine amino transferase activity. An increase of both activity and protein of ferredoxin-dependent glutamate synthase was observed in osmotic-stressed NFP; inversely both decreased in drought-stressed AFP. PFD and nitrogen source are therefore shown to be regulators of proline accumulation in L. corniculatus osmotically stressed plants.
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