We are analyzing https://link.springer.com/article/10.1007/s11104-004-0965-1.

Title:
Root Nitrogen Acquisition and Assimilation | Plant and Soil
Description:
Nitrogen (N) is the main mineral element in plant tissues and almost all of this nutrient is acquired from the soil by the roots. Nitrogen is available in many different forms in the soil, but the three most abundant forms are nitrate, ammonium and amino acids. The relative importance of these different soil N pools to a plant is difficult to measure and depends on many different environmental factors. Changes in the available amounts and imbalance in the supply of some N forms can even be toxic to plants and in extreme cases can lead to changes in the vegetation. However, the importance of this element for agriculture is reflected in the amounts of N-fertiliser applied to crops and this is a major cost (economic and environmental) for world agriculture. This review covers the molecular mechanisms that the plant uses for accessing these soil N pools and briefly includes consideration of the root N assimilatory pathways that exist in the plant. The soil forms of N that are used by plants depend on many factors, but a series of different transporter and assimilatory genes that can provide access to these pools have been identified. This information can now provide the molecular tools to identify the N sources accessed by a plant and the relative importance of these different pools.
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Keywords {🔍}

google, scholar, cas, plant, article, pubmed, nitrate, nitrogen, physiol, plants, roots, soil, isi, arabidopsis, root, ammonium, reductase, uptake, cell, expression, regulation, transporter, bot, biol, gene, genes, metabolism, assimilation, barley, exp, planta, transport, amino, growth, activity, leaves, eds, miller, sci, glass, maize, acid, environ, transporters, higher, frommer, reduction, nutrition, carbon, molecular,

Topics {✒️}

month download article/chapter dc%2bd3m%2fpsvaltq%3d%3d 10 suc2/suc3-type sucrose transporter gibberellin-deficient mutants a70 dual-affinity nitrate transporter dc%2bd3mxpsf2nsg%3d%3d 10 dc%2bd3mxpsvggsg%3d%3d 000167007200008 10 dc%2bd3cvgtlcgta%3d%3d 10 dc%2bd38xmvvsksw%3d%3d 10 dc%2bd3cxmvfalsq%3d%3d 10 dc%2bd3cxjtv2qtg%3d%3d 10 dc%2bd3cxpsfymuw%3d%3d 10 dc%2bd3cxpslkjtg%3d%3d 10 abscisic acid-sensitive checkpoint transferring 1-minocyclopropane-1-carboxylic acid dyal2mxitlkitq%3d%3d a1984aer6000012 10 dyal3sxjtfgjug%3d%3d a1982pu60800006 10 dyak3cxhvv2hsg%3d%3d a1989ca65900008 10 dyak2mxpsfojtq%3d%3d a1994ph69700011 10 plant growth oxford high-affinity ammonium transporter arabidopsis t-dna ‘knock article google scholar regulate shoot-root allocation nitrate-related root plasticity plant growth-promoting bacteria high-affinity nitrate transporters n-fertiliser applied slow-growing grass species arbuscular mycorrhizal fungus soil-atmosphere concentration gradient high-affinity nitrate influx distinct fd-gogat genes barley root-cells measured nadh-glutamate synthase gene root-based n2fixing symbioses nadh-dependent glutamate synthase winter-frozen rapeseed leaves high ammonium/nitrate ratios related subjects plant cell environ high affinity transporters ecosystems fems microbiol root cdna encoding dyak1cxmsvshta%3d%3d 000071570800053 10 plants science publishers full article pdf high-affinity urea/ dc%2bd38xkvvajurc%3d 10 dc%2bd3sxkvvektrw%3d 000185078300010 10

Questions {❓}

A Hodge D Robinson A H Fitter (2000) Are microorganisms more effective than plants at competing for nitrogen?
P Tillard L Passama A Gojon (1998) Are phloem amino, acids involved in the shoot to root control of NO- uptake in Ricinus communis plants?
W M Kaiser A Kandlbinder M Stoimenova J Glaab (2000) Discrepancy between nitrate reduction rates in intact leaves and nitrate reductase activity in leaf extracts: What limits nitrate reduction in situ?

Schema {🗺️}

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         description:Nitrogen (N) is the main mineral element in plant tissues and almost all of this nutrient is acquired from the soil by the roots. Nitrogen is available in many different forms in the soil, but the three most abundant forms are nitrate, ammonium and amino acids. The relative importance of these different soil N pools to a plant is difficult to measure and depends on many different environmental factors. Changes in the available amounts and imbalance in the supply of some N forms can even be toxic to plants and in extreme cases can lead to changes in the vegetation. However, the importance of this element for agriculture is reflected in the amounts of N-fertiliser applied to crops and this is a major cost (economic and environmental) for world agriculture. This review covers the molecular mechanisms that the plant uses for accessing these soil N pools and briefly includes consideration of the root N assimilatory pathways that exist in the plant. The soil forms of N that are used by plants depend on many factors, but a series of different transporter and assimilatory genes that can provide access to these pools have been identified. This information can now provide the molecular tools to identify the N sources accessed by a plant and the relative importance of these different pools.
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      headline:Root Nitrogen Acquisition and Assimilation
      description:Nitrogen (N) is the main mineral element in plant tissues and almost all of this nutrient is acquired from the soil by the roots. Nitrogen is available in many different forms in the soil, but the three most abundant forms are nitrate, ammonium and amino acids. The relative importance of these different soil N pools to a plant is difficult to measure and depends on many different environmental factors. Changes in the available amounts and imbalance in the supply of some N forms can even be toxic to plants and in extreme cases can lead to changes in the vegetation. However, the importance of this element for agriculture is reflected in the amounts of N-fertiliser applied to crops and this is a major cost (economic and environmental) for world agriculture. This review covers the molecular mechanisms that the plant uses for accessing these soil N pools and briefly includes consideration of the root N assimilatory pathways that exist in the plant. The soil forms of N that are used by plants depend on many factors, but a series of different transporter and assimilatory genes that can provide access to these pools have been identified. This information can now provide the molecular tools to identify the N sources accessed by a plant and the relative importance of these different pools.
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         fertiliser
         metabolism
         nitrate
         reduction
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         Plant Sciences
         Soil Science & Conservation
         Plant Physiology
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