Translocation of NH4+ in oilseed rape plants in relation to glutamine synthetase isogene expression and activity

Translocation of NH4+ in oilseed rape plants in relation to glutamine synthetase isogene expression and activity

Translocation of NH4+ was studied in relation to the expression of three glutamine synthetase (GS, EC 6.3.1.2) isogenes and total GS activity in roots and leaves of hydroponically grown oilseed rape (Brassica napus). The concentration of NH4+ in the stem xylem sap of NO3−‐fed plants was 0.55–0.70 mM...

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Bibliographic Details
Published in:Physiologia plantarum Vol. 105; no. 3; pp. 469 - 477
Main Authors: Finnemann, J. (Kongelige Veterinaer- og Landbohoejskole, Copenhagen (Denmark)), Schjoerring, J.K
Format: Journal Article
Language:English
Published: Copenhagen Munksgaard International Publishers 01-03-1999
Blackwell
Subjects:
Agronomy. Soil science and plant productions
AMMONIA
AMMONIAC
AMMONIUM CHLORIDE
AMONIACO
Biological and medical sciences
BRASSICA NAPUS
CHLORURE D'AMMONIUM
CLORURO AMONICO
Economic plant physiology
FEUILLE
Fundamental and applied biological sciences. Psychology
GLUTAMATE AMMONIA LIGASE
GLUTAMINA SINTETASA
GLUTAMINE SYNTHETASE
HOJAS
LEAVES
Metabolism
Nitrogen metabolism
Nitrogen metabolism and other ones (excepting carbon metabolism)
NUTRIENT TRANSPORT
Nutrition. Photosynthesis. Respiration. Metabolism
Plant physiology and development
TRANSPORT DES SUBSTANCES NUTRITIVES
TRANSPORTE DE NUTRIENTES
XILEMA
XYLEM
XYLEME
Translocation
Ammonium
Xylem
Carbon-nitrogen ligases
Nutrition
Enzyme
Nitrates
Gene expression
Oil plant(vegetal)
Enzymatic activity
Cruciferae
Ligases
Dicotyledones
Hydroponic cultivation
Angiospermae
Brassica napus
Spermatophyta
Glutamate-ammonia ligase
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Summary:Translocation of NH4+ was studied in relation to the expression of three glutamine synthetase (GS, EC 6.3.1.2) isogenes and total GS activity in roots and leaves of hydroponically grown oilseed rape (Brassica napus). The concentration of NH4+ in the stem xylem sap of NO3−‐fed plants was 0.55–0.70 mM, which was ≈60% higher than that in plants deprived of external nitrogen for 2 days. In NH4+‐fed plants, xylem NH4+ concentrations increased linearly both with time of exposure to NH4+ and with increasing external NH4+ concentration. The maximum xylem NH4+ concentration was 8 mM, corresponding to 11% of the nitrogen translocated in the xylem. In the leaf apoplastic solution, the NH4+ concentration increased from 0.03 mM in N‐deprived plants to 0.20 mM in N‐replete plants. The corresponding values for leaf tissue water were 0.33 and 1.24 mM, respectively. The addition of either NO3− or NH4+ to N‐starved plants induced both cytosolic gs isogene expression and GS activity in the roots. In N‐replete plants, gs isogene expression and GS activity were repressed, probably due to carbon limitations, thereby protecting the roots against the excessive drainage of photosynthates. Repressed gs isogene expression and GS activity under N‐replete conditions caused enhanced NH4+ translocation to the shoots.
Bibliography:F61
1999001207
ark:/67375/WNG-2FW21ML2-J
istex:4BEC204CC895156C5F671EA7C19E5853067FBC72
ArticleID:PPL105311
ISSN:0031-9317
1399-3054
DOI:10.1034/j.1399-3054.1999.105311.x