Sulphate fertilization ameliorates long-term aluminum toxicity symptoms in perennial ryegrass (Lolium perenne)

Effects of the oxanion sulphate on plant aluminum (Al3+) detoxification mechanisms are not well understood. Therefore, holistic physiological and biochemical modifications induced by progressively increased doses of sulphate fertilization in the presence of long-term Al3+ stress were investigated in...

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Published in:Plant physiology and biochemistry 2014-10, Vol.83, p.88-99
Main Authors: Wulff-Zottele, Cristian, Hesse, Holger, Fisahn, Joachim, Bromke, Mariusz, Vera-Villalobos, Hernán, Li, Yan, Frenzel, Falko, Giavalisco, Patrick, Ribera-Fonseca, Alejandra, Zunino, Ligia, Caruso, Immcolata, Stohmann, Evelyn, Mora, Maria de la Luz
Format: Article
Language:English
Subjects:
Aluminum
Aluminum - toxicity
Biological and medical sciences
Cysteine - metabolism
Fertilizers
Fundamental and applied biological sciences. Psychology
Glutathione
Glutathione - metabolism
LC-MS/MS
Perennial ryegrass (Lolium perenne L.)
Plant physiology and development
Poaceae - drug effects
Poaceae - metabolism
Poaceae - physiology
Sulfates - administration & dosage
Sulphur
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Summary:Effects of the oxanion sulphate on plant aluminum (Al3+) detoxification mechanisms are not well understood. Therefore, holistic physiological and biochemical modifications induced by progressively increased doses of sulphate fertilization in the presence of long-term Al3+ stress were investigated in the aluminum sensitive perennial ryegrass (Lolium perenne L. cvJumbo). Plant growth inhibition induced by Al3+ was decreased in response to increasing doses of sulphate supply. Aluminum concentrations measured in roots of perennial ryegrass by atomic absorption spectrometry declined significantly with increasing sulphate concentrations. In parallel, we determined a rise of sulphur in shoots and roots of perennial ryegrass. Inclusion of up to 360 μM of sulphate enhanced cysteine and glutathione biosynthesis in Al3+ (1.07 μM) treated plants. This increase of thiol-containing compounds favored all modifications in the glutathione redox balance, declining lipid peroxidation, decreasing the activity of superoxide dismutase, and modifying the expression of proteins involved in the diminution of Al3+ toxicity in roots. In particular, proteome analysis by 1D-SDS-PAGE and LC-MS/MS allowed to identify up (e.g. vacuolar proton ATPase, proteosome β subunit, etc) and down (Glyoxilase I, Ascorbate peroxidase, etc.) regulated proteins induced by Al3+ toxicity symptoms in roots. Although, sulphate supply up to 480 μM caused a reduction in Al3+ toxicity symptoms, it was not as efficient as compared to 360 μM sulphate fertilization. These results suggest that sulphate fertilization ameliorates Al3+ toxicity responses in an intracellular specific manner within Lolium perenne. •Effects of S supply on plant Al detoxification responses are not well understood.•Plant growth inhibition induced by Al decreased at increasing doses of S supply.•The relations of S metabolism with Al toxicity were assed at biochemical level.•Adequate S supply modified the expression of proteins involved in Al detoxification.•Metabolism of S play a functional role in the adaptation to Al toxicity in ryegrass.
ISSN:0981-9428
1873-2690
DOI:10.1016/j.plaphy.2014.07.017