SE144:/S1

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Sample Set Information

ID SE144
Title Metabolomics data reveal a crucial role of cytosolic glutamine synthetase 1;1 in coordinating metabolic balance in rice.
Description Rice plants grown in paddy fields preferentially use ammonium as a source of inorganic nitrogen. Glutamine synthetase (GS) catalyses the conversion of ammonium to glutamine. Of the three genes encoding cytosolic GS in rice, OsGS1;1 is critical for normal growth and grain filling. However, the basis of its physiological function that may alter the rate of nitrogen assimilation and carbon metabolism within the context of metabolic networks remains unclear. To address this issue, we carried out quantitative comparative analyses between the metabolite profiles of a rice mutant lacking OsGS1;1 and its background wild type (WT). The mutant plants exhibited severe retardation of shoot growth in the presence of ammonium compared with the WT. Overaccumulation of free ammonium in the leaf sheath and roots of the mutant indicated the importance of OsGS1;1 for ammonium assimilation in both organs. The metabolite profiles of the mutant line revealed: (i) an imbalance in levels of sugars, amino acids and metabolites in the tricarboxylic acid cycle, and (ii) overaccumulation of secondary metabolites, particularly in the roots under a continuous supply of ammonium. Metabolite-to-metabolite correlation analysis revealed the presence of mutant-specific networks between tryptamine and other primary metabolites in the roots. These results demonstrated a crucial function of OsGS1;1 in coordinating the global metabolic network in rice plants grown using ammonium as the nitrogen source.
Authors Kusano M, Tabuchi M, Fukushima A, Funayama K, Diaz C, Kobayashi M, Hayashi N, Tsuchiya YN, Takahashi H, Kamata A, Yamaya T, Saito K.
Reference Plant J. 2011 May;66(3):456-66.
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Sample Information

ID S1
Title Oryza sativa L. ‘Nipponbare’
Organism - Scientific Name Oryza sativa
Organism - ID NCBI taxonomy:4530
Compound - ID
Compound - Source
Preparation We used the rice variety Oryza sativa L. ‘Nipponbare’. Homozygous lines of OsGS1;1 knockout mutants were generated by inserting the endogenous retrotransposon Tos17 (Hirochika, 2001) into the OsGS1;1 gene. We selected the NC2373 and ND8037 lines, which carried a Tos17 insertion only in the OsGS1;1 open reading frame (Tabuchi et al., 2005). The knockout lines exhibited very low fertility and inhibited grain filling; therefore, heterozygous seeds were used to obtain homozygous plants. Wild type and two independent heterozygous lines were grown as described previously (Yamaya et al.,1995). Briefly, in May 2010, July 2008 and September 2005 and 2008,WT and heterozygous seeds were soaked in water (Dataset S1) at 30°C for 36–48 h under dark conditions and the germinated seeds were transferred to a nylon net that floated on culture medium in a plastic container. When the endosperm had been fully utilised,seedlings were transferred to different nutrition conditions to measure different N availabilities. The WT and heterozygous plants were cultivated in a greenhouse with the following conditions for metabotyping in June (14 h of light at 26°C and 10 h of darkness at 23°C; without controlling humidity; light strength, 810 μmol m-2 sec-1), while we used another greenhouse for other experiments (12 h of light at 30°C and 12 h of darkness at 25°C; without control humidity). To identify homozygous mutants, the second LB of each plant was harvested for PCR analysis.
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