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- Malagoli, M., et al. Show all 6 Authors
- Environmental and experimental botany 2012 v.75 pp. 41-51
- Brassica juncea; binding proteins; cysteine; gene expression; gene expression regulation; genes; glutathione; growing media; molybdates; molybdenum; phytoremediation; plant growth; plant tissues; roots; selenium; thiols; toxicity; uptake mechanisms
- ... The interaction of selenate and molybdate with the transport and assimilation of sulfate, and the effect of S on Se and Mo accumulation were investigated in Brassica juncea. Plants were supplied with different combinations of S and Se, or S and Mo for 24h, and selenate and molybdate were given to plants at concentrations (200μM) equal to that of sulfate in the S-sufficient condition. Se and Mo sig ...
- Malagoli, M., et al. Show all 5 Authors
- Journal of experimental botany 2003 v.54 no.384 pp. 1023-1031
- Zea mays; nitrates; nutrient transport; plant physiology; adenosinetriphosphatase; nitrogen; nutrient availability; complementary DNA; nucleotide sequences; roots; leaves; isozymes; messenger RNA; amino acid sequences
- ... Two maize genotypes differently responsive to nitrogen availability were characterized for their efficiency in nitrate accumulation via both the LATS (Low-Affinity Transport System) and HATS (High-Affinity Transport System) nitrate uptake systems. In addition, a full-length cDNA encoding a putative high-affinity nitrate transporter (ZmNrt2.1) was isolated and its expression evaluated in both the r ...