Interactions between sulfur (S) nutritional status and sulfate transporter expression in field-grown wheat (Triticum aestivum) were investigated using Broadbalk +S and −S treatments (S fertilizer withheld) at Rothamsted, United Kingdom. In 2008, S, sulfate, selenium (Se), and molybdenum (Mo) concentrations and sulfate transporter gene expression were analyzed throughout development. Total S concentrations were lower in all tissues of −S plants, principally as a result of decreased sulfate pools. S, Se, and Mo concentrations increased in vegetative tissues until anthesis, and thereafter, with the exception of Mo, decreased until maturity. At maturity, most of the S and Se were localized in the grain, indicating efficient remobilization from ...
Sulfur and iron balanced supply is of paramount importance for plants, since Fe homoeostasis in plan...
Natural variation allows the investigation of both the fundamental functions of genes and their role...
© 2019, The Author(s). Increasing the selenium (Se) concentration of staple crops by fertilization i...
Interactions between sulfur (S) nutritional status and sulfate transporter expression in field-grown...
Interactions between sulfur (S) nutritional status and sulfate transporter expression in field-grown...
Selenium (Se) is an essential micronutrient of fundamental importance to human health and the main S...
Sulfur is taken up by the plant and transported in the cell and around the plant mainly as sulfate. ...
Selenium (Se) is essential for humans and animals but has no known function in plants. Excess accumu...
UK wheat (Triticum aestivum L.) has a low selenium (Se) concentration and agronomic biofortification...
In recent years it has been established a significant relationship between sulfur (S) and iron (Fe) ...
Under sulfur (S) deficiency, crosstalk between nutrients induced accumulation of other nutrients, pa...
Under sulfur (S) deficiency, crosstalk between nutrients induced accumulation of other nutrients, pa...
The interaction of selenate and molybdate with the transport and assimilation of sulfate, and the ef...
Summary Stanleya pinnata not only hyperaccumulates selenium (Se) to 0.5% of its dry weight, but al...
Sulfur and iron balanced supply is of paramount importance for plants, since Fe homoeostasis in plan...
Natural variation allows the investigation of both the fundamental functions of genes and their role...
© 2019, The Author(s). Increasing the selenium (Se) concentration of staple crops by fertilization i...
Interactions between sulfur (S) nutritional status and sulfate transporter expression in field-grown...
Interactions between sulfur (S) nutritional status and sulfate transporter expression in field-grown...
Selenium (Se) is an essential micronutrient of fundamental importance to human health and the main S...
Sulfur is taken up by the plant and transported in the cell and around the plant mainly as sulfate. ...
Selenium (Se) is essential for humans and animals but has no known function in plants. Excess accumu...
UK wheat (Triticum aestivum L.) has a low selenium (Se) concentration and agronomic biofortification...
In recent years it has been established a significant relationship between sulfur (S) and iron (Fe) ...
Under sulfur (S) deficiency, crosstalk between nutrients induced accumulation of other nutrients, pa...
Under sulfur (S) deficiency, crosstalk between nutrients induced accumulation of other nutrients, pa...
The interaction of selenate and molybdate with the transport and assimilation of sulfate, and the ef...
Summary Stanleya pinnata not only hyperaccumulates selenium (Se) to 0.5% of its dry weight, but al...
Sulfur and iron balanced supply is of paramount importance for plants, since Fe homoeostasis in plan...
Natural variation allows the investigation of both the fundamental functions of genes and their role...
© 2019, The Author(s). Increasing the selenium (Se) concentration of staple crops by fertilization i...