Add to ORKGIron (Fe) is an essential mineral that has low solubility in alkaline soils, where its deficiency results in chlorosis. Whether low Fe supply and alkaline pH stress are equivalent is unclear, as they have not been treated as separate variables in molecular physiological studies. Additionally, molecular responses to these stresses have not been studied in leaf and root tissues simultaneously. We tested how plants with the Strategy I Fe uptake system respond to Fe deficiency at mildly acidic and alkaline pH by measuring root ferric chelate reductase (FCR) activity and expression of selected Fe uptake genes and riboflavin synthesis genes. Alkaline pH increased cucumber (Cucumis sativus L.) root FCR activity at full Fe supply, but alkaline stre...
In several cultivation areas, grapevine can suffer from Fe chlorosis due to the calcareous and alkal...
Iron (Fe) and copper (Cu) homeostasis are tightly linked across biology. Understanding crosstalk bet...
Iron ranks fourth in the sequence of abundance of the elements in the Earth's crust, but its low bio...
Iron (Fe) is an essential mineral that has low solubility in alkaline soils, where its deficiency re...
Alkaline soils comprise 30% of the earth and have low plant-available iron (Fe) concentration, and c...
Iron ranks fourth in the sequence of abundance of the elements in the Earth's crust, but its low bio...
Plant growth requires optimal levels of iron (Fe). Fe is used for energy production, numerous enzyma...
Aims: Iron (Fe) is an essential micronutrient, and plant-available Fe is often limited in alkaline s...
Iron deficiency in plants is caused by a low availability of iron in the soil, and its main visual s...
Iron (Fe) deficiency in plants limits crop growth and productivity. Molecular mechanisms that plants...
Iron (Fe) and copper (Cu) homeostasis are tightly linked across biology. In previous work, Fe defici...
Iron deficiency in plants is caused by a low availability of iron in the soil, and its main visual s...
The expression of iron (Fe) acquisition-related genes in roots was studied in roots of two different...
Iron (Fe) is an essential cofactor for many cellular redox reactions and is required for life. Plant...
In several cultivation areas, grapevine can suffer from Fe chlorosis due to the calcareous and alkal...
Iron (Fe) and copper (Cu) homeostasis are tightly linked across biology. Understanding crosstalk bet...
Iron ranks fourth in the sequence of abundance of the elements in the Earth's crust, but its low bio...
Iron (Fe) is an essential mineral that has low solubility in alkaline soils, where its deficiency re...
Alkaline soils comprise 30% of the earth and have low plant-available iron (Fe) concentration, and c...
Iron ranks fourth in the sequence of abundance of the elements in the Earth's crust, but its low bio...
Plant growth requires optimal levels of iron (Fe). Fe is used for energy production, numerous enzyma...
Aims: Iron (Fe) is an essential micronutrient, and plant-available Fe is often limited in alkaline s...
Iron deficiency in plants is caused by a low availability of iron in the soil, and its main visual s...
Iron (Fe) deficiency in plants limits crop growth and productivity. Molecular mechanisms that plants...
Iron (Fe) and copper (Cu) homeostasis are tightly linked across biology. In previous work, Fe defici...
Iron deficiency in plants is caused by a low availability of iron in the soil, and its main visual s...
The expression of iron (Fe) acquisition-related genes in roots was studied in roots of two different...
Iron (Fe) is an essential cofactor for many cellular redox reactions and is required for life. Plant...
In several cultivation areas, grapevine can suffer from Fe chlorosis due to the calcareous and alkal...
Iron (Fe) and copper (Cu) homeostasis are tightly linked across biology. Understanding crosstalk bet...
Iron ranks fourth in the sequence of abundance of the elements in the Earth's crust, but its low bio...