Micronutrient malnutrition is one of the major causes of human disorders in the developing
world. Iron (Fe) is an important micronutrient due to its use in human metabolism such as …

Iron is critical during host–microorganism interactions,,–. Restriction of available iron by the
host during infection is an important defence strategy, described as nutritional immunity …

One of life's decisive innovations was to harness the catalytic power of metals for cellular
chemistry. With life's expansion, global atmospheric and biogeochemical cycles underwent …

Arabidopsis primary root growth response to phosphate (Pi) deficiency is mainly controlled
by changes in apoplastic iron (Fe). Upon Pi deficiency, apoplastic Fe deposition in the root …

To mobilize sparingly available phosphorus (P) in the rhizosphere, many plant species
secrete malate to release P sorbed onto (hydr) oxides of aluminum and iron (Fe). In the …

Many non-graminaceous species release various coumarins in response to iron (Fe)
deficiency. However, the physiological relevance of these coumarins remains poorly …

The study delves into the vital role of essential metal nutrient uptake in graminaceous plants,
focusing on internal movement for optimal plant development. The experiment specifically …

Abstract Iron (Fe), manganese (Mn), copper (Cu), and zinc (Zn) are essential micronutrients
that are necessary for plant growth and development, but can be toxic at supra-optimal …

Plant roots release phytochemicals into the soil environment to influence nutrient availability
and uptake. Arabidopsis thaliana roots release phenylpropanoid coumarins in response to …

Abstract Background In viticulture, iron (Fe) chlorosis is a common abiotic stress that impairs
plant development and leads to yield and quality losses. Under low availability of the metal …