Micronutrients are essential mineral elements required for both plant and human
development. However, micronutrients are often lacking in soils, crop, and food …

Transition metals such as iron, copper, zinc, or molybdenum are essential nutrients for
plants. These elements are involved in almost every biological process, including …

The regulation of iron (Fe) homeostasis is critical for plant survival. Although the systems
responsible for the reduction, uptake, and translocation of Fe have been described, the …

Iron (Fe) deficiency is a widespread nutritional disorder on calcareous soils. To identify
genes involved in the Fe deficiency response, Arabidopsis (Arabidopsis thaliana) transfer …

Abstract Iron (Fe) and manganese (Mn) are essential metals which, when scarce in the
growth medium, are respectively taken up by the root high affinity transporters IRT1 and …

Plants grown under iron (Fe)-deficient conditions induce a set of genes that enhance the
efficiency of Fe uptake by the roots. In Arabidopsis (Arabidopsis thaliana), the central …

Pyoverdines are siderophores synthesized by fluorescent Pseudomonas spp. Under iron-
limiting conditions, these high-affinity ferric iron chelators are excreted by bacteria in the soil …

Iron (Fe) is an essential metal nutrient for plant productivity and plant product quality (Briat et
al., 2015). Fe exists under two forms, ferrous (Fe2+) or ferric (Fe3+), and is very reactive with …

One of the most important roles of plant roots is to take up essential mineral nutrients from
the soil for use in plant growth and development. The uptake of mineral elements is …

Iron is an essential element for most living organisms. Plants acquire iron from the
rhizosphere and have evolved different biochemical and developmental responses to adapt …