In plants, the excess of several heavy metals mimics iron (Fe) deficiency-induced chlorosis,
indicating a disturbance in Fe homeostasis. To examine the level at which heavy metals …

Iron (Fe) is an essential micronutrient for plant growth development and plays a key role in
regulating numerous cellular processes. In rice, OsHRZ1, an Fe‐binding ubiquitin ligase, is …

To avoid zinc (Zn) toxicity, plants have developed a Zn homeostasis mechanism to cope with
Zn excess in the surrounding soil. In this report, we uncovered the difference of a cross …

Iron (Fe) is an essential element for human nutrition. Given that plants represent a major
dietary source of Fe worldwide, it is crucial to understand plant Fe homeostasis fully. A major …

Iron (Fe) toxicity is a major nutritional disorder of plants and affects rice yield and production
in rainfed and irrigated lowland rice grown in acid soils. Rice plants are reported to have …

Iron (Fe) homeostasis is essential for both plant development and human nutrition. The
maintenance of Fe homeostasis involves a complex network in which Fe signaling nodes …

Iron is essential for most living organisms and is often the major limiting nutrient for normal
growth. Plants induce iron utilization systems under conditions of low iron availability, but the …

Dicotyledonous plants growing under limited iron availability initiate a response resulting in
the solubilization, reduction, and uptake of soil iron. The protein factors responsible for these …

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 …