A series of complex transport, storage and regulation mechanisms control iron metabolism and thereby maintain iron homeostasis in plants. Despite several studies on iron deficiency responses in different plant species, these mechanisms remain unclear in the allohexaploid wheat, which is the most widely cultivated commercial crop. We used RNA sequencing to reveal transcriptomic changes in the wheat flag leaves and roots, when subjected to iron limited conditions. We identified 5969 and 2591 differentially expressed genes (DEGs) in the flag leaves and roots, respectively. Genes involved in the synthesis of iron ligands i.e., nicotianamine (NA) and deoxymugineic acid (DMA) were significantly up-regulated during iron deficiency. In total, 337 a...
Background: The release of phytosiderephores (PS) to the rhizosphere is the main root response to ir...
A well-developed root system benefits host plants by optimizing water absorption and nutrient uptake...
Plant iron deficiency (-Fe) activates a complex regulatory network that coordinates root Fe uptake a...
Iron is an essential micronutrient for all organisms. In crop plants, iron deficiency can decrease c...
Iron is one of essential micronutrient for all organisms. Its deficiency 33 causes a severe loss in ...
A number of connections and insights are emerging regarding the molecular and physiological basis of...
Effective maintenance of plant iron (Fe) homoeostasis relies on a network of transcription factors (...
<div><p>Iron (Fe) uptake in graminaceous plant species occurs via the release and uptake of Fe-chela...
Iron (Fe) uptake in graminaceous plant species occurs via the release and uptake of Fe-chelating com...
Iron (Fe) uptake in graminaceous plant species occurs via the release and uptake of Fe-chelating com...
Wheat, a major worldwide staple food crop, is relatively sensitive to a changing environment, includ...
Iron is an essential growth determinant for plants, and plants acquire this micronutrient in amounts...
Background: Plants react to iron deficiency stress adopting different kind of adaptive responses. To...
Iron is an essential growth determinant for plants, and plants acquire this micronutrient in amounts...
Background: FIT (FER-LIKE IRON DEFICIENCY-INDUCED TRANSCRIPTION FACTOR) is the central regulator of ...
Background: The release of phytosiderephores (PS) to the rhizosphere is the main root response to ir...
A well-developed root system benefits host plants by optimizing water absorption and nutrient uptake...
Plant iron deficiency (-Fe) activates a complex regulatory network that coordinates root Fe uptake a...
Iron is an essential micronutrient for all organisms. In crop plants, iron deficiency can decrease c...
Iron is one of essential micronutrient for all organisms. Its deficiency 33 causes a severe loss in ...
A number of connections and insights are emerging regarding the molecular and physiological basis of...
Effective maintenance of plant iron (Fe) homoeostasis relies on a network of transcription factors (...
<div><p>Iron (Fe) uptake in graminaceous plant species occurs via the release and uptake of Fe-chela...
Iron (Fe) uptake in graminaceous plant species occurs via the release and uptake of Fe-chelating com...
Iron (Fe) uptake in graminaceous plant species occurs via the release and uptake of Fe-chelating com...
Wheat, a major worldwide staple food crop, is relatively sensitive to a changing environment, includ...
Iron is an essential growth determinant for plants, and plants acquire this micronutrient in amounts...
Background: Plants react to iron deficiency stress adopting different kind of adaptive responses. To...
Iron is an essential growth determinant for plants, and plants acquire this micronutrient in amounts...
Background: FIT (FER-LIKE IRON DEFICIENCY-INDUCED TRANSCRIPTION FACTOR) is the central regulator of ...
Background: The release of phytosiderephores (PS) to the rhizosphere is the main root response to ir...
A well-developed root system benefits host plants by optimizing water absorption and nutrient uptake...
Plant iron deficiency (-Fe) activates a complex regulatory network that coordinates root Fe uptake a...