M'sehli W., Houmani H., Donnini S., Zocchi G., Abdelly C., Gharsally M. (2014) Iron deficiency tolerance at leaf level in Medicago ciliaris plants. American Journal of Plant Sciences, 5, 2541-2553.M'sehli, W., Houmani, H., Donnini, S., Zocchi, G., Abdelly, C., Gharsalli...
translocation to the cellular compartments and accessibility of iron storage which are important for proper iron homeostasis hence can be considered as vital biofortification strategy for crop plants to address hidden hunger.
Ross MM (1986) Improving plants for tolerance to iron deficiency and other mineral nutrition problems: Breed- ing and genetic points of view. J Plant Nutr 9:309-334Ross W M.Improving Plants for tolerance to iron deficiency and other mineral nutrition problems: breeding and genetic points of ...
Aksoy E, Maqbool A, Tindas İ, Caliskan S (2017) Soybean: a new frontier in understanding the iron deficiency tolerance mechanisms in plants. Plant Soil. doi:10.1007/s11104-016-3157-x Álvarez-Fernández A, García-Marco S, Lucena JJ (2005) Evaluation of synthetic iron(III)-chelates ...
Enhancement of Iron Acquisition in Rice by the Mugineic Acid Synthase Gene With Ferric Iron Reductase Gene and OsIRO2 Confers Tolerance in Submerged and No... Iron (Fe) is an essential micronutrient for plants. Plants encounter Fe deficiency when grown in calcareous soil with low Fe availability...
Iron deficiency induces in Strategy I plants physiological, biochemical and molecular modifications capable to increase iron uptake from the rhizosphere. This effort needs a reorganization of metabolic pathways to efficiently sustain activities linked to
The release of phytosiderephores (PS) to the rhizosphere is the main root response to iron (Fe) deficiency in graminaceous plants. We have investigated the role of the Fe status in the shoot as well as of the signaling pathways controlled by three relevant phytoregulators – indolacetic acid...
Furthermore, the content of ascorbate (AA) was enhanced ca. 1.7-fold in Fe deficient roots. These results indicate that metabolic changes resulting in enhanced AA levels and activities of AFR-R and APX in the roots could be related to plant responses to Fe deficiency stress. 展开 ...
Iron-deficiency is a widespread plant disorder particularly frequent in neutral or alkaline soils, where iron availability often falls below the threshold required to meet plant needs. Plants have developed effi cient mechanisms to acquire iron: strategy I, adopted by all dicots and non-graminaceous...
Iron (Fe) is essential micronutrient for plants and its deficiency as well as toxicity is a serious agricultural problem. The mechanisms of Fe deficiency are reasonably understood, however our knowledge about plants response to excess Fe is limited. More