B. Erenoğlu
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View article: Iron Acquisition by Phytosiderophores Contributes to Cadmium Tolerance
Iron Acquisition by Phytosiderophores Contributes to Cadmium Tolerance Open
Based on the ability of phytosiderophores to chelate other heavy metals besides iron (Fe), phytosiderophores were suggested to prevent graminaceous plants from cadmium (Cd) toxicity. To assess interactions between Cd and phytosiderophore-m…
View article: ZmYS1 Functions as a Proton-coupled Symporter for Phytosiderophore- and Nicotianamine-chelated Metals
ZmYS1 Functions as a Proton-coupled Symporter for Phytosiderophore- and Nicotianamine-chelated Metals Open
Among higher plants graminaceous species have the unique ability to efficiently acquire iron from alkaline soils with low iron solubility by secreting phytosiderophores, which are hexadentate metal chelators with high affinity for Fe(III).…
View article: Physiological and biochemical characterization of metal-phytosiderophore transport in graminaceous species
Physiological and biochemical characterization of metal-phytosiderophore transport in graminaceous species Open
Abstract Physiological studies on the uptake of metal-phytosiderophores in strategy II plants indicated that besides iron-phytosiderophores also other phytosiderophore-chelated metals can be taken up. To verify whether this reflects a prop…
View article: Phytosiderophore release in Aegilops tauschii and Triticum species under zinc and iron deficiencies
Phytosiderophore release in Aegilops tauschii and Triticum species under zinc and iron deficiencies Open
Using three diploid (Triticum monococcum, AA), three tetraploid (Triticum turgidum, BBAA), two hexaploid (Triticum aestivum and Triticum compactum, BBAADD) wheats and two Aegilops tauschii (DD) genotypes, experiments were carried out under…