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Research Findings (2025)
ENA1, a newly identified root NA exporter in Arabidopsis, modulates zinc homeostasis
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Research Findings (2021)
Histone H3 lysine 4 trimethylation-regulated GRF11 expression is essential for the iron deficiency response in Arabidopsis thaliana.
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Research Findings (2019)
Arabidopsis IRON DEFICIENCY TOLERANT1 for iron biofortification and heavy metal phytoremediation.
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Research Findings (2015)
Glutathione plays an essential role in nitric oxide-mediated iron deficiency signaling and iron deficiency tolerance in Arabidopsis.
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Research Findings (2014)
Root-secreted nicotianamine from Arabidopsis halleri facilitates zinc hypertolerance by regulating zinc bioavailability
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Research Findings (2013)
Degradation of the Fe uptake transporter IRT1
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Research Findings (2013)
Fe nutrient and circadian period length
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Research Findings (2012)
Biological function of copper chaperones: copper homeostasis and biomass
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Research Findings (2012)
A sensitive LC-ESI-TOF-MS method for the detection of phytosiderophores and their iron complexes in roots
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Research Findings (2011)
Fe homeostasis based Zn tolerance in the Zn/Cd hyperaccumulator A. halleri
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Research Findings (2011)
SUMOylation is involved in the Cu tolerance and distribution in plants
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Research Findings (2011)
Glutathione plays a role in the cross-homeostasis between Fe and Zn
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Research Findings (2009)
IRT3 is a Zn-regulated plasma membrane Zn and Fe transporter
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Research Findings (2009)
Model Evaluation of the Phytoextraction Potential of Heavy Metal Hyperaccumulators and Non-hyperaccumulators
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Research Findings (2006)
A design of metal binding peptides: Proteomic survey of copper-binding domains in Arabidopsis roots
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