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| Q41914602 | Arabidopsis Transporter ABCG37/PDR9 contributes primarily highly oxygenated Coumarins to Root Exudation |
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| Q90193063 | Catechol-Loading Nanofibrous Membranes for Eco-Friendly Iron Nutrition of Plants |
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| Q26774110 | Ethylene Participates in the Regulation of Fe Deficiency Responses in Strategy I Plants and in Rice |
| Q50872099 | Evolutionary analysis of iron (Fe) acquisition system in Marchantia polymorpha. |
| Q46672535 | Flavins secreted by roots of iron-deficient Beta vulgaris enable mining of ferric oxide via reductive mechanisms |
| Q49466267 | Gene Expression Profiling of Iron Deficiency Chlorosis Sensitive and Tolerant Soybean Indicates Key Roles for Phenylpropanoids under Alkalinity Stress. |
| Q46366663 | Heavy Metals Induce Iron Deficiency Responses at Different Hierarchic and Regulatory Levels. |
| Q57464829 | IRON MAN is a ubiquitous family of peptides that control iron transport in plants |
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| Q34169138 | Identification of candidate genes involved in early iron deficiency chlorosis signaling in soybean (Glycine max) roots and leaves |
| Q96231417 | Identification of enzymatic genes with the potential to reduce biomass recalcitrance through lignin manipulation in Arabidopsis |
| Q64107467 | Induced Systemic Resistance (ISR) and Fe Deficiency Responses in Dicot Plants |
| Q64249419 | Iron and Phosphate Deficiency Regulators Concertedly Control Coumarin Profiles in Roots During Iron, Phosphate, and Combined Deficiencies |
| Q42109559 | Iron deficiency responses in rice roots |
| Q36156431 | Iron homeostasis in Arabidopsis thaliana: transcriptomic analyses reveal novel FIT-regulated genes, iron deficiency marker genes and functional gene networks |
| Q46339270 | Iron homeostasis in plants - a brief overview. |
| Q47687724 | Iron-Nicotianamine Transporters Are Required for Proper Long Distance Iron Signaling. |
| Q37022910 | Jasmonate signaling is activated in the very early stages of iron deficiency responses in rice roots |
| Q26781201 | Local and systemic signaling of iron status and its interactions with homeostasis of other essential elements |
| Q53692335 | MYB72-dependent coumarin exudation shapes root microbiome assembly to promote plant health. |
| Q35212436 | Metabolome analysis of Arabidopsis thaliana roots identifies a key metabolic pathway for iron acquisition |
| Q89621409 | Modulation of the Root Microbiome by Plant Molecules: The Basis for Targeted Disease Suppression and Plant Growth Promotion |
| Q28831496 | Natural variation of root exudates in Arabidopsis thaliana-linking metabolomic and genomic data |
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| Q30315871 | Non-targeted profiling of semi-polar metabolites in Arabidopsis root exudates uncovers a role for coumarin secretion and lignification during the local response to phosphate limitation |
| Q38958390 | One way. Or another? Iron uptake in plants. |
| Q30313880 | PYK10 myrosinase reveals a functional coordination between endoplasmic reticulum bodies and glucosinolates in Arabidopsis thaliana. |
| Q38860026 | Paralogs and mutants show that one DMA synthase functions in iron homeostasis in rice |
| Q59813562 | Plant Frataxin in Metal Metabolism |
| Q92451730 | Plant-derived coumarins shape the composition of an Arabidopsis synthetic root microbiome |
| Q36134007 | Post-Transcriptional Coordination of the Arabidopsis Iron Deficiency Response is Partially Dependent on the E3 Ligases RING DOMAIN LIGASE1 (RGLG1) and RING DOMAIN LIGASE2 (RGLG2) |
| Q55084177 | Protoplast-Esculin Assay as a New Method to Assay Plant Sucrose Transporters: Characterization of AtSUC6 and AtSUC7 Sucrose Uptake Activity in Arabidopsis Col-0 Ecotype. |
| Q53273820 | Putrescine Alleviates Iron Deficiency via NO-Dependent Reutilization of Root Cell-Wall Fe in Arabidopsis. |
| Q38939483 | Regulation of plant secondary metabolism and associated specialized cell development by MYBs and bHLHs |
| Q92240228 | Rhizobacteria-Mediated Activation of the Fe Deficiency Response in Arabidopsis Roots: Impact on Fe Status and Signaling |
| Q90194619 | Roles of Plant-Derived Secondary Metabolites during Interactions with Pathogenic and Beneficial Microbes under Conditions of Environmental Stress |
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| Q51737563 | Scopoletin 8-Hydroxylase-Mediated Fraxetin Production is Crucial for Iron Mobilization. |
| Q52707745 | Scopoletin 8-hydroxylase: a novel enzyme involved in coumarin biosynthesis and iron-deficiency responses in Arabidopsis. |
| Q90471334 | Silicon reduces the iron uptake in rice and induces iron homeostasis related genes |
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| Q90273806 | Soil carbonate drives local adaptation in Arabidopsis thaliana |
| Q37386159 | Systems-wide analysis of manganese deficiency-induced changes in gene activity of Arabidopsis roots |
| Q64988373 | The Adaptive Mechanism of Plants to Iron Deficiency via Iron Uptake, Transport, and Homeostasis. |
| Q91932603 | The Age of Coumarins in Plant-Microbe Interactions |
| Q92425434 | The Arabidopsis non-host defence-associated coumarin scopoletin protects soybean from Asian soybean rust |
| Q37528473 | The Challenges and Opportunities Associated with Biofortification of Pearl Millet (Pennisetum glaucum) with Elevated Levels of Grain Iron and Zinc |
| Q61914233 | The Nicotiana tabacum ABC transporter NtPDR3 secretes O-methylated coumarins in response to iron deficiency |
| Q41956172 | The Role of Soil Microorganisms in Plant Mineral Nutrition-Current Knowledge and Future Directions |
| Q30315886 | The Vacuolar Manganese Transporter MTP8 Determines Tolerance to Iron Deficiency-Induced Chlorosis in Arabidopsis |
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| Q37416608 | The high-affinity metal Transporters NRAMP1 and IRT1 Team up to Take up Iron under Sufficient Metal Provision |
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| Q89450050 | Transcriptional responses of soybean roots to colonization with the root endophytic fungus Piriformospora indica reveals altered phenylpropanoid and secondary metabolism |
| Q90193939 | Understanding the Role of the Antioxidant System and the Tetrapyrrole Cycle in Iron Deficiency Chlorosis |
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