Add to ORKGThe beneficial root-colonizing rhizobacterium Pseudomonas simiae WCS417 stimulates plant growth and induces systemic resistance against a broad spectrum of plant diseases. In Arabidopsis thaliana (Arabidopsis), the root transcriptional response to WCS417 shows significant overlap with the root response to iron (Fe) starvation, including activation of the marker genes MYB72 and IRT1. Here, we investigated how colonization of Arabidopsis roots by WCS417 impacts Fe homeostasis in roots and shoots. Under Fe-sufficient conditions, root colonization by WCS417 induced a transient Fe deficiency response in the root and elevated both the total amount of Fe in the shoot and the shoot fresh weight. When plants were grown under Fe-starvation conditions...
Arabidopsis thaliana (L.) Heynh. Columbia wild type and a root hair-less mutant RM57 were grown on i...
Iron (Fe) is an essential micronutrient for plant survival and proliferation. Plants have evolved co...
Root architecture differences have been linked to the survival of plants on phosphate (P)-deficient ...
The beneficial root-colonizing rhizobacterium Pseudomonas simiae WCS417 stimulates plant growth and ...
Iron (Fe) is a poorly available mineral nutrient which affects the outcome of many cross-kingdom int...
In Arabidopsis roots, the transcription factor MYB72 plays a dual role in the onset of rhizobacteria...
In Arabidopsis roots, the transcription factor MYB72 plays a dual role in the onset of rhizobacteria...
Plant iron deficiency (-Fe) activates a complex regulatory network that coordinates root Fe uptake a...
Iron (Fe) is an essential mineral micronutrient for plants and animals. Plants respond to Fe deficie...
Several studies have used A. thaliana as a model to identify the physiological and molecular mechani...
Plant growth requires optimal levels of iron (Fe). Fe is used for energy production, numerous enzyma...
Iron (Fe) is an essential microelement but is highly toxic when in excess. The response of plant roo...
International audienceIron (Fe) homeostasis is integrated with the production of Reactive Oxygen Spe...
Under conditions of reduced iron availability, most frequent in calcareous soils, plants induce the ...
Iron (Fe) and phosphorus (P) are two essential mineral nutrients whose acquisition by plants present...
Arabidopsis thaliana (L.) Heynh. Columbia wild type and a root hair-less mutant RM57 were grown on i...
Iron (Fe) is an essential micronutrient for plant survival and proliferation. Plants have evolved co...
Root architecture differences have been linked to the survival of plants on phosphate (P)-deficient ...
The beneficial root-colonizing rhizobacterium Pseudomonas simiae WCS417 stimulates plant growth and ...
Iron (Fe) is a poorly available mineral nutrient which affects the outcome of many cross-kingdom int...
In Arabidopsis roots, the transcription factor MYB72 plays a dual role in the onset of rhizobacteria...
In Arabidopsis roots, the transcription factor MYB72 plays a dual role in the onset of rhizobacteria...
Plant iron deficiency (-Fe) activates a complex regulatory network that coordinates root Fe uptake a...
Iron (Fe) is an essential mineral micronutrient for plants and animals. Plants respond to Fe deficie...
Several studies have used A. thaliana as a model to identify the physiological and molecular mechani...
Plant growth requires optimal levels of iron (Fe). Fe is used for energy production, numerous enzyma...
Iron (Fe) is an essential microelement but is highly toxic when in excess. The response of plant roo...
International audienceIron (Fe) homeostasis is integrated with the production of Reactive Oxygen Spe...
Under conditions of reduced iron availability, most frequent in calcareous soils, plants induce the ...
Iron (Fe) and phosphorus (P) are two essential mineral nutrients whose acquisition by plants present...
Arabidopsis thaliana (L.) Heynh. Columbia wild type and a root hair-less mutant RM57 were grown on i...
Iron (Fe) is an essential micronutrient for plant survival and proliferation. Plants have evolved co...
Root architecture differences have been linked to the survival of plants on phosphate (P)-deficient ...