dc.description.abstract |
Transition metals such as iron, copper, zinc, or molybdenum are essential nutrients
for plants. These elements are involved in almost every biological process, including
photosynthesis, tolerance to biotic and abiotic stress, or symbiotic nitrogen fixation.
However, plants often grow in soils with limiting metallic oligonutrient bioavailability.
Consequently, to ensure the proper metal levels, plants have developed a complex
metal uptake and distribution system, that not only involves the plant itself, but also its
associated microorganisms. These microorganisms can simply increase metal solubility
in soils and making them more accessible to the host plant, as well as induce the
plant metal deficiency response, or directly deliver transition elements to cortical cells.
Other, instead of providing metals, can act as metal sinks, such as endosymbiotic
rhizobia in legume nodules that requires relatively large amounts to carry out nitrogen
fixation. In this review, we propose to do an overview of metal transport mechanisms
in the plant¿microbe system, emphasizing the role of arbuscular mycorrhizal fungi and
endosymbiotic rhizobia.
Keywords: metal homeostasis, plant¿microbe interaction, arbuscular mycorrhiza, rhizobia, transition metal |
es_ES |