Abstract
Symbiotic nitrogen fixation is one of the most promising and immediate alternatives to the overuse of polluting nitrogen fertilizers for improving plant nutrition. At the core of this process are a number of metalloproteins that catalyze and provide energy for the conversion of atmospheric nitrogen to ammonia, eliminate free radicals produced by this process, and create the microaerobic conditions required by these reactions. In legumes, metal cofactors are provided to endosymbiotic rhizobia within root nodule cortical cells. However, low metal bioavailability is prevalent in most soils types, resulting in widespread plant metal deficiency and decreased nitrogen fixation capabilities. As a result, renewed efforts have been undertaken to identify the mechanisms governing metal delivery from soil to the rhizobia, and to determine how metals are used in the nodule and how they are recycled once the nodule is no longer functional. This effort is being aided by improved legume molecular biology tools (genome projects, mutant collections, and transformation methods), in addition to state-of-the-art metal visualization systems.
Highlights
Substantial effort has been put forth to increase legume growth and production of seeds with enhanced nutritional content and bioavailability
In legumes, in addition to the metabolic processes common to all plants, metals are required the unique process of symbiotic nitrogen fixation (SNF)
Cu2+ is reduced to Cu+ and a member of the copper transporter (Ctr) family translocates the metal across the epidermal cell plasma membrane
Summary
Substantial effort has been put forth to increase legume growth and production of seeds with enhanced nutritional content and bioavailability. In legumes, in addition to the metabolic processes common to all plants, metals are required the unique process of symbiotic nitrogen fixation (SNF). They are involved in every biological process, including the legume-specific stages of SNF from rhizobia infection to nodule www.frontiersin.org
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