Roles of the Middle Domain–Specific WUSCHEL-RELATED HOMEOBOX Genes in Early Development of Leaves in Arabidopsis[W][OA]

This work proposes that the middle domain, which is distinct from the adaxial (upper) and abaxial (lower) domains, plays a key role in coordinating two important processes in early leaf development, blade outgrowth, and adaxial/abaxial patterning, through the actions of the middle domain–specific WOX genes, PRS and WOX1, in concert with the adaxial- and abaxial-specific genes

Nitrogen transport in the ectomycorrhiza association: The Hebeloma cylindrosporum–Pinus pinaster model

International audienceThe function of the ectomycorrhizal mutualism depends on the ability of the fungal symbionts to take up nutrients (particularly nitrogen) available in inorganic and/or organic form in the soil and to translocate them (or their metabolites) to the symbiotic roots. A better understanding of the molecular mechanisms underlying nutrient exchanges between fungus and plant at the symbiotic interface is necessary to fully understand the function of the mycorrhizal symbioses. The present review reports the characterization of several genes putatively involved in nitrogen uptake and transfer in the Hebeloma cylindrosporum–Pinus pinaster ectomycorrhizal association. Study of this model system will further clarify the symbiotic nutrient exchange which plays a major role in plant nutrition as well as in resistance of plants against pathogens, heavy metals, drought stress, etc. Ultimately, ecological balance is maintained and/or improved with the help of symbiotic associations, and therefore, warrant further understanding