Physiology of maize I:: A comprehensive and integrated view of nitrogen metabolism in a C4 plant

Maize (Zea mays L., line F2) plants were grown in the field under high or low fertilization input to monitor the metabolic, biochemical and molecular events occurring in young vegetative leaves and in the different leaf stages along the main axis in plants harvested 15 days after silking. This study shows that in maize which possess large sinks represented by the seeds, nitrogen (N) management is different compared with tobacco in which sink strength is much lower and mostly limited to young developing leaves. Although in young leaves nitrate assimilation predominates in both species, ammonium assimilation exhibits some species-specific differences with respect to inorganic and organic N metabolite accumulation during leaf ageing. These differences are likely to be related to the high sink strength of the ear in maize, which continuously imports carbon and N assimilates during grain filling. Consequently, a number of cytosolic glutamine synthetase isoenzymes are expressed during leaf ageing to maintain a constant flux of reduced N necessary for the synthesis of organic N molecules used either for leaf protein synthesis or directly translocated to the grain. This situation contrasts with that found in tobacco for which leaf ammonium assimilation in the plastids is shifted to the cytosol during the transition from sink leaves to source leaves. These species-specific differences for N assimilation and recycling are discussed in relation to the evolution of leaf photosynthetic activity and leaf senescence, which both seem to be largely dependent on the different sink strength in each species.