the biosphere plants are exposed to different forms of N, which comprise mineral and organic N forms in soils as well as gaseous NH3, NOx, and molecular N2 in the atmosphere. The form of N uptake is mainly determined by its abundance and accessibility, which make NO3(-) and NH4(+) the most important N forms for plant nutrition under agricultural conditions. With minor importance, the form of N uptake is also subject to plant preferences, by which plants maintain their cation/anion balance during uptake. However, some species seem to have an obligatory preference which even prevents their growth on certain other N sources. In general, uptake of a certain N form closely matches the growth-related demand of the plant, at least when N transport to the root surface is not limiting. In addition, many plants accumulate large pools of N during vegetative growth which are remobilized in the generative stage. As a consequence, systems responsible for N transport need to be tightly regulated in their expression and activity upon sensing N availability and plant demand. Employing the tools of molecular genetics, the first plant genes encoding transporters for inorganic N have recently been isolated and characterized. These data can now complete the wealth of physiological and nutritional studies on N uptake. The present article will focus on the uptake of NO3(-) and NH4(+) into root cells and tries to link data derived from physiological, genetic and molecular studies.
CITATION STYLE
von Wirén, N., Gazzarrini, S., & Frommer, W. B. (1997). Regulation of mineral nitrogen uptake in plants. In Plant Nutrition for Sustainable Food Production and Environment (pp. 41–49). Springer Netherlands. https://doi.org/10.1007/978-94-009-0047-9_4
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