%0 Journal Article
%T NO2-drived NO3每 metabolism in leaves
%A Yanbo Hu
%J Insciences Journal
%D 2011
%I Insciences Organisation
%X Atmospheric nitrogen dioxide (NO2) can be dry/wet deposited into plant leaves mainly through stomata, with a small fraction of cuticle deposition. Plants in nature present a wide variation in NO2 assimilation and the resistance. The ability of leaf NO2 uptake and efficient remobilization of NO2-derived NO3每/NO2每 is important for normal plant growth and to withstand nitrogen deprivation. Moreover, leaf- and root-derived NO3每 metabolisms have both links and differences. This review emphasizes on the fates of NO2-drived NO3每, including i) the assimilation into amino acids, ii) accumulation in vacuoles, and iii) reemission by NOx (NO and/or NO2), and discuss metabolic differences of NO2-drived and root-derived NO3每. Special attention is drawn to NOx evolution in apoplast and symplast of leaves and its control to stomatal dynamics. Moreover, further progress is proposed to get a better understanding of the dynamic uptake of NO2 and NO3每 transporters in leaves.
%K nitrate metabolism
%K nitrate reductase
%K nitrogen dioxide
%K NOx evolution
%K photorespiration
%K stomatal dynamics
%U http://journal.insciences.org/1664-171x-1-2-90/