Urea is one of the three forms widely used for nitrogen soil fertilization in agriculture. Even if
urea in the soil is degraded to ammonium and CO2, an appreciable amount could still be present and
would represent an alternative source of nitrogen. Indeed, the transport of urea through the plasma
membrane in Arabidopsis has been recently described (Kojima et al., Plant Journal, 52, 30-40,
2007). Once urea enters the plant, it could follow two main pathways, being directly metabolized in
the root or translocated to the epigeal part. Therefore, in this work we examined the effects of
different form of nitrogen supply, including urea, on two enzymes of the soluble cellular fractions
involved in nitrogen metabolism, namely nitrate reductase (NR) and glutamine synthetase (GS), in
roots and leaves of maize. Five-day old seedlings were transferred for 24h in growing media under
different nitrogen supply: control (no N); nitrate; nitrate+ammonium; urea; urea+nitrate. Real time
RT-PCR experiments showed that expression levels of gene coding for NR2 and GS2 enzyme
isoforms in roots were transiently induced by treatments with nitrate and urea+nitrate. Furthermore,
root exposition to urea+nitrate showed higher transcripts levels and a faster response with respect to
the sole nitrate treatment. The enzymatic activity of GS was not significantly modified, both in
roots and leaves in all nitrogen supply treatments. Nevertheless, the activity of NR was increased in
all nitrogen treatments, but not in the presence of urea, that was even lower than the control.
Remarkably, after both 8 and 24h incubation, the plantlets showed a significant increase of NR
activity in the samples grown in the presence of urea+nitrate. Results of the present work indicate
that the contemporary supply of nitrate and urea to maize seedlings might favour nitrogen
assimilation through an enhancement of gene transcription and activity of key enzymes.
Work supported by NORGEF project (Friuli Venezia Giulia, LR/26)
