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IBBR publication #1558

NAR2.1/NRT2.1 functional interaction with NO3- and H fluxes in high-affinity nitrate transport in maize root regions

Lupini A, Mercati F, Araniti F, Miller AJ, Sunseri F, Abenavoli MR

Plant Physiology and Biochemistry 102: 107-114. (2016)
doi: 10.1016/j.plaphy.2016.02.022

Spatial and temporal fluctuations in nitrate (NO3-) availability are very common in agricultural soils. Therefore, understanding the molecular and physiological mechanisms involved in regulating NO3- uptake in regions along the primary root is important for improving the NOS uptake efficiency (NUpE) in crops. Different regions of maize primary root, named R1, R2 and R3, NO3- starved for 3 days, were exposed to 50 mu M NO3-. Electrophysiological measurements (membrane potential and H+ and NO3- fluxes) and NPF6.3, NRT2.1, NAR2.1, MHA1, MHA3 and MHA4 gene expression analyses were carried out. The results confirmed variable spatial and temporal patterns in both NO3- and H+ fluxes and gene expression along the primary maize root. A significant correlation (P = 0.0023) between nitrate influx and gene transcript levels was observed only when NAR2.1 and NRT2.1 co-expression were considered together, showing for the first time the NRT2.1/NAR2.1 functional interaction in nitrate uptake along the root axis. Taken together these results suggest differing roles among the primary root regions, in which the apical part seem to be involved to sensing and signaling in contrast with the basal root which appears to be implicate in nitrate acquisition. (C) 2016 Elsevier Masson SAS. All rights reserved.

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