摘要
Dear Editor, In most plants, nitrogen (N) is acquired by roots in the form of nitrate (NO3-). In many species, NO3- is not assimi- lated in the roots, but is secreted into the xylem sap for translocation to the shoot, where it enters the cells to be metabolized and/or stored in the vacuoles. Several plasma membrane transporters involved in NO3- influx into the cell have been identified in Arabidopsis (Wang et ai., 2012), especially in the roots where members of the NPF (NRTI/PTR Family, L^ran et al., 2013) and NRT2 transporter families are predominantiy implicated. Concerning efflux to the xylem sap, only one transporter, NPF7.3/NRT1.5, has been shown to be involved. However, physiological characterization of npf7.31nrtl.5 knockout mutant plants demonstrated that other transporter(s) is (are) also contributing to xylem Ioad- inq of NO^- (Lin et al., 2008).
Dear Editor, In most plants, nitrogen (N) is acquired by roots in the form of nitrate (NO3-). In many species, NO3- is not assimi- lated in the roots, but is secreted into the xylem sap for translocation to the shoot, where it enters the cells to be metabolized and/or stored in the vacuoles. Several plasma membrane transporters involved in NO3- influx into the cell have been identified in Arabidopsis (Wang et ai., 2012), especially in the roots where members of the NPF (NRTI/PTR Family, L^ran et al., 2013) and NRT2 transporter families are predominantiy implicated. Concerning efflux to the xylem sap, only one transporter, NPF7.3/NRT1.5, has been shown to be involved. However, physiological characterization of npf7.31nrtl.5 knockout mutant plants demonstrated that other transporter(s) is (are) also contributing to xylem Ioad- inq of NO^- (Lin et al., 2008).
