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Article Abstract
Zostera marina is a seagrass, a group of angiosperms that evolved from land to live submerged in seawater, an environment of high salinity, alkaline pH and usually very low NO . In 2000, we reported the first physiological evidence for the Na -dependent high-affinity NO uptake in this plant. Now, to determine the molecular identity of this process, we searched for NO transporters common to other vascular plants encoded in Z. marina's genome. We cloned two candidates, ZosmaNPF6.3 and ZosmaNRT2 with its partner protein ZosmaNAR2. ZosmaNAR2 expression levels increase up to 4.5-fold in Z. marina leaves under NO -deficiency, while ZosmaNRT2 and ZosmaNPF6.3 expressions were low and unaffected by NO . NO transport capacity, kinetic properties and H or Na -dependence were examined by heterologous expression in the Hansenula polymorpha high-affinity NO transporter gene disrupted strain (∆ynt1). ZosmaNPF6.3 functions as a H -dependent NO transporter, without functionality at alkaline pH and apparent dual kinetics (K = 11.1 µM at NO concentrations below 50 µM). ZosmaNRT2 transports NO in a H -independent but Na -dependent manner (K = 1 mM Na ), with low NO affinity (K = 30 µM). When ZosmaNRT2 and ZosmaNAR2 are co-expressed, a Na -dependent high-affinity NO transport occurs (K = 5.7 µM NO ), mimicking the in vivo value. These results are discussed in the physiological context, providing evidence that ZosmaNRT2 is a Na -dependent high-affinity NO transporter, the first of its kind to be functionally characterised in a vascular plant, that requires ZosmaNAR2 to achieve the necessary high-affinity for nitrate uptake from seawater.
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| http://dx.doi.org/10.1111/pce.14660 | DOI Listing |
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