Common to all of the nitrate nitrite porter family are two conserved motifs in transmembrane helices 5 and 11 termed NS (nitrate signature) 1 and NS2. Although perfectly conserved substrate-interacting arginine residues have been described in transmembrane helices 2 and 8, the role of NSs has not been investigated. In the present study, a combination of structural modelling of NrtA (nitrate transporter from Aspergillus nidulans) with alanine scanning mutagenesis of residues within and around the NSs has been used to shed light on the probable role of conserved residues in the NSs. Models show that Asn168 in NS1 and Asn459 in NS2 are positioned approximately midway within the protein at the central pivot point in close proximity to the substrate-binding residues Arg368 and Arg87 respectively, which lie offset from the pivot point towards the cytoplasmic face. The Asn168/Arg368 and Asn459/Arg87 residue pairs are relatively widely separated on opposite sides of the probable substrate translocation pore. The results of the present study demonstrate the critical structural contribution of several glycine residues in each NS at sites of close helix packing. Given the relative locations of Asn168/Arg368 and Asn459/Arg87 pairs, the validity of the models and possible role of the NSs together with the substrate-binding arginine residues are discussed.
A sequence motif involved in the donor substrate binding by 1,6-fucosyltransferase: the role of the conserved arginine residues
