Spatial distribution of cytoplasmic domains of the Mg-transporter MgtE,in a solution lacking Mg,revealed by paramagnetic relaxation enhancement

MgtE is a prokaryotic Mg²⁺ transporter that controls cellular Mg²⁺ concentrations. We previously reported crystal structures of the cytoplasmic region of MgtE, consisting of 2 domains, that is, N and CBS, in the Mg²⁺-free and Mg²⁺-bound forms. The Mg²⁺-binding sites lay at the interface of the 2 domains, making the Mg²⁺-bound form compact and globular. In the Mg²⁺-free structure, however, the domains are far apart, and the Mg²⁺-binding sites are destroyed. Therefore, it is unclear how Mg²⁺-free MgtE changes its conformation to accommodate Mg²⁺ ions. Here, we used paramagnetic relaxation enhancement (PRE) to characterize the relative orientation of the N and CBS domains in the absence of Mg²⁺ in solution. When the residues on the surface of the CBS domain were labeled with nitroxide tags, significant PRE effects were observed for the residues in the N domain. No single structure satisfied the PRE profiles, suggesting that the N and CBS domains are not fixed in a particular orientation in solution. We then conducted ensemble simulated annealing calculations in order to obtain the atomic probability density and visualize the spatial distribution of the N domain in solution. The results indicate that the N domain tends to occupy the space near its position in the Mg²⁺-bound crystal structure, facilitating efficient capture of Mg²⁺ with increased intracellular Mg²⁺ concentration, which is necessary to close the gate.