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Proc Natl Acad Sci U S A. 2018 Mar 20;115(12):3042-3047. doi: 10.1073/pnas.1715051115. Epub 2018 Mar 5.

Structural basis for the alternating access mechanism of the cation diffusion facilitator YiiP.

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Skirball Institute, Department of Cell Biology, New York University School of Medicine, New York, NY 10016.
Skirball Institute, Department of Cell Biology, New York University School of Medicine, New York, NY 10016


YiiP is a dimeric antiporter from the cation diffusion facilitator family that uses the proton motive force to transport Zn2+ across bacterial membranes. Previous work defined the atomic structure of an outward-facing conformation, the location of several Zn2+ binding sites, and hydrophobic residues that appear to control access to the transport sites from the cytoplasm. A low-resolution cryo-EM structure revealed changes within the membrane domain that were associated with the alternating access mechanism for transport. In the current work, the resolution of this cryo-EM structure has been extended to 4.1 Å. Comparison with the X-ray structure defines the differences between inward-facing and outward-facing conformations at an atomic level. These differences include rocking and twisting of a four-helix bundle that harbors the Zn2+ transport site and controls its accessibility within each monomer. As previously noted, membrane domains are closely associated in the dimeric structure from cryo-EM but dramatically splayed apart in the X-ray structure. Cysteine crosslinking was used to constrain these membrane domains and to show that this large-scale splaying was not necessary for transport activity. Furthermore, dimer stability was not compromised by mutagenesis of elements in the cytoplasmic domain, suggesting that the extensive interface between membrane domains is a strong determinant of dimerization. As with other secondary transporters, this interface could provide a stable scaffold for movements of the four-helix bundle that confers alternating access of these ions to opposite sides of the membrane.


alternating access mechanism; cryo-EM; cysteine crosslinking; membrane transport; zinc homeostasis

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