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Zinc Dependent Conformational Changes in the Cation Diffusion Facilitator YiiP from S. oneidensis
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AbstractYiiP is a secondary transporter that couples Zn2+transport to the proton motive force. Structural studies of YiiP from prokaryotes as well as Znt8 from humans revealed three different Zn2+sites and a conserved homodimeric architecture. These structures define the inward-facing and outward-facing states that characterize the archetypal alternating access mechanism of transport. To study effects of Zn2+binding on the conformational transition, we have used a YiiP/Fab complex for single-particle cryo-EM together with Molecular Dynamics simulation to compare structures of YiiP fromS. oneidensisin presence and absence of Zn2+. Without Zn2+, YiiP exhibits enhanced flexibility and adopts a novel conformation that appears to be an intermediate state. The transition closes a hydrophobic gate and is controlled by the Zn2+site at the cytoplasmic membrane interface. This work enhances our understanding of individual Zn2+binding sites and their role in the conformational dynamics that governs the transport cycle.
Cold Spring Harbor Laboratory
Title: Zinc Dependent Conformational Changes in the Cation Diffusion Facilitator YiiP from S. oneidensis
Description:
AbstractYiiP is a secondary transporter that couples Zn2+transport to the proton motive force.
Structural studies of YiiP from prokaryotes as well as Znt8 from humans revealed three different Zn2+sites and a conserved homodimeric architecture.
These structures define the inward-facing and outward-facing states that characterize the archetypal alternating access mechanism of transport.
To study effects of Zn2+binding on the conformational transition, we have used a YiiP/Fab complex for single-particle cryo-EM together with Molecular Dynamics simulation to compare structures of YiiP fromS.
oneidensisin presence and absence of Zn2+.
Without Zn2+, YiiP exhibits enhanced flexibility and adopts a novel conformation that appears to be an intermediate state.
The transition closes a hydrophobic gate and is controlled by the Zn2+site at the cytoplasmic membrane interface.
This work enhances our understanding of individual Zn2+binding sites and their role in the conformational dynamics that governs the transport cycle.
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