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Insights into the Dynamics and Dissociation Mechanism of a Protein Redox Complex Using Molecular Dynamics.


ABSTRACT: Leishmania major peroxidase (LmP) is structurally and functionally similar to the well-studied yeast Cytochrome c peroxidase (CCP). A recent Brownian dynamics study showed that L. major Cytochrome c (LmCytc) associates with LmP by forming an initial complex with the N-terminal helix A of LmP, followed by a movement toward the electron transfer (ET) site observed in the LmP-LmCytc crystal structure. Critical to forming the active electron transfer complex is an intermolecular Arg-Asp ion pair at the center of the interface. If the dissociation reaction is effectively the reverse of the association reaction, then rupture of the Asp-Arg ion pair should be followed by movement of LmCytc back toward LmP helix A. To test this possibility, we have performed multiple molecular dynamics (MD) simulations of the LmP-LmCytc complex. In five separate simulations, LmCytc is observed to indeed move toward helix A, and in two of the simulations, the Asp-Arg ion pair breaks, which frees LmCytc to fully associate with the LmP helix A secondary binding site. These results support the "bind and crawl" or "velcro" mechanism of association, wherein LmCytc forms a nonspecific electrostatic complex with LmP helix A, followed by a "crawl" toward the ET-active site, where the Asp-Arg ion pair holds the LmCytc in position for rapid ET. These simulations also point to Tyr134LmP as being important in the association/dissociation reactions. Experimentally mutating Tyr134 to Phe was found to decrease Km by 3.6-fold, which is consistent with its predicted role in complex formation by MD simulations.

SUBMITTER: Hollingsworth SA 

PROVIDER: S-EPMC5671774 | biostudies-literature | 2017 Sep

REPOSITORIES: biostudies-literature

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Insights into the Dynamics and Dissociation Mechanism of a Protein Redox Complex Using Molecular Dynamics.

Hollingsworth Scott A SA   Nguyen Brian D BD   Chreifi Georges G   Arce Anton P AP   Poulos Thomas L TL  

Journal of chemical information and modeling 20170912 9


Leishmania major peroxidase (LmP) is structurally and functionally similar to the well-studied yeast Cytochrome c peroxidase (CCP). A recent Brownian dynamics study showed that L. major Cytochrome c (LmCytc) associates with LmP by forming an initial complex with the N-terminal helix A of LmP, followed by a movement toward the electron transfer (ET) site observed in the LmP-LmCytc crystal structure. Critical to forming the active electron transfer complex is an intermolecular Arg-Asp ion pair at  ...[more]

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