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Modeling structural coordination and ligand binding in zinc proteins with a polarizable potential

Publication ,  Journal Article
Zhang, J; Yang, W; Piquemal, JP; Ren, P
Published in: Journal of Chemical Theory and Computation
2012

As the second most abundant cation in the human body, zinc is vital for the structures and functions of many proteins. Zinc-containing matrix metalloproteinases (MMPs) have been widely investigated as potential drug targets in a range of diseases ranging from cardiovascular disorders to cancers. However, it remains a challenge in theoretical studies to treat zinc in proteins with classical mechanics. In this study, we examined Zn 2+ coordination with organic compounds and protein side chains using a polarizable atomic multipole-based electrostatic model. We find that the polarization effect plays a determining role in Zn 2+ coordination geometry in both matrix metalloproteinase (MMP) complexes and zinc-finger proteins. In addition, the relative binding free energies of selected inhibitors binding with MMP13 have been estimated and compared with experimental results. While not directly interacting with the small molecule inhibitors, the permanent and polarizing field of Zn 2+ exerts a strong influence on the relative affinities of the ligands. The simulation results also reveal that the polarization effect on binding is ligand-dependent and thus difficult to incorporate into fixed-charge models implicitly. © 2012 American Chemical Society.

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Published In

Journal of Chemical Theory and Computation

DOI

ISSN

1549-9618

Publication Date

2012

Volume

8

Issue

4

Start / End Page

1314 / 1324

Related Subject Headings

  • Chemical Physics
  • 3407 Theoretical and computational chemistry
  • 3406 Physical chemistry
  • 0803 Computer Software
  • 0601 Biochemistry and Cell Biology
  • 0307 Theoretical and Computational Chemistry
 

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Zhang, J., Yang, W., Piquemal, J. P., & Ren, P. (2012). Modeling structural coordination and ligand binding in zinc proteins with a polarizable potential. Journal of Chemical Theory and Computation, 8(4), 1314–1324. https://doi.org/10.1021/ct200812y
Zhang, J., W. Yang, J. P. Piquemal, and P. Ren. “Modeling structural coordination and ligand binding in zinc proteins with a polarizable potential.” Journal of Chemical Theory and Computation 8, no. 4 (2012): 1314–24. https://doi.org/10.1021/ct200812y.
Zhang J, Yang W, Piquemal JP, Ren P. Modeling structural coordination and ligand binding in zinc proteins with a polarizable potential. Journal of Chemical Theory and Computation. 2012;8(4):1314–24.
Zhang, J., et al. “Modeling structural coordination and ligand binding in zinc proteins with a polarizable potential.” Journal of Chemical Theory and Computation, vol. 8, no. 4, 2012, pp. 1314–24. Scival, doi:10.1021/ct200812y.
Zhang J, Yang W, Piquemal JP, Ren P. Modeling structural coordination and ligand binding in zinc proteins with a polarizable potential. Journal of Chemical Theory and Computation. 2012;8(4):1314–1324.
Journal cover image

Published In

Journal of Chemical Theory and Computation

DOI

ISSN

1549-9618

Publication Date

2012

Volume

8

Issue

4

Start / End Page

1314 / 1324

Related Subject Headings

  • Chemical Physics
  • 3407 Theoretical and computational chemistry
  • 3406 Physical chemistry
  • 0803 Computer Software
  • 0601 Biochemistry and Cell Biology
  • 0307 Theoretical and Computational Chemistry