Literature DB >> 18275812

Solution NMR structure of a designed metalloprotein and complementary molecular dynamics refinement.

Jennifer R Calhoun1, Weixia Liu, Katrin Spiegel, Matteo Dal Peraro, Michael L Klein, Kathleen G Valentine, A Joshua Wand, William F DeGrado.   

Abstract

We report the solution NMR structure of a designed dimetal-binding protein, di-Zn(II) DFsc, along with a secondary refinement step employing molecular dynamics techniques. Calculation of the initial NMR structural ensemble by standard methods led to distortions in the metal-ligand geometries at the active site. Unrestrained molecular dynamics using a nonbonded force field for the metal shell, followed by quantum mechanical/molecular mechanical dynamics of DFsc, were used to relax local frustrations at the dimetal site that were apparent in the initial NMR structure and provide a more realistic description of the structure. The MD model is consistent with NMR restraints, and in good agreement with the structural and functional properties expected for DF proteins. This work demonstrates that NMR structures of metalloproteins can be further refined using classical and first-principles molecular dynamics methods in the presence of explicit solvent to provide otherwise unavailable insight into the geometry of the metal center.

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Year:  2008        PMID: 18275812      PMCID: PMC3814030          DOI: 10.1016/j.str.2007.11.011

Source DB:  PubMed          Journal:  Structure        ISSN: 0969-2126            Impact factor:   5.006


  24 in total

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2.  Dioxygen Activation by Enzymes Containing Binuclear Non-Heme Iron Clusters.

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4.  Modeling the charge distribution at metal sites in proteins for molecular dynamics simulations.

Authors:  M Dal Peraro; Katrin Spiegel; Guillaume Lamoureux; Marco De Vivo; William F DeGrado; Michael L Klein
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5.  Crystallography & NMR system: A new software suite for macromolecular structure determination.

Authors:  A T Brünger; P D Adams; G M Clore; W L DeLano; P Gros; R W Grosse-Kunstleve; J S Jiang; J Kuszewski; M Nilges; N S Pannu; R J Read; L M Rice; T Simonson; G L Warren
Journal:  Acta Crystallogr D Biol Crystallogr       Date:  1998-09-01

6.  Protein backbone angle restraints from searching a database for chemical shift and sequence homology.

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7.  Artificial di-iron proteins: solution characterization of four helix bundles containing two distinct types of inter-helical loops.

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Journal:  J Biol Inorg Chem       Date:  2005-09-23       Impact factor: 3.358

8.  Retrostructural analysis of metalloproteins: application to the design of a minimal model for diiron proteins.

Authors:  A Lombardi; C M Summa; S Geremia; L Randaccio; V Pavone; W F DeGrado
Journal:  Proc Natl Acad Sci U S A       Date:  2000-06-06       Impact factor: 11.205

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Authors:  Garegin A Papoian; William F DeGrado; Michael L Klein
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  20 in total

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Journal:  Coord Chem Rev       Date:  2013-09       Impact factor: 22.315

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Authors:  Jeffery G Saven
Journal:  Curr Opin Chem Biol       Date:  2011-04-12       Impact factor: 8.822

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Authors:  Alexander Paredes; Olivia M Peduzzi; Amanda J Reig; Katherine M Buettner
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4.  Spin-Polarization-Induced Preedge Transitions in the Sulfur K-Edge XAS Spectra of Open-Shell Transition-Metal Sulfates: Spectroscopic Validation of σ-Bond Electron Transfer.

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5.  Protein design: Engineering di-iron enzymes.

Authors:  Steven M Berry
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6.  Hierarchical cascades of instability govern the mechanics of coiled coils: helix unfolding precedes coil unzipping.

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Review 7.  Protein design: toward functional metalloenzymes.

Authors:  Fangting Yu; Virginia M Cangelosi; Melissa L Zastrow; Matteo Tegoni; Jefferson S Plegaria; Alison G Tebo; Catherine S Mocny; Leela Ruckthong; Hira Qayyum; Vincent L Pecoraro
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8.  Prediction of structures of zinc-binding proteins through explicit modeling of metal coordination geometry.

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9.  Spectroscopic definition of the biferrous and biferric sites in de novo designed four-helix bundle DFsc peptides: implications for O2 reactivity of binuclear non-heme iron enzymes.

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10.  Oxygen reactivity of the biferrous site in the de novo designed four helix bundle peptide DFsc: nature of the "intermediate" and reaction mechanism.

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Journal:  J Am Chem Soc       Date:  2008-06-24       Impact factor: 15.419
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