Copper Oxidation/Reduction in Water and Protein: Studies with DFTB3/MM and VALBOND Molecular Dynamics Simulations

Jin, Haiyun; Goyal, Puja; Das, Akshaya Kumar; Gaus, Michael; Meuwly, Markus; Cui, Qiang

doi:10.1021/acs.jpcb.5b09656

Cited by 22 publications

(34 citation statements)

References 132 publications

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“…In this state, the protein has a rich spectroscopy, and has been studied by several different spectroscopic techniques including electronic absorption, circular dichroism, magnetic circular dichroism, and x‐ray absorption spectroscopies . Alongside these experimental measurements there have been numerous theoretical studies with a wide variety of different levels of approximation . These studies have led to an understanding of the nature of the observed spectroscopic features and detailed insight into the electronic structure of the active site.…”

Section: Introductionmentioning

confidence: 99%

“…Deeth studied the oxidized form of a range of blue copper proteins, including plastocyanin, with ligand field molecular mechanics (LFMM) and found an entatic strain energy of about 10 kcal mol −1 . Further hybrid quantum mechanics/molecular mechanics (QM/MM) approaches and implicit models of the protein environment have been used to obtain optimized geometries of each state.…”

Section: Introductionmentioning

confidence: 99%

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A QM/MM study of the nature of the entatic state in plastocyanin

2016

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Plastocyanin is a copper containing protein that is involved in the electron transfer process in photosynthetic organisms. The active site of plastocyanin is described as an entatic state whereby its structure represents a compromise between the structures favored by the oxidized and reduced forms. In this study, the nature of the entatic state is investigated through density functional theory‐based hybrid quantum mechanics/molecular mechanics (QM/MM) molecular dynamics simulations. The strain energy is computed to be 12.8 kcal/mol and 14.5 kcal/mol for the oxidized and reduced forms of the protein, indicating that the active site has an intermediate structure. It is shown that the energy gap between the oxidized and reduced forms varies significantly with the fluctuations in the structure of the active site at room temperature. An accurate determination of the reorganization energy requires averaging over conformation and a large region of the protein around the active site to be treated at the quantum mechanical level. © 2016 The Authors. Journal of Computational Chemistry Published by Wiley Periodicals, Inc.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A QM/MM study of the nature of the entatic state in plastocyanin

2016

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“…Both processes can be cast within the framework of MS-ARMD 67,234 but alternative techniques have also been employed. Typical applications are the investigation of the change in the solvent structure around metal-complexes [235][236][237][238][239] or the spectroscopic signatures accompanying proton transfer, 68,69,[240][241][242][243][244][245] or the energetics of proton transfer in proteins. 246 A field by itself is the investigation of proton transfer in bulk water for which a myriad of FF-based techniques have been developed.…”

Section: Discussionmentioning

confidence: 99%

Reactive molecular dynamics: From small molecules to proteins

Meuwly

2018

WIREs Comput Mol Sci

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The current status of reactive molecular dynamics (MD) simulations is summarized. Both, methodological aspects and applications to problems ranging from gas phase reaction dynamics to ligand‐binding in solvated proteins are discussed, focusing on extracting information from simulations that cannot easily be obtained from experiments alone. One specific example is the structural interpretation of the ligand rebinding time scales extracted from state‐of‐the art time‐resolved experiments. Atomistic simulations employing validated reactive interaction potentials are capable of providing structural information about the time scales involved. Both, merits and shortcomings of the various methods are discussed and the outlook summarizes possible future avenues such as reactive potentials based on machine learning techniques. This article is categorized under: Molecular and Statistical Mechanics > Molecular Dynamics and Monte‐Carlo Methods Theoretical and Physical Chemistry > Reaction Dynamics and Kinetics Molecular and Statistical Mechanics > Molecular Interactions

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“…A comprehensive description of the method can be found in the literature . It has been found that this method is successful for predicting the binding structure of biomolecule complexes involving weak interaction systems and has already been used to study the binding of biomolecules . In this work, we used the conjugate gradient algorithm for the structure optimizations, with the force convergence criterion set at 10 −4 au and the charge convergence criterion set to 10 −4 electrons.…”

Section: Models and Methodsmentioning

confidence: 99%

Design and interaction mechanism of ligand targeted with folate receptor α and β

Wang

Jiang

Fei

et al. 2017

J of Physical Organic Chem

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Four compounds 1 to 4 (folic acid, methotrexate and 2 dyes) were used to interact with folate receptor (FR)α and FRβ. The interaction structures and binding energies of the bound complexes were investigated. In order to analyze the differences between FRα and FRβ complexes, the details of the weak intermolecular interactions were analyzed, and the frontier orbital properties of the FR complexes were studied by a dispersion complemented density functional tight-binding method.By comparing the different interaction properties of the 4 compounds with FRα and FRβ, the basic strategies for design of novel compound targeted with FR subtype were suggested. Further, a novel compound with high selectively with FRα based on compound 3 was designed to illustrate our conclusion. These data should be helpful for the design of novel molecules with extreme discerningly with FRα and FRβ. For example, Chen et al [22] reported the crystal structure of human FRα bound to folic acid (FA) and indicated that FA is oriented with its basic pteroate moiety docked deep inside of the negatively charged pocket and the 2 carboxyl groups are solvent exposed and not involved in binding to FR. This research provided a template for the design of more specific drugs targeted with the FR system. Tang et al [23] combined magnetic-guided iron oxide nanoparticles with FA ligands and optimized the FA ligand density of the drug delivery system. Dong et al [24] adopted solid phase peptide synthesis to synthesize 2 isomeric copolymers, α-and γ-Fol-PEG-DSPE-DOX, and concluded that the micelles had greater antitumor effect and lower toxicity than the free DOX and MPEG-DSPE micelles. Qiao et al [25] immobilized the FA and amino-rhodamine B onto the PVDMA polymer to form a nano conjugates, RhB-PVDMA-FA, and indicated that the fluorescent nano conjugates have good biocompatibility and intracellular dispersibility and this method would be a promising candidate for optical imaging-based FR expression study. Tumor and inflammation express FRα and FRβ, respectively, but they can be targeted by folate conjugates simultaneously. Therefore, the research about the properties of folate derivative targeted with FRα and FRβ is significant. The molecular simulations could reveal that the details that could not be observed by experiment have been widely used by the researchers. For example, Sahoo et al [26] built the 3D model of bovine FOLR1 by molecular dynamics simulation, analyzed the stability of bvFOLR1-folate complex at different temperatures by binding energy calculation, and

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Copper Oxidation/Reduction in Water and Protein: Studies with DFTB3/MM and VALBOND Molecular Dynamics Simulations

Cited by 22 publications

References 132 publications

A QM/MM study of the nature of the entatic state in plastocyanin

A QM/MM study of the nature of the entatic state in plastocyanin

Reactive molecular dynamics: From small molecules to proteins

Design and interaction mechanism of ligand targeted with folate receptor α and β

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