Abstract
The interaction between Cu2+ and the copper-binding octapeptide region in the human prion protein has been investigated by molecular dynamics simulations. In total four different nonbonded and bonded models were used in the study. Charge sets containing atomic partial charges were developed for these models. Out of the considered models, the bonded model performed physically in the most correct way. The simulations with the bonded model showed that the water molecules in the axial position are very labile. The tryptophan indole ring can remain in a stable position on top of the equatorial coordination plane of copper without water mediation. Strong aromatic interaction was observed between the imidazole and indole rings. The nonbonded models showed a tendency for water-mediated interaction between the copper ion and different carbonyl oxygen atoms. In the case of the bonded model, a carbonyl group could also interact directly with the copper ion in one of the apical position.
Keywords
CopperIndole testImidazoleChemistryMolecular dynamicsRing (chemistry)IonTryptophanCrystallographyPosition (finance)MoleculeComputational chemistryPartial chargeChemical physicsStereochemistryOrganic chemistryAmino acid
Affiliated Institutions
Related Publications
Derivation of Fixed Partial Charges for Amino Acids Accommodating a Specific Water Model and Implicit Polarization
We have developed the IPolQ method for fitting nonpolarizable point charges to implicitly represent the energy of polarization for systems in pure water. The method involves ite...
CHARMM fluctuating charge force field for proteins: I parameterization and application to bulk organic liquid simulations
Abstract A first‐generation fluctuating charge (FQ) force field to be ultimately applied for protein simulations is presented. The electrostatic model parameters, the atomic har...
Simulations of a Protein Crystal with a High Resolution X-ray Structure: Evaluation of Force Fields and Water Models
We use classical molecular dynamics and 16 combinations of force fields and water models to simulate a protein crystal observed by room-temperature X-ray diffraction. The high r...
Calculations of the Electric Fields in Liquid Solutions
The electric field created by a condensed-phase environment is a powerful and convenient descriptor for intermolecular interactions. Not only does it provide a unifying language...
CHARMM fluctuating charge force field for proteins: II Protein/solvent properties from molecular dynamics simulations using a nonadditive electrostatic model
Abstract A fluctuating charge (FQ) force field is applied to molecular dynamics simulations for six small proteins in explicit polarizable solvent represented by the TIP4P‐FQ po...
Publication Info
- Year
- 2007
- Type
- article
- Volume
- 111
- Issue
- 35
- Pages
- 10529-10537
- Citations
- 17
- Access
- Closed
External Links
Social Impact
Altmetric
PlumX Metrics
Social media, news, blog, policy document mentions
Citation Metrics
17
OpenAlex
Cite This
Eva-Stina Riihimäki,
José M. Martı́nez,
Lars Kloo
(2007).
Molecular Dynamics Simulations of Cu(II) and the PHGGGWGQ Octapeptide.
The Journal of Physical Chemistry B
, 111
(35)
, 10529-10537.
https://doi.org/10.1021/jp072672i
Identifiers
- DOI
- 10.1021/jp072672i