Semiempirical Quantum Mechanical Method PM6-DH2X Describes the Geometry and Energetics of CK2-Inhibitor Complexes Involving Halogen Bonds Well, While the Empirical Potential Fails

Semiempirical Quantum Mechanical Method PM6-DH2X Describes the Geometry and Energetics of CK2-Inhibitor Complexes Involving Halogen Bonds Well, While the Empirical Potential Fails

In the present study, we have investigated complexes of CK2 protein kinase with halogenated inhibitors by means of the advanced semiempirical quantum mechanical (SQM) PM6 method (called PM6-DH2X), which describes various types of noncovalent interactions including halogen bonding well. The PM6-DH2X...

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Bibliographic Details
Published in:The journal of physical chemistry. B Vol. 115; no. 26; pp. 8581 - 8589
Main Authors: Dobeš, Petr, Řezáč, Jan, Fanfrlík, Jindřich, Otyepka, Michal, Hobza, Pavel
Format: Journal Article
Language:English
Published: United States American Chemical Society 07-07-2011
Subjects:
B: Biophysical Chemistry
Bonding
Casein Kinase II - antagonists & inhibitors
Casein Kinase II - chemistry
Constants
Empirical analysis
Enzyme Inhibitors - chemistry
Enzyme Inhibitors - metabolism
Free energy
Halogenation
Halogens
Halogens - chemistry
Kinases
Models, Molecular
Molecular Structure
Protein Binding
Protein Conformation
Proteins
Quantum mechanics
Quantum Theory
Thermodynamics
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Summary:In the present study, we have investigated complexes of CK2 protein kinase with halogenated inhibitors by means of the advanced semiempirical quantum mechanical (SQM) PM6 method (called PM6-DH2X), which describes various types of noncovalent interactions including halogen bonding well. The PM6-DH2X method provides reliable geometries of those CK2 protein kinase-inhibitor complexes involving halogen bonds that agree well with the X-ray crystal structures. When the Amber empirical potential is applied, this agreement becomes considerably worse. Similarly, the binding free energies determined by the PM6-DH2X SQM method are much closer to the experimental inhibition constants than those based on the Amber empirical potential.
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ISSN:1520-6106
1520-5207
DOI:10.1021/jp202149z