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Literature DB >> 26642258

The Fragment Molecular Orbital Method Reveals New Insight into the Chemical Nature of GPCR-Ligand Interactions.

Alexander Heifetz¹, Ewa I Chudyk¹, Laura Gleave¹, Matteo Aldeghi², Vadim Cherezov^3,4, Dmitri G Fedorov⁵, Philip C Biggin², Mike J Bodkin¹.

Abstract

Our interpretation of ligand-protein interactions is often informed by high-resolution structures, which represent the cornerstone of structure-based drug design. However, visual inspection and molecular mechanics approaches cannot explain the full complexity of molecular interactions. Quantum Mechanics approaches are often too computationally expensive, but one method, Fragment Molecular Orbital (FMO), offers an excellent compromise and has the potential to reveal key interactions that would otherwise be hard to detect. To illustrate this, we have applied the FMO method to 18 Class A GPCR-ligand crystal structures, representing different branches of the GPCR genome. Our work reveals key interactions that are often omitted from structure-based descriptions, including hydrophobic interactions, nonclassical hydrogen bonds, and the involvement of backbone atoms. This approach provides a more comprehensive picture of receptor-ligand interactions than is currently used and should prove useful for evaluation of the chemical nature of ligand binding and to support structure-based drug design.

Entities: Chemical Gene

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Year: 2015 PMID： 26642258 DOI： 10.1021/acs.jcim.5b00644

Source DB: PubMed Journal: J Chem Inf Model ISSN： 1549-9596 Impact factor: 4.956

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Cited

16 in total

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4. Investigation of protein-protein interactions and hot spot region between PD-1 and PD-L1 by fragment molecular orbital method.

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5. Exploring the mechanism of olfactory recognition in the initial stage by modeling the emission spectrum of electron transfer.

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Journal: PLoS One Date: 2020-01-10 Impact factor: 3.240

Review 6. Using the fragment molecular orbital method to investigate agonist-orexin-2 receptor interactions.

Authors: Alexander Heifetz; Matteo Aldeghi; Ewa I Chudyk; Dmitri G Fedorov; Mike J Bodkin; Philip C Biggin
Journal: Biochem Soc Trans Date: 2016-04-15 Impact factor: 5.407

7. Rapid and accurate assessment of GPCR-ligand interactions Using the fragment molecular orbital-based density-functional tight-binding method.

Authors: Inaki Morao; Dmitri G Fedorov; Roger Robinson; Michelle Southey; Andrea Townsend-Nicholson; Mike J Bodkin; Alexander Heifetz
Journal: J Comput Chem Date: 2017-07-04 Impact factor: 3.376