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Literature DB >> 26044768

A 3D-RISM/RISM study of the oseltamivir binding efficiency with the wild-type and resistance-associated mutant forms of the viral influenza B neuraminidase.

Jiraphorn Phanich¹, Thanyada Rungrotmongkol^2,3, Daniel Sindhikara⁴, Saree Phongphanphanee⁵, Norio Yoshida⁶, Fumio Hirata⁷, Nawee Kungwan⁸, Supot Hannongbua¹.

Abstract

The binding affinity of oseltamivir to the influenza B neuraminidase and to its variants with three single substitutions, E119G, R152K, and D198N, is investigated by the MM/3D-RISM method. The binding affinity or the binding free energy of ligand to receptor was found to be determined by a subtle balance of two major contributions that largely cancel out each other: the ligand-receptor interactions and the dehydration free energy. The theoretical results of the binding affinity of the drug to the mutants reproduced the observed trend in the resistivity, measured by IC50 ; the high-level resistance of E119G and R152K, and the low-level resistance of D198N. For E119G and R152K, reduction of the direct drug-target interaction, especially at the mutated residue, is the main source of high-level oseltamivir resistance. This phenomenon, however, is not found in the D198N strain, which is located in the framework of the active-site.

Entities: Chemical Disease Gene Mutation

Keywords: 3D-RISM; dehydration penalty; influenza B virus; neuraminidase; oseltamivir resistance

Mesh：

Substances：
Oseltamivir
Neuraminidase

Year: 2015 PMID： 26044768 PMCID： PMC4815323 DOI： 10.1002/pro.2718

Source DB: PubMed Journal: Protein Sci ISSN： 0961-8368 Impact factor: 6.725

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