Literature DB >> 26499499

Molecular modeling studies demonstrate key mutations that could affect the ligand recognition by influenza AH1N1 neuraminidase.

Gema L Ramírez-Salinas1, J García-Machorro2, Miguel Quiliano3, Mirko Zimic3, Verónica Briz4, Saul Rojas-Hernández5, J Correa-Basurto6.   

Abstract

The goal of this study was to identify neuraminidase (NA) residue mutants from human influenza AH1N1 using sequences from 1918 to 2012. Multiple alignment studies of complete NA sequences (5732) were performed. Subsequently, the crystallographic structure of the 1918 influenza (PDB ID: 3BEQ-A) was used as a wild-type structure and three-dimensional (3-D) template for homology modeling of the mutated selected NA sequences. The 3-D mutated NAs were refined using molecular dynamics (MD) simulations (50 ns). The refined 3-D models were used to perform docking studies using oseltamivir. Multiple sequence alignment studies showed seven representative mutations (A232V, K262R, V263I, T264V, S367L, S369N, and S369K). MD simulations applied to 3-D NAs showed that each NA had different active-site shapes according to structural surface visualization and docking results. Moreover, Cartesian principal component analyses (cPCA) show structural differences among these NA structures caused by mutations. These theoretical results suggest that the selected mutations that are located outside of the active site of NA could affect oseltamivir recognition and could be associated with resistance to oseltamivir.

Entities:  

Keywords:  Docking; Influenza A H1N1; Molecular dynamics simulations; Mutations; Neuraminidase

Mesh:

Substances:

Year:  2015        PMID: 26499499     DOI: 10.1007/s00894-015-2835-6

Source DB:  PubMed          Journal:  J Mol Model        ISSN: 0948-5023            Impact factor:   1.810


  38 in total

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9.  Molecular distribution of amino acid substitutions on neuraminidase from the 2009 (H1N1) human influenza pandemic virus.

Authors:  Miguelmiguel Quiliano; Hugo Valdivia-Olarte; Carlos Olivares; David Requena; Andrés H Gutiérrez; Paola Reyes-Loyola; Luis E Tolentino-Lopez; Patricia Sheen; Verónica Briz; Maria A Muñoz-Fernández; José Correa-Basurto; Mirko Zimic
Journal:  Bioinformation       Date:  2013-07-17

10.  MUSCLE: a multiple sequence alignment method with reduced time and space complexity.

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Journal:  BMC Bioinformatics       Date:  2004-08-19       Impact factor: 3.169
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  2 in total

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2.  Whole Genome Sequencing of A(H3N2) Influenza Viruses Reveals Variants Associated with Severity during the 2016⁻2017 Season.

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