The Symmetric Difference Distance: A New Way to Evaluate the Evolution of Interfaces along Molecular Dynamics Trajectories;Application to Influenza Hemagglutinin

The Symmetric Difference Distance: A New Way to Evaluate the Evolution of Interfaces along Molecular Dynamics Trajectories;Application to Influenza Hemagglutinin

We propose a new and easy approach to evaluate structural dissimilarities between frames issued from molecular dynamics, and we test this methodology on human hemagglutinin. This protein is responsible for the entry of the influenza virus into the host cell by endocytosis, and this virus causes seas...

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Main Authors: Valentin Ozeel, Aurélie Perrier, Anne Vanet, Michel Petitjean
Format: Article
Language:English
Published: MDPI AG 2019-05-01
Series:Symmetry
Subjects:
macromolecular interfaces
PPI
symmetric difference distance
influenza hemagglutinin
molecular dynamics simulation
Online Access:https://www.mdpi.com/2073-8994/11/5/662
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spelling doaj-3bf44218fbfb416da803fb4bb0bc9cf82020-11-25T01:31:22ZengMDPI AGSymmetry2073-89942019-05-0111566210.3390/sym11050662sym11050662The Symmetric Difference Distance: A New Way to Evaluate the Evolution of Interfaces along Molecular Dynamics Trajectories;Application to Influenza HemagglutininValentin Ozeel0Aurélie Perrier1Anne Vanet2Michel Petitjean3E-pôle de Génoinformatique, CNRS UMR 7592, Institut Jacques Monod, F-75013 Paris, FranceE-pôle de Génoinformatique, CNRS UMR 7592, Institut Jacques Monod, F-75013 Paris, FranceE-pôle de Génoinformatique, CNRS UMR 7592, Institut Jacques Monod, F-75013 Paris, FranceE-pôle de Génoinformatique, CNRS UMR 7592, Institut Jacques Monod, F-75013 Paris, FranceWe propose a new and easy approach to evaluate structural dissimilarities between frames issued from molecular dynamics, and we test this methodology on human hemagglutinin. This protein is responsible for the entry of the influenza virus into the host cell by endocytosis, and this virus causes seasonal epidemics of infectious disease, which can be estimated to result in hundreds of thousands of deaths each year around the world. We computed the three interfaces between the three protomers of the hemagglutinin H1 homotrimer (PDB code: 1RU7) for each of its conformations generated from molecular dynamics simulation. For each conformation, we considered the set of residues involved in the union of these three interfaces. The dissimilarity between each pair of conformations was measured with our new methodology, the symmetric difference distance between the associated set of residues. The main advantages of the full procedure are: (i) it is parameter free; (ii) no spatial alignment is needed and (iii) it is simple enough so that it can be implemented by a beginner in programming. It is shown to be a relevant tool to follow the evolution of the conformation along the molecular dynamics trajectories.https://www.mdpi.com/2073-8994/11/5/662macromolecular interfacesPPIsymmetric difference distanceinfluenza hemagglutininmolecular dynamics simulation
collection DOAJ
language English
format Article
sources DOAJ
author Valentin Ozeel
Aurélie Perrier
Anne Vanet
Michel Petitjean
spellingShingle Valentin Ozeel
Aurélie Perrier
Anne Vanet
Michel Petitjean
The Symmetric Difference Distance: A New Way to Evaluate the Evolution of Interfaces along Molecular Dynamics Trajectories;Application to Influenza Hemagglutinin
Symmetry
macromolecular interfaces
PPI
symmetric difference distance
influenza hemagglutinin
molecular dynamics simulation
author_facet Valentin Ozeel
Aurélie Perrier
Anne Vanet
Michel Petitjean
author_sort Valentin Ozeel
title The Symmetric Difference Distance: A New Way to Evaluate the Evolution of Interfaces along Molecular Dynamics Trajectories;Application to Influenza Hemagglutinin
title_short The Symmetric Difference Distance: A New Way to Evaluate the Evolution of Interfaces along Molecular Dynamics Trajectories;Application to Influenza Hemagglutinin
title_full The Symmetric Difference Distance: A New Way to Evaluate the Evolution of Interfaces along Molecular Dynamics Trajectories;Application to Influenza Hemagglutinin
title_fullStr The Symmetric Difference Distance: A New Way to Evaluate the Evolution of Interfaces along Molecular Dynamics Trajectories;Application to Influenza Hemagglutinin
title_full_unstemmed The Symmetric Difference Distance: A New Way to Evaluate the Evolution of Interfaces along Molecular Dynamics Trajectories;Application to Influenza Hemagglutinin
title_sort symmetric difference distance: a new way to evaluate the evolution of interfaces along molecular dynamics trajectories;application to influenza hemagglutinin
publisher MDPI AG
series Symmetry
issn 2073-8994
publishDate 2019-05-01
description We propose a new and easy approach to evaluate structural dissimilarities between frames issued from molecular dynamics, and we test this methodology on human hemagglutinin. This protein is responsible for the entry of the influenza virus into the host cell by endocytosis, and this virus causes seasonal epidemics of infectious disease, which can be estimated to result in hundreds of thousands of deaths each year around the world. We computed the three interfaces between the three protomers of the hemagglutinin H1 homotrimer (PDB code: 1RU7) for each of its conformations generated from molecular dynamics simulation. For each conformation, we considered the set of residues involved in the union of these three interfaces. The dissimilarity between each pair of conformations was measured with our new methodology, the symmetric difference distance between the associated set of residues. The main advantages of the full procedure are: (i) it is parameter free; (ii) no spatial alignment is needed and (iii) it is simple enough so that it can be implemented by a beginner in programming. It is shown to be a relevant tool to follow the evolution of the conformation along the molecular dynamics trajectories.
topic macromolecular interfaces
PPI
symmetric difference distance
influenza hemagglutinin
molecular dynamics simulation
url https://www.mdpi.com/2073-8994/11/5/662
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