Abstract

BackgroundDengue virus along with the other members of the flaviviridae family has reemerged as deadly human pathogens. Understanding the mechanistic details of these infections can be highly rewarding in developing effective antivirals. During maturation of the virus inside the host cell, the coat proteins E and M undergo conformational changes, altering the morphology of the viral coat. However, due to low resolution nature of the available 3-D structures of viral assemblies, the atomic details of these changes are still elusive.ResultsIn the present analysis, starting from Cα positions of low resolution cryo electron microscopic structures the residue level details of protein-protein interaction interfaces of dengue virus coat proteins have been predicted. By comparing the preexisting structures of virus in different phases of life cycle, the changes taking place in these predicted protein-protein interaction interfaces were followed as a function of maturation process of the virus. Besides changing the current notion about the presence of only homodimers in the mature viral coat, the present analysis indicated presence of a proline-rich motif at the protein-protein interaction interface of the coat protein. Investigating the conservation status of these seemingly functionally crucial residues across other members of flaviviridae family enabled dissecting common mechanisms used for infections by these viruses.ConclusionsThus, using computational approach the present analysis has provided better insights into the preexisting low resolution structures of virus assemblies, the findings of which can be made use of in designing effective antivirals against these deadly human pathogens.

Highlights

  • Dengue virus along with the other members of the flaviviridae family has reemerged as deadly human pathogens

  • Structures of dengue viral coat proteins In the present study, low resolution structures of dengue viruses have been subjected to the analysis described in our earlier paper [10] to predict the protein-protein interaction interface residues in E and M coat proteins

  • The method for interface recognition is based on the solvent accessible surface area (ASA)

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Summary

Introduction

Dengue virus along with the other members of the flaviviridae family has reemerged as deadly human pathogens. Understanding the mechanistic details of these infections can be highly rewarding in developing effective antivirals. During maturation of the virus inside the host cell, the coat proteins E and M undergo conformational changes, altering the morphology of the viral coat. Due to low resolution nature of the available 3-D structures of viral assemblies, the atomic details of these changes are still elusive. There had been a resurgence of these viruses as deadly human pathogens with about 50 million infections occurring annually [1]. No vaccines or specific effective antivirals are currently available. The conventional approach towards vaccine development has not been greatly successful in these viruses[1]. Due to the presence of four different serotypes of the virus, prevention of antibody dependent enhance-

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