Allosteric conformational changes of human HBV core protein transform its assembly

Allosteric conformational changes of human HBV core protein transform its assembly

Abstract Hepatitis B Virus core protein (HBc) has multiple roles in the viral lifecycle: viral assembly, compartment for reverse transcription, intracellular trafficking, and nuclear functions. HBc displays assembly polymorphism - it can assemble into icosahedral capsid and aberrant non-capsid struc...

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Main Authors: Chuang Liu, Guizhen Fan, Zhao Wang, Hong-Song Chen, Chang-Cheng Yin
Format: Article
Language:English
Published: Nature Publishing Group 2017-05-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-01568-9
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spelling doaj-ddc1888260914bea9de0fc52e2d7833e2020-12-08T01:13:14ZengNature Publishing GroupScientific Reports2045-23222017-05-01711910.1038/s41598-017-01568-9Allosteric conformational changes of human HBV core protein transform its assemblyChuang Liu0Guizhen Fan1Zhao Wang2Hong-Song Chen3Chang-Cheng Yin4Department of Biophysics, Peking University Health Science Centre, Peking UniversityDepartment of Biophysics, Peking University Health Science Centre, Peking UniversityDepartment of Biophysics, Peking University Health Science Centre, Peking UniversityInstitute of Hepatology, Peking University People’s Hospital, Peking UniversityDepartment of Biophysics, Peking University Health Science Centre, Peking UniversityAbstract Hepatitis B Virus core protein (HBc) has multiple roles in the viral lifecycle: viral assembly, compartment for reverse transcription, intracellular trafficking, and nuclear functions. HBc displays assembly polymorphism - it can assemble into icosahedral capsid and aberrant non-capsid structures. It has been hypothesized that the assembly polymorphism is due to allosteric conformational changes of HBc dimer, the smallest assembly unit, however, the mechanism governing the polymorphic assembly of the HBc dimer is still elusive. By using the experimental antiviral drug BAY 41-4109, we successfully transformed the HBc assembly from icosahedral capsid to helical tube. Structural analyses of HBc dimers from helical tubes, T = 4 icosahedral capsid, and sheet-like HBc ensemble revealed differences within the inter-dimer interface. Disruption of the HBc inter-dimer interface may likely promote the various assembly forms of HBc. Our work provides new structural insights into the HBV assembly mechanism and strategic guide for anti-HBV drug design.https://doi.org/10.1038/s41598-017-01568-9
collection DOAJ
language English
format Article
sources DOAJ
author Chuang Liu
Guizhen Fan
Zhao Wang
Hong-Song Chen
Chang-Cheng Yin
spellingShingle Chuang Liu
Guizhen Fan
Zhao Wang
Hong-Song Chen
Chang-Cheng Yin
Allosteric conformational changes of human HBV core protein transform its assembly
Scientific Reports
author_facet Chuang Liu
Guizhen Fan
Zhao Wang
Hong-Song Chen
Chang-Cheng Yin
author_sort Chuang Liu
title Allosteric conformational changes of human HBV core protein transform its assembly
title_short Allosteric conformational changes of human HBV core protein transform its assembly
title_full Allosteric conformational changes of human HBV core protein transform its assembly
title_fullStr Allosteric conformational changes of human HBV core protein transform its assembly
title_full_unstemmed Allosteric conformational changes of human HBV core protein transform its assembly
title_sort allosteric conformational changes of human hbv core protein transform its assembly
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-05-01
description Abstract Hepatitis B Virus core protein (HBc) has multiple roles in the viral lifecycle: viral assembly, compartment for reverse transcription, intracellular trafficking, and nuclear functions. HBc displays assembly polymorphism - it can assemble into icosahedral capsid and aberrant non-capsid structures. It has been hypothesized that the assembly polymorphism is due to allosteric conformational changes of HBc dimer, the smallest assembly unit, however, the mechanism governing the polymorphic assembly of the HBc dimer is still elusive. By using the experimental antiviral drug BAY 41-4109, we successfully transformed the HBc assembly from icosahedral capsid to helical tube. Structural analyses of HBc dimers from helical tubes, T = 4 icosahedral capsid, and sheet-like HBc ensemble revealed differences within the inter-dimer interface. Disruption of the HBc inter-dimer interface may likely promote the various assembly forms of HBc. Our work provides new structural insights into the HBV assembly mechanism and strategic guide for anti-HBV drug design.
url https://doi.org/10.1038/s41598-017-01568-9
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