Modeling the full length HIV-1 Gag polyprotein reveals the role of its p6 subunit in viral maturation and the effect of non-cleavage site mutations in protease drug resistance
HIV polyprotein Gag is increasingly found to contribute to protease inhibitor resistance. Despite its role in viral maturation and in developing drug resistance, there remain gaps in the knowledge of the role of certain Gag subunits (e.g. p6), and that of non-cleavage mutations in drug resistance. A...
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sg-ntu-dr.10356-1415392020-06-09T03:33:54Z Modeling the full length HIV-1 Gag polyprotein reveals the role of its p6 subunit in viral maturation and the effect of non-cleavage site mutations in protease drug resistance Su, Chinh Tran-To Kwoh, Chee-Keong Verma, Chandra Shekhar Gan, Samuel Ken-En School of Computer Science and Engineering Engineering::Computer science and engineering Full Length HIV-1 Gag Structure P6 Subunit HIV polyprotein Gag is increasingly found to contribute to protease inhibitor resistance. Despite its role in viral maturation and in developing drug resistance, there remain gaps in the knowledge of the role of certain Gag subunits (e.g. p6), and that of non-cleavage mutations in drug resistance. As p6 is flexible, it poses a problem for structural experiments, and is hence often omitted in experimental Gag structural studies. Nonetheless, as p6 is an indispensable component for viral assembly and maturation, we have modeled the full length Gag structure based on several experimentally determined constraints and studied its structural dynamics. Our findings suggest that p6 can mechanistically modulate Gag conformations. In addition, the full length Gag model reveals that allosteric communication between the non-cleavage site mutations and the first Gag cleavage site could possibly result in protease drug resistance, particularly in the absence of mutations in Gag cleavage sites. Our study provides a mechanistic understanding to the structural dynamics of HIV-1 Gag, and also proposes p6 as a possible drug target in anti-HIV therapy. ASTAR (Agency for Sci., Tech. and Research, S’pore) 2020-06-09T03:33:54Z 2020-06-09T03:33:54Z 2017 Journal Article Su, C. T.-T., Kwoh, C.-K., Verma, C. S., & Gan, S. K.-E. (2018). Modeling the full length HIV-1 Gag polyprotein reveals the role of its p6 subunit in viral maturation and the effect of non-cleavage site mutations in protease drug resistance. Journal of Biomolecular Structure and Dynamics, 36(16), 4366-4377. doi:10.1080/07391102.2017.1417160 0739-1102 https://hdl.handle.net/10356/141539 10.1080/07391102.2017.1417160 29237328 2-s2.0-85039153566 16 36 4366 4377 en Journal of Biomolecular Structure and Dynamics © 2017 Informa UK Limited, trading as Taylor & Francis Group. All rights reserved. |
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Engineering::Computer science and engineering Full Length HIV-1 Gag Structure P6 Subunit |
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Engineering::Computer science and engineering Full Length HIV-1 Gag Structure P6 Subunit Su, Chinh Tran-To Kwoh, Chee-Keong Verma, Chandra Shekhar Gan, Samuel Ken-En Modeling the full length HIV-1 Gag polyprotein reveals the role of its p6 subunit in viral maturation and the effect of non-cleavage site mutations in protease drug resistance |
| description |
HIV polyprotein Gag is increasingly found to contribute to protease inhibitor resistance. Despite its role in viral maturation and in developing drug resistance, there remain gaps in the knowledge of the role of certain Gag subunits (e.g. p6), and that of non-cleavage mutations in drug resistance. As p6 is flexible, it poses a problem for structural experiments, and is hence often omitted in experimental Gag structural studies. Nonetheless, as p6 is an indispensable component for viral assembly and maturation, we have modeled the full length Gag structure based on several experimentally determined constraints and studied its structural dynamics. Our findings suggest that p6 can mechanistically modulate Gag conformations. In addition, the full length Gag model reveals that allosteric communication between the non-cleavage site mutations and the first Gag cleavage site could possibly result in protease drug resistance, particularly in the absence of mutations in Gag cleavage sites. Our study provides a mechanistic understanding to the structural dynamics of HIV-1 Gag, and also proposes p6 as a possible drug target in anti-HIV therapy. |
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School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Su, Chinh Tran-To Kwoh, Chee-Keong Verma, Chandra Shekhar Gan, Samuel Ken-En |
| format |
Article |
| author |
Su, Chinh Tran-To Kwoh, Chee-Keong Verma, Chandra Shekhar Gan, Samuel Ken-En |
| author_sort |
Su, Chinh Tran-To |
| title |
Modeling the full length HIV-1 Gag polyprotein reveals the role of its p6 subunit in viral maturation and the effect of non-cleavage site mutations in protease drug resistance |
| title_short |
Modeling the full length HIV-1 Gag polyprotein reveals the role of its p6 subunit in viral maturation and the effect of non-cleavage site mutations in protease drug resistance |
| title_full |
Modeling the full length HIV-1 Gag polyprotein reveals the role of its p6 subunit in viral maturation and the effect of non-cleavage site mutations in protease drug resistance |
| title_fullStr |
Modeling the full length HIV-1 Gag polyprotein reveals the role of its p6 subunit in viral maturation and the effect of non-cleavage site mutations in protease drug resistance |
| title_full_unstemmed |
Modeling the full length HIV-1 Gag polyprotein reveals the role of its p6 subunit in viral maturation and the effect of non-cleavage site mutations in protease drug resistance |
| title_sort |
modeling the full length hiv-1 gag polyprotein reveals the role of its p6 subunit in viral maturation and the effect of non-cleavage site mutations in protease drug resistance |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/141539 |
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1681057803824791552 |