| Literature DB >> 30686666 |
Kamal Kant Sharma1, Xin-Xiang Lim1, Sarala Neomi Tantirimudalige1, Anjali Gupta1, Jan K Marzinek2, Daniel Holdbrook2, Xin Ying Elisa Lim3, Peter J Bond2, Ganesh S Anand1, Thorsten Wohland4.
Abstract
Dengue is a mosquito-borne virus with dire health and economic impacts. Dengue is responsible for an estimated 390 million infections per year, with dengue 2 (DENV2) being the most virulent strain among the four serotypes. Interestingly, it is also in strains of this serotype that temperature-dependent large-scale morphological changes, termed "breathing," have been observed. Although the structure of these morphologies has been solved to 3.5-Å resolution, the dynamics of the viral envelope are unknown. Here, we combine fluorescence and mass spectrometry with molecular dynamics simulations to provide insights into DENV2 (NGC strain) structural dynamics in comparison with DENV1 (PVP 159). We observe hitherto unseen conformational changes and structural dynamics of the DENV2 envelope that are influenced by both temperature and divalent cations. Our results show that for DENV2 and DENV1 the intrinsic dynamics, but not the specific morphologies, are correlated with viral infectivity.Entities:
Keywords: FRET-FCS; amide hydrogen/deuterium exchange; cation-dependent changes; conformational locking; dengue virus breathing; fluorescence; temperature-dependent changes; time-resolved FRET; viral dynamics; viral morphology
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Year: 2019 PMID: 30686666 DOI: 10.1016/j.str.2018.12.006
Source DB: PubMed Journal: Structure ISSN: 0969-2126 Impact factor: 5.006