[NMR paper] Conformation and Trimer Association of the Transmembrane Domain of the Parainfluenza Virus Fusion Protein in Lipid Bilayers from Solid-State NMR: Insights into the Sequence Determinants of Trimer Structure and Fusion Activity.
Conformation and Trimer Association of the Transmembrane Domain of the Parainfluenza Virus Fusion Protein in Lipid Bilayers from Solid-State NMR: Insights into the Sequence Determinants of Trimer Structure and Fusion Activity.
Related ArticlesConformation and Trimer Association of the Transmembrane Domain of the Parainfluenza Virus Fusion Protein in Lipid Bilayers from Solid-State NMR: Insights into the Sequence Determinants of Trimer Structure and Fusion Activity.
J Mol Biol. 2018 Jan 09;:
Authors: Lee M, Yao H, Kwon B, Waring AJ, Ruchala P, Singh C, Hong M
Abstract
Enveloped viruses enter cells by using their fusion proteins to merge the virus lipid envelope and the cell membrane. While crystal structures of the water-soluble ectodomains of many viral fusion proteins have been determined, the structure and assembly of the C-terminal transmembrane domain (TMD) remains poorly understood. Here we use solid-state NMR to determine the backbone conformation and oligomeric structure of the TMD of the parainfluenza virus 5 (PIV5) fusion protein. 13C chemical shifts indicate that the central leucine-rich segment of the TMD is ?-helical in POPC/cholesterol membranes and POPE membranes, while the Ile- and Val-rich termini shift to the ?-strand conformation in the POPE membrane. Importantly, lipid-mixing assays indicate that the TMD is more fusogenic in the POPE membrane than in the POPC/cholesterol membrane, indicating that the ?-strand conformation is important for fusion by inducing membrane curvature. Incorporation of para-fluorinated Phe at three positions of the ?-helical core allowed us to measure interhelical distances using 19F spin diffusion NMR. The data indicate that, at peptide: lipid molar ratios of ~1: 15, the TMD forms a trimeric helical bundle with inter-helical distances of 8.2-8.4Å for L493F and L504F and 10.5Å for L500F. These data provide high-resolution evidence of trimer formation of a viral fusion protein TMD in phospholipid bilayers, and indicate that the PIV5 fusion protein TMD harbors two functions: the central ?-helical core is the trimerization unit of the protein while the two termini are responsible for inducing membrane curvature by transitioning to a ?-sheet conformation.
PMID: 29330069 [PubMed - as supplied by publisher]
[NMR paper] NMR structures and localization of the potential fusion peptides and the pre-transmembrane region of SARS-CoV: Implications in membrane fusion.
NMR structures and localization of the potential fusion peptides and the pre-transmembrane region of SARS-CoV: Implications in membrane fusion.
NMR structures and localization of the potential fusion peptides and the pre-transmembrane region of SARS-CoV: Implications in membrane fusion.
Biochim Biophys Acta. 2014 Dec 2;
Authors: Mahajan M, Bhattacharjya S
Abstract
Severe acute respiratory syndrome-associated coronavirus (SARS-CoV) poses a serious public health hazard. The S2 subunit of the S glycoprotein of SARS-CoV carries out...
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Conformation and Lipid Interaction of the Fusion Peptide of the Paramyxovirus PIV5 in Anionic and Negative-Curvature Membranes from Solid-State NMR
Conformation and Lipid Interaction of the Fusion Peptide of the Paramyxovirus PIV5 in Anionic and Negative-Curvature Membranes from Solid-State NMR
Hongwei Yao and Mei Hong
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/ja4121956/aop/images/medium/ja-2013-121956_0011.gif
Journal of the American Chemical Society
DOI: 10.1021/ja4121956
http://feeds.feedburner.com/~ff/acs/jacsat?d=yIl2AUoC8zA
http://feeds.feedburner.com/~r/acs/jacsat/~4/ND8oy78Fk1s
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[NMR paper] Conformation and Lipid Interaction of the Fusion Peptide of the Paramyxovirus PIV5 in Anionic and Negative-Curvature Membranes From Solid-State NMR.
Conformation and Lipid Interaction of the Fusion Peptide of the Paramyxovirus PIV5 in Anionic and Negative-Curvature Membranes From Solid-State NMR.
http://www.bionmr.com//www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--pubs.acs.org-images-pubmed-acspubs.jpg Related Articles Conformation and Lipid Interaction of the Fusion Peptide of the Paramyxovirus PIV5 in Anionic and Negative-Curvature Membranes From Solid-State NMR.
J Am Chem Soc. 2014 Jan 16;
Authors: Yao H, Hong M
Abstract
Viral fusion proteins catalyze the merger of the virus...
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01-17-2014 11:07 PM
[NMR paper] Solid-state NMR spectroscopy of the HIV gp41 membrane fusion protein supports intermolecular antiparallel ? sheet fusion peptide structure in the final six-helix bundle state.
Solid-state NMR spectroscopy of the HIV gp41 membrane fusion protein supports intermolecular antiparallel ? sheet fusion peptide structure in the final six-helix bundle state.
Related Articles Solid-state NMR spectroscopy of the HIV gp41 membrane fusion protein supports intermolecular antiparallel ? sheet fusion peptide structure in the final six-helix bundle state.
J Mol Biol. 2013 Nov 15;
Authors: Sackett K, Nethercott MJ, Zheng Z, Weliky DP
Abstract
The HIV gp41 protein catalyzes fusion between viral and target cell membranes. Although...
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11-20-2013 12:52 PM
Solid-state NMR spectroscopy of the HIV gp41 membrane fusion protein supports intermolecular antiparallel ? sheet fusion peptide structure in the final six-helix bundle state
Solid-state NMR spectroscopy of the HIV gp41 membrane fusion protein supports intermolecular antiparallel ? sheet fusion peptide structure in the final six-helix bundle state
Publication date: Available online 16 November 2013
Source:Journal of Molecular Biology</br>
Author(s): Kelly Sackett , Matthew J. Nethercott , Zhaoxiong Zheng , David P. Weliky</br>
The HIV gp41 protein catalyzes fusion between viral and target cell membranes. Although the ~20-residue N-terminal fusion peptide (FP) region is critical for fusion, the structure of this region is not...
Conformation and Trimer Association of the Transmembrane Domain of the Parainfluenza Virus Fusion Protein in Lipid Bilayers from Solid-State NMR: Insights into the Sequence Determinants of Trimer Structure and Fusion Activity.
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