Secondary structure, phospholipid membrane interactions, and fusion activity of two glutamate-rich analogs of influenza hemagglutinin fusion peptide |
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Authors: | Kantchev Eric Assen B Cheng Shu-Fang Wu Cheng-Wei Huang Hung-Jen Chang Ding-Kwo |
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Affiliation: | Institute of Chemistry, Academia Sinica, Nankang, Taipei 11529, Taiwan. |
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Abstract: | Two synthetic mutants of influenza HA2 fusion peptide (residues 1-25), containing Glu on the polar (residues 4,8-E5(4,8)) or the hydrophobic (residues 3,7-E5(3,7)) face of the amphipathic helix, were synthesized and labeled with NBD at the N-terminus. Introduction of Glu residues into the fusion peptide leads to increased sensitivity of various biochemical properties to pH compared to the wild type. The E5 peptides showed a decrease of alpha-helix content and increase of beta-sheet structure. Lipid binding was diminished, but not abolished even at high pH. The E5 analogs penetrate the lipid bilayer less deeply than the wild type, especially at high pH. The N-terminal half of the peptide showed significant variation of the depth of the penetration into the lipid bilayer. Both E5 peptides were fusion active. The properties of E5(3,7) were more affected by the Glu substitution and showed greater variation with pH than E5(4,8). |
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Keywords: | Influenza hemagglutinin Fusion peptide Fluorescence resonance energy transfer Lipid-peptide interaction Peptide aggregation Membrane fusion |
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