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Plasticity of influenza haemagglutinin fusion peptides and their interaction with lipid bilayers

TitlePlasticity of influenza haemagglutinin fusion peptides and their interaction with lipid bilayers
Publication TypeJournal Article
Year of Publication2005
AuthorsVaccaro, L, Cross, KJ, Kleinjung, J, Straus, SK, Thomas, DJ, Wharton, SA, Skehel, JJ, Fraternali, F
JournalBiophysical Journal
Volume88
Pagination25-36
Date PublishedJan
Type of ArticleArticle
ISBN Number0006-3495
KeywordsANALOGS, CONFORMATION, HEMAGGLUTININ, MEDIATED MEMBRANE-FUSION, MODEL MEMBRANES, MOLECULAR-DYNAMICS SIMULATION, MULTIPLE ALIGNMENT, RECEPTOR-BINDING, SEQUENCE, VIRAL FUSION, VIRUS
Abstract

A detailed molecular dynamics study of the haemagglutinin fusion peptide (N-terminal 20 residues of the HA2 subunits) in a model bilayer has yielded useful information about the molecular interactions leading to insertion into the lipids. Simulations were performed on the native sequence, as well as a number of mutant sequences, which are either fusogenic or nonfusogenic. For the native sequence and fusogenic mutants, the N-terminal 11 residues of the fusion peptides are helical and insert with a tilt angle of similar to30degrees with respect to the membrane normal, in very good agreement with experimental data. The tilted insertion of the native sequence peptide leads to membrane bilayer thinning and the calculated order parameters show larger disorder of the alkyl chains. These results indicate that the lipid packing is perturbed by the fusion peptide and could be used to explain membrane fusion. For the nonfusogenic sequences investigated, it was found that most of them equilibrate parallel to the interface plane and do not adopt a tilted conformation. The presence of a charged residue at the beginning of the sequence (G1E mutant) resulted in a more difficult case, and the outcomes do not fall straightforwardly into the general picture. Sequence searches have revealed similarities of the fusion peptide of influenza haemagglutinin with peptide sequences such as segments of porin, amyloid ab peptide, and a peptide from the prion sequence. These results confirm that the sequence can adopt different folds in different environments. The plasticity and the conformational dependence on the local environment could be used to better understand the function of fusion peptides.

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