Molecular Characterization of Influenza C Viruses from Outbreaks in Hong Kong SAR, China.

In 2014, the Centre for Health Protection in Hong Kong introduced screening for influenza C virus (ICV) as part of its routine surveillance for infectious agents in specimens collected from patients presenting with symptoms of respiratory viral infection, including influenza-like illness (ILI). A retrospective analysis of ICV detections up to week 26 of 2019 revealed persistent low-level circulation, with two outbreaks having occurred in the winters of 2015 to 2016 and 2017 to 2018. These outbreaks occurred at the same time as, and were dwarfed by, seasonal epidemics of influenza types A and B.

Composition and functions of the influenza fusion peptide.

Fusion of the influenza virus envelope with the endosomal membrane of host cells is mediated by the hemagglutinin glycoprotein (HA). The most conserved region of HA is at the N-terminus of the HA2 subunit, a relatively hydrophobic sequence of amino acids referred to as the fusion peptide. This domain is critical both for setting the trigger for fusion and for destabilizing target membranes during the fusion process.

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

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 approximately 30 degrees with respect to the membrane normal, in very good agreement with experimental data.