Jyvaskylavirus is detailed in a study recently published in eLife, and named for Jyväskylä, the Finnish city where it was ...

More information: Edward A. Partlow et al, Influenza A virus rapidly adapts particle shape to environmental pressures, Nature Microbiology (2025). DOI: 10.1038/s41564-025-01925-9 Provided by NIH ...

lies underneath the envelope and structurally supports the particle. Contained within this matrix shell is the viral RNA genome, which (for influenza A viruses) consists of eight single-stranded ...

The influenza virus manipulates the body's gene regulation system to accelerate its own spread, according to researchers at ...

14,17–19 The influenza-virus particle may be thought of as a spherical "shell" that encloses the nucleoprotein constituents. Comprising the "shell" are a complex of diverse antigenic components.

Meanwhile, current influenza vaccines ... but altered it to remove glycoproteins from the virus particle's surface—a step ...

The influenza virus manipulates the body's gene regulation system to accelerate its own spread. A new study also shows that an already approved drug could help strengthen immune defenses -- though its ...

In preclinical studies, the drug candidate rapidly blocked the Raf/MEK/ERK signaling pathway, significantly reducing influenza virus particle production in the body. Phase 1 data show that ATR-002 ...

A lipid (fatty) covering that surrounds a viral particle. It is derived from the cell ... stable outside of a host than viruses that lack an envelope. Viruses that are enveloped include HIV, influenza ...

In the Virus-Like Particle Translational Oncology Laboratory ... We have modified vaccine immunogens into chimeric HIV VLPs which contain influenza viral surface glycoprotein HA or other ...

A research paper titled “Targeted recruitment of immune effector cells for rapid eradication of influenza virus infections” has been published in the peer-reviewed Proceedings of the National Academy ...

Intranasal influenza virus-vectored vaccine offers protection against clade 2.3.4.4b H5N1 infection in small animal models. Nature Communications , 2025; 16 (1) DOI: 10.1038/s41467-025-58504-z ...