Another important discovery was an intricate RNA structure near the critical ... detailed map of the translational landscape of HIV-1 infected cells but also a wealth of potential targets for ...

This transmission electron microscopy image shows HIV viral particles (yellow) near the end of the budding process; the cell they’ve infected is in blue. However, viruses like HIV require a living ...

Ten UCSF graduate students presented their research in accessible, 3-minute talks at the 2025 Grad Slam event. This year’s ...

Two research teams led by Warner Greene at the Gladstone Institutes in San Francisco have demonstrated that the vast majority of CD4 T cells in lymphoid tissues, despite their ability to resist full ...

Figure 1: Domain organization and structure of ALIX. The papers discussed here greatly enhance our understanding of how HIV-1 and related viruses make contact with the cellular machinery that they ...

The researchers developed a genetic system to mark HIV-infected cells and then study both infected and dormant cell populations. They used humanized mice models to develop a fluorescent red-to ...

Figure 1: The HIV-1 central DNA flap enhances gene ... higher relative number of integrated vector molecules per cell. The flap structure probably allows the reverse-transcribed genome to be ...

However, they were uncertain about how HIV controls the remodeling of the cell membrane as it exits the cells and what role the lipid envelope plays in HIV replication. “Viruses in general, because ...

Study findings provide a new gene pathway for potential treatment of the virus affecting millions. Mount Sinai researchers have developed a method to uncover the hidden immune cells that harbor ...