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 ...

Mount Sinai researchers have developed a method to uncover the hidden immune cells that harbor the human immunodeficiency virus (HIV), a discovery that brings medical experts one step closer to a ...

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 ...

This molecule, known as EBC-46, works by temporarily activating the HIV virus in the affected cells as they hide so that the body’s immune system can remove the virus, according to a study published ...

A new antiretroviral target has been identified that suppresses HIV-1 replication and selectively kills HIV-1-infected cells. HIV-1 is the most common type of HIV. When HIV-1 leaves infected cells, ...

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 ...