The re-transcribed DNA is then integrated into the genome of the host cell (Figure 2). This process requires the absence of the nuclear membrane and thus is restricted to the M-phase of proliferating ...

Ancient viral fossils buried in our DNA are offering fresh clues about how today’s respiratory pathogens infect and spread. By tracing the shared architecture between long-extinct retroviruses and ...

Three experimental injectable antiretrovirals – a novel capsid inhibitor and two next-generation integrase inhibitors – could ...

The inhibition of HIV-1’s replicative machinery remains a cornerstone in the battle against AIDS. Central to this approach are inhibitors targeting reverse transcriptase (RT) and integrase. Reverse ...

The rate of HIV infection continues to climb globally. Around 40 million people live with HIV-1, the most common HIV strain. While symptoms can now be better managed with lifelong treatment, there is ...