Human immunodeficiency virus type 1 (HIV-1) targets important cells of our immune system, making infected individuals more ...

在一项新的研究中，来自亥姆霍兹RNA感染研究所和雷根斯堡大学的一个研究团队针对导致艾滋病的病毒HIV-1如何巧妙地劫持细胞机制以维持自身生存提出新的见解。通过剖析这种病毒与其宿主之间的分子相互作用，他们确定了HIV-1在抑制宿主细胞防御的同时确保其自身复制的新策略。

Researchers at the Max Planck Institute of Biophysics and Heidelberg University have observed largely intact HIV-1 capsids as ...

A unique reaction in which antibodies bind to other antibodies may help scientists at Scripps Research better understand how ...

A team of scientists at the Helmholtz Institute for RNA-based Infection Research (HIRI) in Würzburg and the University of ...

Scientists have unveiled insights into how HIV-1, the virus responsible for AIDS, skillfully hijacks cellular machinery for its own survival. By dissecting the molecular interplay between the virus ...

Do you notice the tiny red-ringed dots in this image? Those little spots are HIV particles. They are concentrated on contact points in the brain between an infected immune cell and an uninfected ...

Many vaccines work by introducing a protein to the body that resembles part of a virus. Ideally, the immune system will produce long-lasting antibodies recognizing that specific virus, thereby ...

These findings into HIV biology could help to inform the search for new treatments. The paper is published in the journal ...

This is a mugshot of a killer. The little yellow dots are HIV (human immunodeficiency virus) particles, also called virions. HIV is the virus that causes AIDS (acquired immunodeficiency syndrome), an ...

Scientists discovered that repetitive HIV vaccinations can lead the body to produce antibodies targeting the immune complexes ...

HIV-1 Tat has been the vanguard of Pol II transcription elongation control for more than two decades 3.Nevertheless, its mechanism of action has ceased to be recognized as a viral peculiarity only ...