Cryo-EM revealed HIV-1 integrase’s distinct structures as it shifts between its two roles of DNA integration and RNA-binding.

On the left is integrase in its “intasome” structure of four identical four-part complexes (pink) that connect to create one 16-part complex that locks around viral DNA (blue). On the right is ...

Human immunodeficiency virus type 1 (HIV-1) targets important cells of our immune system, making infected individuals more vulnerable to diseases and infections. Once inside human cells, HIV ...

Left: Structure of the Human Immunodeficiency Virus (HIV). Note the envelope protein that protects the virus against immunological detection and the small genome consisting of two short strands of RNA ...

The efficiency of HIV-1 replication hinges on the dynamic interplay between viral RNA and an array of viral and host proteins. At the core of this process is the dual role of the unspliced viral RNA, ...

A computational model of the more than 26 million atoms in a DNA-packed viral capsid expands our understanding of virus structure and DNA dynamics, insights that could provide new research avenues and ...

Smuggling its genome into the nucleus is essential for HIV to infect its host, but entering the cell’s control center is no easy feat. Molecules must pass through tightly-regulated nuclear pores on ...

xGen™ HIV Amplicon Panel provides a single-tube, 2.5-hour workflow designed to enable detection down to 1,000 viral genome copies “This launch represents one of the many ways IDT is continuing to ...

Left: Structure of the Human Immunodeficiency Virus (HIV). Note the envelope protein that protects the virus against immunological detection and the small genome consisting of two short strands of RNA ...

The first atom-level model of a DNA-packed viral capsid reveals genome structure and possible new drug targets, University of Illinois researchers report. Pictured, from left: physics professor ...