In situ model of the nuclear pore complex transport barrier: Tethered within the pore are highly dynamic protein threads termed FG Nups (green). Under physiological conditions, cargo-carrying ...

UNSW medical researcher Dr. David Jacques and his team have discovered how the human immunodeficiency virus (HIV) breaches the cell nucleus to establish infection, a finding that has implications ...

- Professors Hao F. Zhang and Xiaomin Bao’s groups used super-resolution imaging on human skin cells for the first time. - The researchers explored the gateways between the cells’ cytoplasm and ...

Super-resolution microscopy has promoted the development of cell biology, but imaging proteins with low copy numbers in cellular structures remains challenging. The limited number of designated ...

Because viruses have to hijack someone else’s cell to replicate, they’ve gotten very good at it—inventing all sorts of tricks. A new study from two University of Chicago scientists has revealed how ...

This is a preview. Log in through your library . Journal Information The Journal of Cell Biology (JCB) is a not-for-profit publication, edited by scientists, and a leading life sciences journal. The ...

Nuclear pore complexes are more dynamic than previously thought, reshaping our understanding of a vital transport process in cells. An international study led by the University of Basel (Switzerland) ...

Researchers have found that the stability of a protein next to its nuclear localization signal sequence impacts the rate of its entry into the nucleus. Recent research from The Francis Crick Institute ...

In a recent landmark study, scientists have unveiled how HIV-1 penetrates the cell's nuclear barrier—a discovery that could reshape antiviral strategies. The research, led by Professor Peijun Zhang, ...