A new LUMC study has changed our understanding of how cells work. Researchers have discovered that the CFAP20 protein acts as ...

Researchers at Colorado State University have determined how to use artificial intelligence to modify antibodies so they act ...

DNA doesn’t just sit still inside our cells — it folds, loops, and rearranges in ways that shape how genes behave.

Scientists have uncovered a surprising viral shortcut that turns moving cells into delivery vehicles for infection. Instead ...

The technology, called the Viral-Engineered RNA-based Activation System (VERAS), hijacks the virus's own replication ...

Researchers at The Institute of Cancer Research, London identified the CIP2A–TOPBP1 complex as a master regulator of DNA repair during mitosis, coordinating backup pathways that protect chromosomes ...

This important study, which tackles the challenge of analyzing genome integrity and instability in unicellular pathogens by introducing a novel single-cell genomics approach, presents compelling ...

Scientific progress depends on results that can be repeated – yet across disciplines, too many experiments fail that test.

ELF3 axis enables luminal progenitor transformation in BRCA1-deficient breast cancer by reducing genomic instability and promoting progenitor identity.

New scientific methods could one day render animal studies—the standard in research laboratories for more than 100 ...

The discovery that tissues use electricity to expel unhealthy cells is part of a surge of renewed interest in the currents ...

Researchers say discoveries could expand the CRISPR toolbox and lead to more efficient, rapid diagnostic tools for detecting COVID-19, influenza, and RSV.