By Hugo Francisco de Souza Trained on genomic data spanning the tree of life, Evo 2 reveals how artificial intelligence can ...

Scientists have uncovered how brewer’s yeast developed its unusually tiny centromeres, the DNA regions that guide chromosome separation during cell division. By studying related yeast species, ...

For many years, researchers believed that the DNA inside a newly fertilized egg began as a structural ‘blank slate’ – a loose, unorganized mass that would only take shape once the embryo started using ...

A fleeting DNA fold called i‑DNA can switch cancer‑related genes on and off, revealing a hidden structural weak point that ...

A study published today in the journal Science reveals how jumping fragments of human DNA, a type of genetic parasite, ...

Nabsys and the Research Lab of Dr. Martin Taylor, Brown University, Present Data Using the OhmX™ Platform at AGBT 2026 ...

DNA methylation is a highly studied epigenetic modification that regulates genome function and plays key roles in development and disease 1. It is linked to a broad range of conditions, including ...

Human DNA constantly refolds in 3D space, and these looping dynamics regulate gene expression and cell identity.

Most lethal mutations in wild fruit flies are driven by newly transferred jumping genes, not small DNA errors, according to a new study from Duke University. The findings, published in PLOS Biology, ...

AGBT is also, increasingly, a showcase for instruments for spatial biology, a fast-growing field that involves pinpointing the location of RNA and protein molecules en masse. Tarbox calls the meeting ...

The genome is more than a linear code; it is a dynamic structure whose three-dimensional folding dictates how genes are regulated. Traditional sequencing technologies capture base-level variation but ...