A predictive biophysical model that integrates protein-DNA structures and sequences to accurately determine genomic binding sites and affinities of DNA-binding proteins.

A new study shows that over 99% of the human genome can be accurately assembled by focusing on 65 diverse humans.

Scientists have reached a new milestone in decoding the human genome, unlocking complex regions once believed to be too difficult to study. Researchers used long-read sequencing to analyze the DNA of ...

Imagine if you could "print" a tiny skyscraper using DNA instead of steel. That’s what researchers at Columbia and Brookhaven ...

Genome assemblies from 65 individuals, representing a variety of the world’s populations, are advancing the scientific exploration of complex genetic structural variation. Structural variations are ...

Genome assemblies from 65 individuals, representing a variety of the world's populations, are advancing the scientific exploration of complex genetic ...

Compared to existing references, the Arab pangenome, or UAE Pangenome Reference (UPR) delivered improved mapping rates, better variant recall, and greater insight into regions tied to recessive ...

In this week’s edition of The Prototype, we look at a quantum computing milestone for biotech, a new way to get forever ...

The era of bio-digital convergence is upon us two decades after it was first predicted, and the merging of biology and ...

A Ph.D. graduate student in biomolecular engineering at UC Santa Cruz, with a background in computer science and mathematics, ...

Scientists have established a new design strategy for building 3D materials and devices in a bottom-up manner, using a set of ...

Scientists have shed new light on the rhino family tree after recovering a protein sequence from a fossilized tooth from more ...