An international team of scientists has revealed how rogue rings of DNA that float outside of our chromosomes—known as extrachromosomal DNA, or ecDNA—can drive the growth of a large proportion of ...

Researchers have announced two major experimental breakthroughs: a DNA-based nanoscale tool to precisely position fragile membrane proteins, and the discovery of new high-pressure ice phases, ...

Tumors sometimes seem to take on a life of their own, growing at an unusually fast rate or suddenly developing resistance to a cancer drug. This behavior is often explained by cancer genes separating ...

Scientists at Durham University, working in partnership with Jagiellonian University in Poland, have developed a new nanoscale tool that can capture and precisely position some of the most important ...

An international team of scientists has revealed how rogue rings of DNA that float outside of our chromosomes – known as extrachromosomal DNA, or ecDNA – can drive the growth of a large proportion of ...

Software lets researchers create tiny rounded objects out of DNA. Here’s why that’s cool. DURHAM, N.C. -- Marvel at the tiny nanoscale structures emerging from research labs at Duke University and ...

A gel held together entirely by interlocking DNA rings exhibits mechanical properties unlike any conventional gel, driven purely by topology. (Nanowerk Spotlight) A chainmail shirt holds together not ...

New nanoscale platform traps and orients individual membrane proteins inside tiny structures, unlocking advances in drug discovery, cryo-EM imaging and synthetic biology. The research focuses on ...