With the flick of a light, researchers have found a way to rearrange life's basic tapestry, bending DNA strands back on ...

In the world of nanotechnology, the development of dynamic systems that respond to molecular signals is becoming increasingly ...

Researchers have created DNA origami-based sensors capable of detecting lipid vesicles and delivering molecular cargo using ...

Researchers show how DNA origami and fluorescent probes can be used to release molecular cargo in a targeted manner.

By turning droplets into tools for physically repositioning DNA, scientists can now explore gene expression with ...

The first crystal structure of an alternative DNA shape from the insulin gene has been revealed by a UCL-led research team.

The first crystal structure of an alternative DNA shape from the insulin gene has been revealed by a UCL-led research team.

Dr. Waller explained: "We were able to crystallize a four-stranded DNA structure, called an 'i-motif'. Our crystals allowed us to determine exactly what the structure of this DNA looks like using ...

With the flick of a light, researchers have found a way to rearrange life's basic tapestry, bending DNA strands back on ...

Cas9, the first Cas protein repurposed for cutting DNA, introduces double-strand breaks that recruit DNA repair machinery. Despite its successes, the CRISPR-Cas9 system has several limitations, ...

RNA modulates transcription factor binding to DNA, though the subsequent effect on transcription remains unclear. The study ...

LMU chemists present two studies that open up new possibilities for biotechnological applications.