A gel held together entirely by interlocking DNA rings exhibits mechanical properties unlike any conventional gel, driven purely by topology.

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 ...

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 ...

Together with colleagues from the USA, scientists from the University of Bonn and the research institute Caesar in Bonn have used nano-structures to construct a tiny machine that constitutes a ...

In order for a machine to perform work, it needs parts that move relative to each other. This also holds true for nanoscale machines. German scientists have now used DNA molecules to make a nanoscale ...