In one sentence: DNA origami is a self-assembly technique that folds a long single-stranded DNA molecule into precisely defined nanoscale shapes using hundreds of short, computer-designed staple ...

Researchers at The University of Texas at Austin have uncovered key principles that govern how DNA "origami" structures fold, ...

DNA nanotechnology exploits the predictable base-pairing and structural versatility of nucleic acids to engineer nanoscale architectures and dynamic devices. By programming strand sequences, ...

Researchers used DNA nanotechnology to build a synthetic membrane that mimics cell pores, enabling coordinated transport and ...

In the rapid and fast-growing world of nanotechnology, researchers are continually on the lookout for new building blocks to push innovation and discovery to scales much smaller than the tiniest speck ...

Scientists at the University of Stuttgart have succeeded in controlling the structure and function of biological membranes with the help of "DNA origami". The system they developed may facilitate the ...

A new synthetic microreactor uses DNA nanopores and membrane dynamics to mimic communication and organization found in living ...

The shape and morphology of a cell play a key role in the biological function. This corresponds to the principle of "form follows function," which is common in modern fields of design and architecture ...

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

LMU chemists present two studies that open up new possibilities for biotechnological applications. In the world of nanotechnology, the development of dynamic systems that respond to molecular signals ...

To assemble these minuscule structures, researchers first create a scaffold: a long piece of single-stranded DNA with a carefully designed sequence of bases. Then they add hundreds of shorter DNA ...