LMU chemists have developed a versatile biosensor using DNA origami that can easily adapt to various biomolecular targets.

Researchers led by Philip Tinnefeld have created DNA origami-based sensors capable of detecting lipid vesicles and delivering molecular cargo using fluorescence resonance energy transfer (FRET). Their ...

Researchers have developed a strategy that enables biosensors to be easily adapted for a wide range of applications.

In case you had any doubts that we live in the future, scientists just created a medical device straight out of Star Trek or, depending on your view of ...

Professor Leo Chou (BME) has been awarded $130,000 in funding from the Cancer Research Society (CRS) to propel forward an ...

Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert ...

A key area of focus is DNA assembly, including a technique known as DNA origami. An ever-increasing number of research groups are exploiting programmable self-assembly properties of nucleic acids in ...

Nanoscopic DNA chips assembled using the DNA origami method enable target detection in solution and hold promise for single-cell gene expression analysis. In 2006 Paul Rothemund of the California ...