Nucleic acids are chains of nucleotides that are a vital part of all living beings. The two most common types of nucleic acids are deoxyribonucleic acid (DNA) and ribonucleic acid (RNA), which provide ...

What are spherical nucleic acids (SNAs)? What do they consist of and how do they differ from linear nucleic acids? Spherical nucleic acids are structures that are made by taking a nanoparticle ...

Nucleic acids are essential for the functioning and development of living organisms. DNA carries genetic information that determines traits such as eye color and susceptibility to diseases in humans, ...

Endosomal and cytosolic nucleic acid receptors sense microbial nucleic acids and initiate innate immune responses. However, in some circumstances their activation by endogenous nucleic acids can also ...

The intracellular environment is highly compartmentalized; biomolecules (nucleic acids, proteins, lipids and so on) are spatiotemporally organized to form functional modules, signal pathways and ...

Our research focuses on all aspects of nucleic acid structure, chemistry and function employing state of the art technologies and approaches. The structure and chemistry of nucleic acids is ...

Nucleic acid extraction is a fundamental step in unlocking the genetic information contained within biological samples. Isolated nucleic acids are the basis for a multitude of analyses and ...

Nucleic acids such as DNA and RNA play a central role in gene therapies and vaccines. They store and transmit biological ...

Some biologists have long hoped that small pieces of RNA that silence genes could help wipe out genetic diseases. But developing nucleic acid medications with good drug properties, such as selectivity ...

The research focus of the Müller group is the bioinorganic chemistry of nucleic acids with a particular emphasis on the generation, characterization as well as application of nucleic acids including ...