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

Exploring the full complexity of cells at the molecular level will require the fashioning of new tools that allow researchers to manipulate complex biological processes in unique ways. Small organic ...

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 ...

Saliva is a viable alternative source of nucleic acids. A new collection device offers stable and easy saliva collection for extracting both DNA and RNA from a single sample.

Biocompatible silicon nanoneedles, which can efficiently deliver nucleic acids and nanoparticles into biological cells without damaging them, have been developed by an international team of ...

At the heart of molecular biology is the study of genetic material – DNA and RNA – which serve as the fundamental blueprints for life. These nucleic acids are not only essential for understanding how ...

Thanks to the novel Thermo Scientific™ Acclaro™ Sample Intelligence technology, the NanoDrop One delivers comprehensive sample quality information via the identification of common contaminants and the ...

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 ...

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 ...

Understanding the integrity and quantity of your nucleic acid samples is critical for next-generation sequencing (NGS) and biobanking workflows. Whether you are working with gDNA, cfDNA or RNA, this ...